Table of Contents
- Dell EMC Networking CLI
- Introduction
- Command Groups
- Mode Types
- ACL
- Address Table
- Auto-VoIP
- CDP Interoperability
- DHCP L2 Relay
- DHCP Snooping
- Dynamic ARP Inspection
- Ethernet Configuration
- Ethernet CFM
- Green Ethernet
- GVRP
- IGMP Snooping
- IGMP Snooping Querier
- IP Addressing
- IPv6 ACL
- IPv6 MLD Snooping
- IPv6 MLD Snooping Querier
- IP Source Guard
- iSCSI Optimization
- Link Dependency
- LLDP
- Loop Protection
- MLAG
- Multicast VLAN Registration
- Port Channel
- Port Monitor
- QoS
- Spanning Tree
- UDLD
- VLAN
- Voice VLAN
- AAA
- Administrative Profiles
- E-mail Alerting
- RADIUS
- TACACS+
- 802.1x
- Captive Portal
- Denial of Service
- Management ACL
- Password Management
- SSH
- MMRP
- MVRP
- MSRP
- 802.1AS Timesync
- Data Center Bridging
- OpenFlow
- Priority Flow Control
- ARP (IPv4)
- BFD
- BGP
- BGP Routing Policy
- DHCP Server and Relay Agent (IPv4)
- DHCPv6
- DHCPv6 Snooping
- DVMRP
- GMRP
- IGMP
- IGMP Proxy
- IP Helper/DHCP Relay
- IP Routing
- IPv6 Routing
- Loopback Interface
- Multicast
- IPv6 Multicast
- OSPF
- OSPFv3
- Router Discovery Protocol
- Routing Information Protocol
- Tunnel Interface
- Virtual Router
- Virtual Router Redundancy
- Application Deployment
- Auto-Install
- CLI Macro
- Clock
- Command Line Configuration Scripting
- DHCP Client
- HiveAgent
- Line
- PHY Diagnostics
- Power Over Ethernet (PoE)
- RMON
- Serviceability Tracing
- sFlow
- SNMP
- Support Assist
- Syslog
- System Management
- Telnet Server
- Time Ranges
- USB Flash Drive
- User Interface
- Web Server
- Using the CLI
- Layer 2 Switching Commands
- ACL Commands
- ACL Logging
- Commands in this Section
- ip access-list
- deny | permit (IP ACL)
- deny | permit (Mac-Access-List-Configuration)
- ip access-group
- mac access-group
- mac access-list extended
- mac access-list extended rename
- remark
- service-acl input
- show service-acl interface
- show access-lists interface
- show ip access-lists
- show mac access-lists
- MAC Address Table Commands
- Commands in this Section
- clear mac address-table
- mac address-table aging-time
- mac address-table multicast forbidden address
- mac address-table static vlan
- switchport port-security (Global Configuration)
- switchport port-security (Interface Configuration)
- show mac address-table multicast
- show mac address-table
- show mac address-table address
- show mac address-table count
- show mac address-table dynamic
- show mac address-table interface
- show mac address-table static
- show mac address-table vlan
- show port-security
- Auto-VoIP Commands
- CDP Interoperability Commands
- DHCP Layer 2 Relay Commands
- Commands in this Section
- dhcp l2relay (Global Configuration)
- dhcp l2relay (Interface Configuration)
- dhcp l2relay circuit-id
- dhcp l2relay remote-id
- dhcp l2relay trust
- dhcp l2relay vlan
- show dhcp l2relay all
- show dhcp l2relay interface
- show dhcp l2relay stats interface
- show dhcp l2relay agent-option vlan
- show dhcp l2relay vlan
- show dhcp l2relay circuit-id vlan
- show dhcp l2relay remote-id vlan
- clear dhcp l2relay statistics interface
- DHCP Snooping Commands
- Commands in this Section
- clear ip dhcp snooping binding
- clear ip dhcp snooping statistics
- ip dhcp snooping
- ip dhcp snooping binding
- ip dhcp snooping database
- ip dhcp snooping database write-delay
- ip dhcp snooping limit
- ip dhcp snooping log-invalid
- ip dhcp snooping trust
- ip dhcp snooping verify mac-address
- show ip dhcp snooping
- show ip dhcp snooping binding
- show ip dhcp snooping database
- show ip dhcp snooping interfaces
- show ip dhcp snooping statistics
- DHCPv6 Snooping Commands
- clear ipv6 dhcp snooping binding
- clear ipv6 dhcp snooping statistics
- ipv6 dhcp snooping
- ipv6 dhcp snooping vlan
- ipv6 dhcp snooping binding
- ipv6 dhcp snooping database
- ipv6 dhcp snooping database write-delay
- ipv6 dhcp snooping limit
- ipv6 dhcp snooping log-invalid
- ipv6 dhcp snooping trust
- ipv6 dhcp snooping verify mac-address
- ipv6 verify binding
- ipv6 verify source
- show ipv6 dhcp snooping
- show ipv6 dhcp snooping binding
- show ipv6 dhcp snooping database
- show ipv6 dhcp snooping interfaces
- show ipv6 dhcp snooping statistics
- show ipv6 source binding
- show ipv6 verify
- show ipv6 verify source
- Dynamic ARP Inspection Commands
- Ethernet Configuration Commands
- Commands in this Section
- clear counters
- description
- duplex
- flowcontrol
- interface
- interface range
- link debounce time
- rate-limit cpu
- show interfaces
- show interfaces advertise
- show interfaces configuration
- show interfaces counters
- show interfaces debounce
- show interfaces description
- show interfaces detail
- show interfaces status
- show interfaces transceiver
- show statistics
- show statistics switchport
- show storm-control
- show storm-control action
- shutdown
- speed
- switchport protected
- switchport protected name
- show switchport protected
- show system mtu
- system jumbo mtu
- Ethernet CFM Commands
- Commands in this Section
- ethernet cfm domain
- service
- ethernet cfm cc level
- ethernet cfm mep level
- ethernet cfm mep enable
- ethernet cfm mep active
- ethernet cfm mep archive-hold-time
- ethernet cfm mip level
- ping ethernet cfm
- traceroute ethernet cfm
- show ethernet cfm errors
- show ethernet cfm domain
- show ethernet cfm maintenance-points local
- show ethernet cfm maintenance-points remote
- show ethernet cfm statistics
- Green Ethernet Commands
- GMRP Commands
- GVRP Commands
- IGMP Snooping Commands
- Commands in this Section
- ip igmp snooping
- show ip igmp snooping
- show ip igmp snooping groups
- show ip igmp snooping mrouter
- ip igmp snooping vlan immediate-leave
- ip igmp snooping vlan groupmembership-interval
- ip igmp snooping vlan last-member-query- interval
- ip igmp snooping vlan mcrtrexpiretime
- ip igmp snooping report-suppression
- ip igmp snooping unregistered floodall
- ip igmp snooping vlan mrouter
- IGMP Snooping Querier Commands
- Interface Error Disable and Auto Recovery
- IPv6 Access List Commands
- IPv6 MLD Snooping Commands
- Commands in this Section
- ipv6 mld snooping vlan groupmembership- interval
- ipv6 mld snooping vlan immediate-leave
- ipv6 mld snooping listener-message-suppression
- ipv6 mld snooping vlan last-listener-query- interval
- ipv6 mld snooping vlan mcrtrexpiretime
- ipv6 mld snooping vlan mrouter
- ipv6 mld snooping (Global)
- show ipv6 mld snooping
- show ipv6 mld snooping groups
- show ipv6 mld snooping mrouter
- IPv6 MLD Snooping Querier Commands
- IP Source Guard Commands
- iSCSI Optimization Commands
- Link Dependency Commands
- LLDP Commands
- Commands in this Section
- clear lldp remote-data
- clear lldp statistics
- dcb enable
- lldp med
- lldp med confignotification
- lldp med faststartrepeatcount
- lldp med transmit-tlv
- lldp notification
- lldp notification-interval
- lldp receive
- lldp timers
- lldp transmit
- lldp transmit-mgmt
- lldp transmit-tlv
- show lldp
- show lldp interface
- show lldp local-device
- show lldp med
- show lldp med interface
- show lldp med local-device detail
- show lldp med remote-device
- show lldp remote-device
- show lldp statistics
- Loop Protection
- MLAG Commands
- Commands in this Section
- clear vpc statistics
- feature vpc
- peer detection enable
- peer detection interval
- peer-keepalive destination
- peer-keepalive enable
- peer-keepalive timeout
- role priority
- show vpc
- show vpc brief
- show vpc consistency-parameters
- show vpc consistency-features
- show vpc peer-keepalive
- show vpc role
- show vpc statistics
- system-mac
- system-priority
- vpc
- vpc domain
- vpc peer-link
- Multicast VLAN Registration Commands
- Port Channel Commands
- Static LAGS
- VLANs and LAGs
- LAG Thresholds
- LAG Hashing
- Enhanced LAG Hashing
- Manual Aggregation of LAGs
- Flexible Assignment of Ports to LAGs
- Commands in this Section
- channel-group
- interface port-channel
- interface range port-channel
- hashing-mode
- lacp port-priority
- lacp system-priority
- lacp timeout
- port-channel local-preference
- port-channel min-links
- show interfaces port-channel
- show lacp
- show statistics port-channel
- Port Monitor Commands
- QoS Commands
- Access Control Lists
- Layer 2 ACLs
- Layer 3/4 IPv4 ACLs
- Class of Service (CoS)
- Queue Mapping
- DiffServ
- Commands in this Section
- assign-queue
- class
- class-map
- class-map rename
- classofservice dot1p-mapping
- classofservice ip-dscp-mapping
- classofservice trust
- conform-color
- cos-queue min-bandwidth
- cos-queue random-detect
- cos-queue strict
- diffserv
- drop
- mark cos
- mark ip-dscp
- mark ip-precedence
- match class-map
- match cos
- match destination-address mac
- match dstip
- match dstip6
- match dstl4port
- match ethertype
- match ip6flowlbl
- match ip dscp
- match ip precedence
- match ip tos
- match protocol
- match source-address mac
- match srcip
- match srcip6
- match srcl4port
- match vlan
- mirror
- police-simple
- police-single-rate
- police-two-rate
- policy-map
- random-detect queue-parms
- random-detect exponential-weighting-constant
- redirect
- service-policy
- show class-map
- show classofservice dot1p-mapping
- show classofservice ip-dscp-mapping
- show classofservice trust
- show diffserv
- show diffserv service interface
- show diffserv service brief
- show interfaces cos-queue
- show interfaces random-detect
- show policy-map
- show policy-map interface
- show service-policy
- traffic-shape
- vlan priority
- Spanning Tree Commands
- Commands in this Section
- clear spanning-tree detected-protocols
- exit (mst)
- instance (mst)
- name (mst)
- revision (mst)
- show spanning-tree
- show spanning-tree summary
- show spanning-tree vlan
- spanning-tree
- spanning-tree auto-portfast
- spanning-tree backbonefast
- spanning-tree bpdu flooding
- spanning-tree bpdu-protection
- spanning-tree cost
- spanning-tree disable
- spanning-tree forward-time
- spanning-tree guard
- spanning-tree loopguard
- spanning-tree max-age
- spanning-tree max-hops
- spanning-tree mode
- spanning-tree mst configuration
- spanning-tree mst cost
- spanning-tree mst port-priority
- spanning-tree mst priority
- spanning-tree portfast
- spanning-tree portfast bpdufilter default
- spanning-tree portfast default
- spanning-tree port-priority (Interface Configuration)
- spanning-tree priority
- spanning-tree tcnguard
- spanning-tree transmit hold-count
- spanning-tree uplinkfast
- spanning-tree vlan
- spanning-tree vlan forward-time
- spanning-tree vlan hello-time
- spanning-tree vlan max-age
- spanning-tree vlan root
- spanning-tree vlan priority
- UDLD Commands
- VLAN Commands
- Double VLAN Mode
- Independent VLAN Learning
- Protocol Based VLANs
- IP Subnet Based VLANs
- MAC-Based VLANs
- Private VLAN Commands
- Commands in this Section
- interface vlan
- interface range vlan
- name (VLAN Configuration)
- private-vlan
- protocol group
- protocol vlan group
- protocol vlan group all
- show dot1q-tunnel
- show interfaces switchport
- show port protocol
- show switchport ethertype
- show vlan
- show vlan association mac
- show vlan association subnet
- show vlan private-vlan
- switchport access vlan
- switchport dot1q ethertype (Global Configuration)
- switchport dot1q ethertype (Interface Configuration)
- switchport general forbidden vlan
- switchport general acceptable-frame-type tagged-only
- switchport general allowed vlan
- switchport general ingress-filtering disable
- switchport general pvid
- switchport mode
- switchport mode dot1q-tunnel
- switchport mode private-vlan
- switchport private-vlan
- switchport trunk
- switchport trunk encapsulation dot1q
- vlan
- vlan association mac
- vlan association subnet
- vlan makestatic
- vlan protocol group
- vlan protocol group add protocol
- vlan protocol group name
- vlan protocol group remove
- Voice VLAN Commands
- ACL Commands
- Security Commands
- AAA Commands
- Administrative Authentication
- Administrative Accounting
- Accounting Method Lists
- Access Line Modes
- Command Authorization
- Network Authentication
- Local 802.1x Authentication Server
- MAC Authentication Bypass
- Guest VLAN
- Unauthenticated VLAN
- Commands in this Section
- aaa accounting
- aaa authentication dot1x default
- aaa authentication enable
- aaa authentication login
- aaa authorization
- aaa authorization network default radius
- aaa ias-user username
- aaa new-model
- aaa server radius dynamic-author
- authentication enable
- authentication order
- authentication priority
- authentication restart
- clear (IAS)
- clear authentication statistics
- clear authentication authentication-history
- enable password
- ip http authentication
- ip https authentication
- password (AAA IAS User Configuration)
- password (User Exec)
- show aaa ias-users
- show aaa statistics
- show accounting methods
- show authentication
- show authentication authentication-history
- show authentication methods
- show authentication statistics
- show authorization methods
- show users accounts
- show users login-history
- username
- username unlock
- Administrative Profiles Commands
- E-mail Alerting Commands
- Commands in this Section
- logging email
- logging email urgent
- logging email message-type to-addr
- logging email from-addr
- logging email message-type subject
- logging email logtime
- logging email test message-type
- show logging email statistics
- clear logging email statistics
- security
- mail-server ip-address | hostname
- port (Mail Server Configuration Mode)
- username (Mail Server Configuration Mode)
- password (Mail Server Configuration Mode)
- show mail-server
- RADIUS Commands
- RADIUS-based Dynamic VLAN Assignment
- RADIUS Change of Authorization
- Commands in this Section
- acct-port
- attribute 6
- attribute 8
- attribute 25
- attribute 31
- authentication event fail retry
- auth-port
- deadtime
- key
- msgauth
- name (RADIUS server)
- primary
- priority
- radius-server attribute 4
- radius-server attribute 6
- radius-server attribute 8
- radius-server attribute 25
- radius-server attribute 31
- radius-server deadtime
- radius-server host
- radius-server key
- radius-server retransmit
- radius-server source-ip
- radius-server source-interface
- radius-server timeout
- retransmit
- show aaa servers
- show radius statistics
- source-ip
- timeout
- usage
- TACACS+ Commands
- 802.1x Commands
- 802.1x Monitor Mode
- Commands in this Section
- dot1x dynamic-vlan enable
- dot1x eapolflood
- dot1x initialize
- dot1x mac-auth-bypass
- dot1x max-req
- dot1x max-users
- dot1x port-control
- dot1x re-authenticate
- dot1x reauthentication
- dot1x system-auth-control
- dot1x system-auth-control monitor
- dot1x timeout quiet-period
- dot1x timeout re-authperiod
- dot1x timeout server-timeout
- dot1x timeout supp-timeout
- dot1x timeout tx-period
- auth-type
- client
- ignore
- port
- server-key
- show dot1x
- show dot1x authentication-history
- show dot1x clients
- show dot1x interface
- show dot1x interface statistics
- show dot1x users
- clear dot1x authentication–history
- dot1x guest-vlan
- dot1x timeout guest-vlan-period
- dot1x unauth-vlan
- show dot1x advanced
- Captive Portal Commands
- Commands in this Section
- authentication timeout
- captive-portal
- enable
- http port
- https port
- show captive-portal
- show captive-portal status
- block
- configuration
- enable
- group
- interface
- locale
- name (Captive Portal)
- protocol
- redirect
- redirect-url
- session-timeout
- verification
- captive-portal client deauthenticate
- show captive-portal client status
- show captive-portal configuration client status
- show captive-portal interface client status
- show captive-portal interface configuration status
- clear captive-portal users
- no user
- show captive-portal user
- user group
- user-logout
- user name
- user password
- user session-timeout
- show captive-portal configuration
- show captive-portal configuration interface
- show captive-portal configuration locales
- show captive-portal configuration status
- user group
- user group moveusers
- user group name
- Denial of Service Commands
- Management ACL Commands
- Password Management Commands
- Configurable Minimum Password Length
- Password History
- Password Aging
- User Lockout
- Password Strength
- Commands in this Section
- passwords aging
- passwords history
- passwords lock-out
- passwords min-length
- passwords strength-check
- passwords strength minimum uppercase-letters
- passwords strength minimum lowercase-letters
- passwords strength minimum numeric- characters
- passwords strength minimum special-characters
- passwords strength max-limit consecutive- characters
- passwords strength max-limit repeated- characters
- passwords strength minimum character-classes
- passwords strength exclude-keyword
- enable password encrypted
- show passwords configuration
- show passwords result
- SSH Commands
- AAA Commands
- Audio Visual Bridging Commands
- Multiple MAC Registration Protocol Commands
- Multiple VLAN Registration Protocol Commands
- Multiple Stream Reservation Protocol Commands
- 802.1AS Timesync Commands
- Commands in this Section
- clear dot1as statistics
- dot1as (Global Configuration)
- dot1as (Interface Configuration)
- dot1as priority
- dot1as interval announce
- dot1as interval sync
- dot1as interval pdelay
- dot1as timeout announce
- dot1as timeout sync
- dot1as pdelay-threshold
- dot1as interval pdelay-loss
- show dot1as
- show dot1as statistics
- Data Center Technology Commands
- Data Center Bridging Commands
- Data Center Bridging Exchange Protocol
- Interoperability with IEEE DCBX
- Port Roles
- Commands in this Section
- Data Center Bridging Capability Exchange Commands
- datacenter-bridging
- lldp dcbx version
- lldp tlv-select dcbxp (dcb enable)
- lldp dcbx port-role
- show lldp tlv-select
- show lldp dcbx
- Enhanced Transmission Selection (ETS) Commands
- classofservice traffic-class-group
- traffic-class-group max-bandwidth
- traffic-class-group min-bandwidth
- traffic-class-group strict
- traffic-class-group weight
- show classofservice traffic-class-group
- show interfaces traffic
- show interfaces traffic-class-group
- OpenFlow Commands
- Priority Flow Control Commands
- Data Center Bridging Commands
- Layer 3 Routing Commands
- ARP Commands
- Bidirectional Forwarding Detection Commands
- Border Gateway Protocol Commands
- Commands in this Section
- router bgp
- address-family
- address-family ipv4 vrf
- address-family ipv6
- address-family vpnv4 unicast
- aggregate-address
- bgp aggregate-different-meds (BGP Router Configuration)
- bgp aggregate-different-meds (IPv6 Address Family Configuration)
- bgp always-compare-med
- bgp client-to-client reflection (BGP Router Configuration)
- bgp client-to-client reflection (IPv6 Address Family Configuration)
- bgp cluster-id
- bgp default local-preference
- bgp fast-external-fallover
- bgp fast-internal-fallover
- bgp listen
- bgp log-neighbor-changes
- bgp maxas-limit
- bgp router-id
- clear ip bgp
- clear ip bgp counters
- default-information originate (BGP Router Configuration)
- default-information originate (IPv6 Address Family Configuration)
- default metric (BGP Router Configuration)
- default metric (IPv6 Address Family Configuration)
- distance
- distance bgp (BGP Router Configuration)
- distance bgp (IPv6 Address Family Configuration)
- distribute-list prefix in
- distribute-list prefix out (BGP Router Configuration)
- distribute-list prefix out (IPv6 Address Family Configuration)
- enable
- ip as-path access-list
- ip bgp-community new-format
- ip bgp fast-external-fallover
- ip community-list
- ip extcommunity-list
- match extcommunity
- maximum-paths (BGP Router Configuration)
- maximum-paths (IPv6 Address Family Configuration)
- maximum-paths ibgp (BGP Router Configuration)
- maximum-paths ibgp (IPv6 Address Family Configuration)
- neighbor activate
- neighbor advertisement-interval (BGP Router Configuration)
- neighbor advertisement-interval (IPv6 Address Family Configuration)
- neighbor allowas-in
- neighbor connect-retry-interval
- neighbor default-originate (BGP Router Configuration)
- neighbor default-originate (IPv6 Address Family Configuration)
- neighbor description
- neighbor ebgp-multihop
- neighbor filter-list (BGP Router Configuration)
- neighbor filter-list (IPv6 Address Family Configuration)
- neighbor inherit peer
- neighbor local-as
- neighbor maximum-prefix (BGP Router Configuration)
- neighbor maximum-prefix (IPv6 Address Family Configuration)
- neighbor next-hop-self (BGP Router Configuration)
- neighbor next-hop-self (IPv6 Address Family Configuration)
- neighbor password
- neighbor prefix-list (BGP Router Configuration)
- neighbor prefix-list (IPv6 Address Family Configuration)
- neighbor remote-as
- neighbor remove-private-as
- neighbor rfc5549-support
- neighbor route-map (BGP Router Configuration)
- neighbor route-map (IPv6 Address Family Configuration)
- neighbor route-reflector-client (BGP Router Configuration)
- neighbor route-reflector-client (IPv6 Address Family Configuration)
- neighbor send-community (BGP Router Configuration)
- neighbor send-community (IPv6 Address Family Configuration)
- neighbor shutdown
- neighbor timers
- neighbor update-source
- network (BGP Router Configuration)
- network (IPv6 Address Family Configuration)
- rd
- redistribute (BGP)
- redistribute (BGP IPv6)
- route-target
- set extcommunity rt
- set extcommunity soo
- show bgp ipv6
- show bgp ipv6 aggregate-address
- show bgp ipv6 community
- show bgp ipv6 community-list
- show bgp ipv6 listen range
- show bgp ipv6 neighbors
- show bgp ipv6 neighbors advertised-routes
- show bgp ipv6 neighbors policy
- show bgp ipv6 neighbors received-routes
- show bgp ipv6 statistics
- show bgp ipv6 summary
- show bgp ipv6 update-group
- show bgp ipv6 route-reflection
- show ip bgp
- show ip bgp aggregate-address
- show ip bgp community
- show ip bgp community-list
- show ip bgp extcommunity-list
- show ip bgp listen range
- show ip bgp neighbors
- show ip bgp neighbors advertised-routes
- show ip bgp neighbors received-routes
- show ip bgp neighbors policy
- show ip bgp route-reflection
- show ip bgp statistics
- show ip bgp summary
- show ip bgp template
- show ip bgp traffic
- show ip bgp update-group
- show ip bgp vpn4
- show router-capability
- template peer
- timers bgp
- BGP Routing Policy
- Commands in this Section
- ip as-path access-list
- ip bgp-community new-format
- ip community-list
- ip prefix-list
- ip prefix-list description
- ipv6 prefix-list
- match as-path
- match community
- match ip address prefix-list
- match ipv6 address prefix-list
- show ip as-path-access-list
- show ip community-list
- show ip prefix-list
- show ipv6 prefix-list
- clear ip prefix-list
- clear ipv6 prefix-list
- clear ip community-list
- set as-path
- set comm-list delete
- set community
- set ipv6 next-hop (BGP)
- set local-preference
- set metric
- DVMRP Commands
- IGMP Commands
- Commands in this Section
- ip igmp last-member-query-count
- ip igmp last-member-query-interval
- ip igmp mroute-proxy
- ip igmp query-interval
- ip igmp query-max-response-time
- ip igmp robustness
- ip igmp startup-query-count
- ip igmp startup-query-interval
- ip igmp version
- show ip igmp
- show ip igmp groups
- show ip igmp interface
- show ip igmp membership
- show ip igmp interface stats
- IGMP Proxy Commands
- IP Helper/DHCP Relay Commands
- Commands in this Section
- bootpdhcprelay maxhopcount
- bootpdhcprelay minwaittime
- clear ip helper statistics
- ip dhcp relay information check
- ip dhcp relay information check-reply
- ip dhcp relay information option
- ip dhcp relay information option-insert
- ip helper-address (global configuration)
- ip helper-address (interface configuration)
- ip helper enable
- show ip helper-address
- show ip dhcp relay
- show ip helper statistics
- IP Routing Commands
- Static Routes/ECMP Static Routes
- Static Reject Routes
- Default Routes
- Commands in this Section
- encapsulation
- ip icmp echo-reply
- ip icmp error-interval
- ip netdirbcast
- ip policy route-map
- ip redirects
- ip route
- ip route default
- ip route distance
- ip routing
- ip unnumbered
- ip unnumbered gratuitous-arp accept
- ip unreachables
- match ip address
- match length
- match mac-list
- route-map
- set interface null0
- set ip default next-hop
- set ip next-hop
- set ip precedence
- show ip brief
- show ip interface
- show ip policy
- show ip protocols
- show ip route
- show ip route static
- show ip route preferences
- show ip route summary
- show ip traffic
- show ip vlan
- show route-map
- show routing heap summary
- IPv6 Routing Commands
- IPv6 Limitations & Restrictions
- Commands in this Section
- clear ipv6 neighbors
- clear ipv6 statistics
- ipv6 address
- ipv6 enable
- ipv6 hop-limit
- ipv6 host
- ipv6 icmp error-interval
- ipv6 mld last-member-query-count
- ipv6 mld last-member-query-interval
- ipv6 mld host-proxy
- ipv6 mld host-proxy reset-status
- ipv6 mld host-proxy unsolicit-rprt-interval
- ipv6 mld query-interval
- ipv6 mld query-max-response-time
- ipv6 nd dad attempts
- ipv6 nd ra hop-limit unspecified
- ipv6 nd managed-config-flag
- ipv6 nd ns-interval
- ipv6 nd nud max-multicast-solicits
- ipv6 nd nud max-unicast-solicits
- ipv6 nd nud retry
- ipv6 nd other-config-flag
- ipv6 nd prefix
- ipv6 nd raguard attach-policy
- ipv6 nd ra-interval
- ipv6 nd ra-lifetime
- ipv6 nd reachable-time
- ipv6 nd suppress-ra
- ipv6 route
- ipv6 route distance
- ipv6 unicast-routing
- ipv6 unreachables
- show ipv6 brief
- show ipv6 interface
- show ipv6 mld groups
- show ipv6 mld interface
- show ipv6 mld host-proxy
- show ipv6 mld host-proxy groups
- show ipv6 mld host-proxy groups detail
- show ipv6 mld host-proxy interface
- show ipv6 mld traffic
- show ipv6 nd raguard policy
- show ipv6 neighbors
- show ipv6 protocols
- show ipv6 route
- show ipv6 route preferences
- show ipv6 route summary
- show ipv6 snooping counters
- show ipv6 traffic
- show ipv6 vlan
- traceroute ipv6
- Loopback Interface Commands
- IP Multicast Commands
- Commands in this Section
- clear ip mroute
- ip multicast boundary
- ip mroute
- ip multicast-routing
- ip multicast ttl-threshold
- ip pim
- ip pim bsr-border
- ip pim bsr-candidate
- ip pim dense-mode
- ip pim dr-priority
- ip pim hello-interval
- ip pim join-prune-interval
- ip pim rp-address
- ip pim rp-candidate
- ip pim sparse-mode
- ip pim ssm
- show ip mfc
- show ip multicast
- show ip pim boundary
- show ip multicast interface
- show ip mroute
- show ip mroute group
- show ip mroute source
- show ip mroute static
- show ip pim
- show ip pim bsr-router
- show ip pim interface
- show ip pim neighbor
- show ip pim rp-hash
- show ip pim rp mapping
- show ip pim statistics
- IPv6 Multicast Commands
- clear ipv6 mroute
- ipv6 pim (VLAN Interface config)
- ipv6 pim bsr-border
- ipv6 pim bsr-candidate
- ipv6 pim dense-mode
- ipv6 pim dr-priority
- ipv6 pim hello-interval
- ipv6 pim join-prune-interval
- ipv6 pim register-threshold
- ipv6 pim rp-address
- ipv6 pim rp-candidate
- ipv6 pim sparse-mode
- ipv6 pim ssm
- show ipv6 pim
- show ipv6 pim bsr-router
- show ipv6 mroute group
- show ipv6 mroute source
- show ipv6 pim interface
- show ipv6 pim neighbor
- show ipv6 pim rp-hash
- show ipv6 pim rp mapping
- show ipv6 pim statistics
- OSPF Commands
- Route Preferences
- OSPF Equal Cost Multipath (ECMP)
- Forwarding of OSPF Opaque LSAs Enabled by Default
- Passive Interfaces
- Graceful Restart
- Commands in this Section
- area default-cost (Router OSPF)
- area nssa (Router OSPF)
- area nssa default-info-originate (Router OSPF Config)
- area nssa no-redistribute
- area nssa no-summary
- area nssa translator-role
- area nssa translator-stab-intv
- area range (Router OSPF)
- area stub
- area stub no-summary
- area virtual-link
- area virtual-link authentication
- area virtual-link dead-interval
- area virtual-link hello-interval
- area virtual-link retransmit-interval
- area virtual-link transmit-delay
- auto-cost
- bandwidth
- bfd
- capability opaque
- clear ip ospf
- clear ip ospf stub-router
- compatible rfc1583
- default-information originate (Router OSPF Configuration)
- default-metric
- distance ospf
- distribute-list out
- enable
- exit-overflow-interval
- external-lsdb-limit
- ip ospf area
- ip ospf authentication
- ip ospf cost
- ip ospf database-filter all out
- ip ospf dead-interval
- ip ospf hello-interval
- ip ospf mtu-ignore
- ip ospf network
- ip ospf priority
- ip ospf retransmit-interval
- ip ospf transmit-delay
- log adjacency-changes
- max-metric router-lsa
- maximum-paths
- network area
- nsf
- nsf helper
- nsf helper strict-lsa-checking
- nsf restart-interval
- passive-interface default
- passive-interface
- redistribute (OSPF)
- router-id
- router ospf
- show ip ospf
- show ip ospf abr
- show ip ospf area
- show ip ospf asbr
- show ip ospf database
- show ip ospf database database-summary
- show ip ospf interface
- show ip ospf interface brief
- show ip ospf interface stats
- show ip ospf lsa-group
- show ip ospf neighbor
- show ip ospf range
- show ip ospf statistics
- show ip ospf stub table
- show ip ospf traffic
- show ip ospf virtual-links
- show ip ospf virtual-links brief
- timers pacing flood
- timers pacing lsa-group
- timers spf
- OSPFv3 Commands
- area default-cost (Router OSPFv3)
- area nssa (Router OSPFv3)
- area nssa default-info-originate (Router OSPFv3 Config)
- area nssa no-redistribute
- area nssa no-summary
- area nssa translator-role
- area nssa translator-stab-intv
- area range (Router OSPFv3)
- area stub
- area stub no-summary
- area virtual-link
- area virtual-link dead-interval
- area virtual-link hello-interval
- area virtual-link retransmit-interval
- area virtual-link transmit-delay
- default-information originate (Router OSPFv3 Configuration)
- default-metric
- distance ospf
- enable
- exit-overflow-interval
- external-lsdb-limit
- ipv6 ospf
- ipv6 ospf area
- ipv6 ospf cost
- ipv6 ospf dead-interval
- ipv6 ospf hello-interval
- ipv6 ospf mtu-ignore
- ipv6 ospf network
- ipv6 ospf priority
- ipv6 ospf retransmit-interval
- ipv6 ospf transmit-delay
- ipv6 router ospf
- maximum-paths
- nsf
- nsf helper
- nsf helper strict-lsa-checking
- nsf restart-interval
- passive-interface
- passive-interface default
- redistribute (OSPFv3)
- router-id
- show ipv6 ospf
- show ipv6 ospf abr
- show ipv6 ospf area
- show ipv6 ospf asbr
- show ipv6 ospf border-routers
- show ipv6 ospf database
- show ipv6 ospf database database-summary
- show ipv6 ospf interface
- show ipv6 ospf interface brief
- show ipv6 ospf interface stats
- show ipv6 ospf interface vlan
- show ipv6 ospf neighbor
- show ipv6 ospf range
- show ipv6 ospf stub table
- show ipv6 ospf virtual-links
- show ipv6 ospf virtual-link brief
- Router Discovery Protocol Commands
- Routing Information Protocol Commands
- Commands in this Section
- auto-summary
- default-information originate (Router RIP Configuration)
- default-metric
- distance rip
- distribute-list out
- enable
- hostroutesaccept
- ip rip
- ip rip authentication
- ip rip receive version
- ip rip send version
- redistribute (RIP)
- router rip
- show ip rip
- show ip rip interface
- show ip rip interface brief
- split-horizon
- Tunnel Interface Commands
- Virtual Router Commands
- Virtual Router Redundancy Protocol Commands
- Pingable VRRP Interface
- VRRP Route/Interface Tracking
- Interface Tracking
- Route Tracking
- Commands in this Section
- ip vrrp
- vrrp accept-mode
- vrrp authentication
- vrrp description
- vrrp ip
- vrrp mode
- vrrp preempt
- vrrp priority
- vrrp timers advertise
- vrrp timers learn
- vrrp track interface
- vrrp track ip route
- show vrrp
- show vrrp interface
- Switch Management Commands
- Application Deployment
- Auto-Install Commands
- CLI Macro Commands
- Clock Commands
- Real-time Clock
- Simple Network Time Protocol
- Commands in this Section
- show sntp configuration
- show sntp server
- show sntp status
- sntp authenticate
- sntp authentication-key
- sntp broadcast client enable
- sntp client poll timer
- sntp server
- sntp source-interface
- sntp trusted-key
- sntp unicast client enable
- clock set
- clock timezone hours-offset
- no clock timezone
- clock summer-time recurring
- clock summer-time date
- no clock summer-time
- show clock
- Command Line Configuration Scripting Commands
- Configuration and Image File Commands
- DHCP Client Commands
- DHCP Server Commands
- Commands in this Section
- ip dhcp pool
- bootfile
- clear ip dhcp binding
- clear ip dhcp conflict
- client-identifier
- client-name
- default-router
- dns-server (IP DHCP Pool Config)
- domain-name (IP DHCP Pool Config)
- hardware-address
- host
- ip dhcp bootp automatic
- ip dhcp conflict logging
- ip dhcp excluded-address
- ip dhcp ping packets
- lease
- netbios-name-server
- netbios-node-type
- network
- next-server
- option
- service dhcp
- sntp
- show ip dhcp binding
- show ip dhcp conflict
- show ip dhcp global configuration
- show ip dhcp pool
- show ip dhcp server statistics
- DHCPv6 Server Commands
- clear ipv6 dhcp
- dns-server (IPv6 DHCP Pool Config)
- domain-name (IPv6 DHCP Pool Config)
- ipv6 dhcp pool
- ipv6 dhcp relay
- ipv6 dhcp server
- prefix-delegation
- service dhcpv6
- show ipv6 dhcp
- show ipv6 dhcp binding
- show ipv6 dhcp interface (User Exec)
- show ipv6 dhcp interface (Privileged Exec)
- show ipv6 dhcp pool
- show ipv6 dhcp statistics
- HiveAgent Commands
- IP Addressing Commands
- Commands in this Section
- clear host
- clear ip address-conflict-detect
- interface out-of-band
- ip address
- ip address (Out-of-Band)
- ip address-conflict-detect run
- ip address dhcp (Interface Configuration)
- ip default-gateway
- ip domain-lookup
- ip domain-name
- ip host
- ip name-server
- ip name-server source-interface
- ipv6 address (Interface Configuration)
- ipv6 address (OOB Port)
- ipv6 address dhcp
- ipv6 enable (Interface Configuration)
- ipv6 enable (OOB Configuration)
- ipv6 gateway (OOB Configuration)
- show hosts
- show ip address-conflict
- show ip helper-address
- show ipv6 dhcp interface out-of-band statistics
- show ipv6 interface out-of-band
- Line Commands
- PHY Diagnostics Commands
- Power Over Ethernet Commands
- Flexible Power Management
- Commands in this Section
- power inline
- power inline detection
- power inline four-pair forced
- power inline limit
- power inline management
- power inline powered-device
- power inline priority
- power inline reset
- power inline usage-threshold
- clear power inline statistics
- show power inline
- show power inline firmware-version
- RMON Commands
- Serviceability Commands
- Commands in this Section
- debug aaa accounting
- debug arp
- debug authentication interface
- debug auto-voip
- debug bfd
- debug cfm
- debug clear
- debug console
- debug crashlog
- debug dhcp packet
- debug dhcp server packet
- debug dot1ag
- debug dot1x
- debug igmpsnooping
- debug ip acl
- debug ip bgp
- debug ip dvmrp
- debug ip igmp
- debug ip mcache
- debug ip pimdm packet
- debug ip pimsm packet
- debug ipv6 dhcp
- debug ipv6 mcache
- debug ipv6 mld
- debug ipv6 pimdm
- debug ipv6 pimsm
- debug isdp
- debug lacp
- debug mldsnooping
- debug ospf
- debug ospfv3
- debug ping
- debug rip
- debug sflow
- debug spanning-tree
- debug udld
- debug vpc
- debug vrrp
- exception core-file
- exception dump
- exception protocol
- exception switch-chip-register
- ip http timeout-policy
- show debugging
- show supported mibs
- snapshot bgp
- write core
- Sflow Commands
- SNMP Commands
- Commands in this Section
- show snmp
- show snmp engineid
- show snmp filters
- show snmp group
- show snmp user
- show snmp views
- show trapflags
- snmp-server community
- snmp-server community-group
- snmp-server contact
- snmp-server enable traps
- snmp-server engineID local
- snmp-server filter
- snmp-server group
- snmp-server host
- snmp-server location
- snmp-server user
- snmp-server view
- snmp-server v3-host
- snmp-server source-interface
- SupportAssist Commands
- SYSLOG Commands
- CLI Logged to Local File and SYSLOG Server
- Commands in this Section
- clear logging
- clear logging file
- description (Logging)
- level
- logging cli-command
- logging
- logging audit
- logging buffered
- logging console
- logging facility
- logging file
- logging monitor
- logging on
- logging protocol
- logging snmp
- logging source-interface
- logging traps
- logging web-session
- port
- show logging
- show logging file
- show syslog-servers
- terminal monitor
- System and Stack Management Commands
- asset-tag
- banner exec
- banner login
- banner motd
- banner motd acknowledge
- buffers
- clear checkpoint statistics
- clear counters stack-ports
- connect
- cut-through mode
- disconnect
- exit
- hardware profile portmode
- hostname
- initiate failover
- load-interval
- locate
- logout
- member
- memory free low-watermark
- nsf
- ping
- process cpu threshold
- quit
- reload
- service unsupported-transceiver
- set description
- slot
- show banner
- show buffers
- show checkpoint statistics
- show cut-through mode
- show hardware profile
- show idprom interface
- show interfaces
- show interfaces advanced firmware
- show interfaces utilization
- show memory cpu
- show nsf
- show power-usage-history
- show process app-list
- show process app-resource-list
- show process cpu
- show process proc-list
- show sessions
- show slot
- show supported cardtype
- show supported switchtype
- show switch
- show system
- show system fan
- show system id
- show system power
- show system temperature
- show tech-support
- show users
- show version
- stack
- stack-port
- stack-port shutdown
- standby
- switch renumber
- telnet
- traceroute
- traceroute ipv6
- update bootcode
- Telnet Server Commands
- Time Ranges Commands
- USB Flash Drive Commands
- User Interface Commands
- Web Server Commands
- Web Sessions
- Commands in this Section
- common-name
- country
- crypto certificate generate
- crypto certificate import
- crypto certificate request
- duration
- ip http port
- ip http server
- ip http secure-certificate
- ip http secure-port
- ip http secure-server
- key-generate
- location
- no crypto certificate
- organization-unit
- show crypto certificate mycertificate
- show ip http server status
- show ip http server secure status
- state
- Appendix A: List of Commands
DELL N1148P-ON User Manual
Displayed below is the user manual for N1148P-ON by DELL which is a product in the Network Switches category. This manual has pages.
Related Manuals
Dell EMC Networking N-Series
N1100-ON, N1500, N2000,
N2100-ON, N3000, N3100-ON,
and N4000 Switches
CLI Reference Guide
Version 6.3.0.x—N2000/N3000/
N4000 Series Switches
Version 6.3.5.x—N3100-ON Series
Switches
Version 6.3.6.x—N2100-ON/N3100-
ON Series Switches
Version 6.4.x.x—N1100-ON Series
Switches
Regulatory Model: E17W/E18W/E15W/E16W/E05W/E04W/
E06W/E07W/PowerConnect 8132/PowerConnect 8132F/
PowerConnect 8164/PowerConnect 8164F
Notes
NOTE: A NOTE indicates important information that helps you make better use of
your computer.
CAUTION: A CAUTION indicates potential damage to hardware or loss of data if
instructions are not followed.
____________________
Information in this publication is subject to change without notice.
Copyright © 2017 Dell EMC Inc. All rights reserved. This product is protected by U.S. and
international copyright and intellectual property laws. Dell EMC® and the Dell EMC logo are
trademarks of Dell EMC Inc. in the United States and/or other jurisdictions. All other marks and names
mentioned herein may be trademarks of their respective companies.
Regulatory Model E17W/E18W/E15W/E16W/E05W/E04W/E06W/E07W/PowerConnect 8132/
PowerConnect 8132F/PowerConnect 8164/PowerConnect 8164F
2017 - June Rev. A03
Contents 5
Contents
1 Dell EMC Networking CLI . . . . . . . . . . . . 95
Introduction. . . . . . . . . . . . . . . . . . . . . 95
Command Groups. . . . . . . . . . . . . . . . . . 96
Mode Types. . . . . . . . . . . . . . . . . . . . . 101
2 Using the CLI . . . . . . . . . . . . . . . . . . . . . 217
Introduction. . . . . . . . . . . . . . . . . . . . . 217
Entering and Editing CLI Commands . . . . . . . . 217
CLI Command Modes . . . . . . . . . . . . . . . . 230
Starting the CLI . . . . . . . . . . . . . . . . . . . 244
Using CLI Functions and Tools . . . . . . . . . . . 245
3 Layer 2 Switching Commands . . . . . . . . 259
ACL Commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .260
ACL Logging . . . . . . . . . . . . . . . . . . . . 260
Commands in this Section . . . . . . . . . . . . . 263
ip access-list . . . . . . . . . . . . . . . . . . . . 263
deny | permit (IP ACL). . . . . . . . . . . . . . . . 264
Contents 6
deny | permit (Mac-Access-List-Configuration) . . 270
ip access-group . . . . . . . . . . . . . . . . . . 273
mac access-group . . . . . . . . . . . . . . . . . 275
mac access-list extended . . . . . . . . . . . . . 277
mac access-list extended rename . . . . . . . . . 277
remark . . . . . . . . . . . . . . . . . . . . . . . 278
service-acl input . . . . . . . . . . . . . . . . . . 280
show service-acl interface . . . . . . . . . . . . . 281
show access-lists interface . . . . . . . . . . . . 282
show ip access-lists . . . . . . . . . . . . . . . . 282
show mac access-lists . . . . . . . . . . . . . . . 285
MAC Address Table Commands . . . . . . . . . . . . . . . .287
Commands in this Section . . . . . . . . . . . . . 288
clear mac address-table . . . . . . . . . . . . . . 288
mac address-table aging-time . . . . . . . . . . . 289
mac address-table multicast forbidden address. . 290
mac address-table static vlan . . . . . . . . . . . 291
switchport port-security (Global Configuration) . . 292
switchport port-security (Interface Configuration) 295
show mac address-table multicast. . . . . . . . . 300
show mac address-table . . . . . . . . . . . . . . 301
Contents 7
show mac address-table address . . . . . . . . . 302
show mac address-table count . . . . . . . . . . 303
show mac address-table dynamic . . . . . . . . . 304
show mac address-table interface. . . . . . . . . 305
show mac address-table static. . . . . . . . . . . 306
show mac address-table vlan . . . . . . . . . . . 307
show port-security . . . . . . . . . . . . . . . . . 308
Auto-VoIP Commands . . . . . . . . . . . . . . . . . . . . . . . . .311
Commands in this Section . . . . . . . . . . . . . 311
show switchport voice . . . . . . . . . . . . . . . 312
switchport voice detect auto . . . . . . . . . . . . 314
CDP Interoperability Commands . . . . . . . . . . . . . . . .315
Commands in this Section . . . . . . . . . . . . . 315
clear isdp counters . . . . . . . . . . . . . . . . . 315
clear isdp table . . . . . . . . . . . . . . . . . . . 316
isdp advertise-v2 . . . . . . . . . . . . . . . . . . 316
isdp enable . . . . . . . . . . . . . . . . . . . . . 317
isdp holdtime . . . . . . . . . . . . . . . . . . . . 318
isdp timer . . . . . . . . . . . . . . . . . . . . . . 319
show isdp . . . . . . . . . . . . . . . . . . . . . . 319
show isdp entry . . . . . . . . . . . . . . . . . . . 320
show isdp interface. . . . . . . . . . . . . . . . . 321
Contents 8
show isdp neighbors . . . . . . . . . . . . . . . . 322
show isdp traffic . . . . . . . . . . . . . . . . . . 323
DHCP Layer 2 Relay Commands . . . . . . . . . . . . . . . . .325
Commands in this Section . . . . . . . . . . . . . 325
dhcp l2relay (Global Configuration) . . . . . . . . 326
dhcp l2relay (Interface Configuration) . . . . . . . 326
dhcp l2relay circuit-id . . . . . . . . . . . . . . . 327
dhcp l2relay remote-id . . . . . . . . . . . . . . . 328
dhcp l2relay trust . . . . . . . . . . . . . . . . . . 328
dhcp l2relay vlan . . . . . . . . . . . . . . . . . . 329
show dhcp l2relay all . . . . . . . . . . . . . . . . 330
show dhcp l2relay interface . . . . . . . . . . . . 331
show dhcp l2relay stats interface . . . . . . . . . 331
show dhcp l2relay agent-option vlan. . . . . . . . 332
show dhcp l2relay vlan . . . . . . . . . . . . . . . 333
show dhcp l2relay circuit-id vlan. . . . . . . . . . 334
show dhcp l2relay remote-id vlan . . . . . . . . . 335
clear dhcp l2relay statistics interface . . . . . . . 335
DHCP Snooping Commands . . . . . . . . . . . . . . . . . . . .337
Commands in this Section . . . . . . . . . . . . . 338
clear ip dhcp snooping binding. . . . . . . . . . . 338
clear ip dhcp snooping statistics . . . . . . . . . . 339
Contents 9
ip dhcp snooping . . . . . . . . . . . . . . . . . . 339
ip dhcp snooping binding . . . . . . . . . . . . . . 340
ip dhcp snooping database. . . . . . . . . . . . . 341
ip dhcp snooping database write-delay . . . . . . 342
ip dhcp snooping limit . . . . . . . . . . . . . . . 343
ip dhcp snooping log-invalid . . . . . . . . . . . . 344
ip dhcp snooping trust . . . . . . . . . . . . . . . 345
ip dhcp snooping verify mac-address . . . . . . . 346
show ip dhcp snooping . . . . . . . . . . . . . . . 346
show ip dhcp snooping binding . . . . . . . . . . 347
show ip dhcp snooping database . . . . . . . . . 348
show ip dhcp snooping interfaces . . . . . . . . . 349
show ip dhcp snooping statistics. . . . . . . . . . 350
DHCPv6 Snooping Commands . . . . . . . . . . . . . . . . . .352
clear ipv6 dhcp snooping binding . . . . . . . . . 352
clear ipv6 dhcp snooping statistics . . . . . . . . 353
ipv6 dhcp snooping . . . . . . . . . . . . . . . . . 353
ipv6 dhcp snooping vlan . . . . . . . . . . . . . . 354
ipv6 dhcp snooping binding . . . . . . . . . . . . 355
ipv6 dhcp snooping database . . . . . . . . . . . 356
ipv6 dhcp snooping database write-delay . . . . . 357
Contents 10
ipv6 dhcp snooping limit . . . . . . . . . . . . . . 358
ipv6 dhcp snooping log-invalid . . . . . . . . . . . 359
ipv6 dhcp snooping trust . . . . . . . . . . . . . . 360
ipv6 dhcp snooping verify mac-address . . . . . . 360
ipv6 verify binding . . . . . . . . . . . . . . . . . 361
ipv6 verify source . . . . . . . . . . . . . . . . . . 362
show ipv6 dhcp snooping. . . . . . . . . . . . . . 363
show ipv6 dhcp snooping binding . . . . . . . . . 364
show ipv6 dhcp snooping database . . . . . . . . 365
show ipv6 dhcp snooping interfaces . . . . . . . . 366
show ipv6 dhcp snooping statistics . . . . . . . . 366
show ipv6 source binding . . . . . . . . . . . . . 368
show ipv6 verify. . . . . . . . . . . . . . . . . . . 368
show ipv6 verify source . . . . . . . . . . . . . . 369
Dynamic ARP Inspection Commands . . . . . . . . . . . .371
Commands in this Section . . . . . . . . . . . . . 371
arp access-list . . . . . . . . . . . . . . . . . . . 371
clear ip arp inspection statistics . . . . . . . . . . 372
ip arp inspection filter . . . . . . . . . . . . . . . 373
ip arp inspection limit. . . . . . . . . . . . . . . . 373
ip arp inspection trust . . . . . . . . . . . . . . . 374
Contents 11
ip arp inspection validate. . . . . . . . . . . . . . 375
ip arp inspection vlan. . . . . . . . . . . . . . . . 376
permit ip host mac host. . . . . . . . . . . . . . . 377
show arp access-list . . . . . . . . . . . . . . . . 377
show ip arp inspection . . . . . . . . . . . . . . . 378
Ethernet Configuration Commands . . . . . . . . . . . . . .382
Commands in this Section . . . . . . . . . . . . . 383
clear counters . . . . . . . . . . . . . . . . . . . 383
description . . . . . . . . . . . . . . . . . . . . . 384
duplex. . . . . . . . . . . . . . . . . . . . . . . . 385
flowcontrol . . . . . . . . . . . . . . . . . . . . . 386
interface . . . . . . . . . . . . . . . . . . . . . . 387
interface range . . . . . . . . . . . . . . . . . . . 388
link debounce time . . . . . . . . . . . . . . . . . 390
rate-limit cpu . . . . . . . . . . . . . . . . . . . . 391
show interfaces. . . . . . . . . . . . . . . . . . . 393
show interfaces advertise . . . . . . . . . . . . . 396
show interfaces configuration . . . . . . . . . . . 398
show interfaces counters . . . . . . . . . . . . . 399
show interfaces debounce . . . . . . . . . . . . . 403
show interfaces description . . . . . . . . . . . . 403
Contents 12
show interfaces detail . . . . . . . . . . . . . . . 404
show interfaces status . . . . . . . . . . . . . . . 406
show interfaces transceiver . . . . . . . . . . . . 408
show statistics . . . . . . . . . . . . . . . . . . . 409
show statistics switchport . . . . . . . . . . . . . 412
show storm-control. . . . . . . . . . . . . . . . . 414
show storm-control action . . . . . . . . . . . . . 415
shutdown . . . . . . . . . . . . . . . . . . . . . . 416
speed . . . . . . . . . . . . . . . . . . . . . . . . 416
switchport protected . . . . . . . . . . . . . . . . 419
switchport protected name. . . . . . . . . . . . . 420
show switchport protected. . . . . . . . . . . . . 420
show system mtu . . . . . . . . . . . . . . . . . . 421
system jumbo mtu . . . . . . . . . . . . . . . . . 422
Ethernet CFM Commands . . . . . . . . . . . . . . . . . . . . . .424
Commands in this Section . . . . . . . . . . . . . 424
ethernet cfm domain . . . . . . . . . . . . . . . . 425
service . . . . . . . . . . . . . . . . . . . . . . . 426
ethernet cfm cc level . . . . . . . . . . . . . . . . 426
ethernet cfm mep level . . . . . . . . . . . . . . . 427
ethernet cfm mep enable . . . . . . . . . . . . . . 428
Contents 13
ethernet cfm mep active . . . . . . . . . . . . . . 429
ethernet cfm mep archive-hold-time . . . . . . . . 429
ethernet cfm mip level . . . . . . . . . . . . . . . 430
ping ethernet cfm . . . . . . . . . . . . . . . . . . 431
traceroute ethernet cfm . . . . . . . . . . . . . . 432
show ethernet cfm errors . . . . . . . . . . . . . 433
show ethernet cfm domain . . . . . . . . . . . . . 434
show ethernet cfm maintenance-points local . . . 435
show ethernet cfm maintenance-points remote . . 436
show ethernet cfm statistics . . . . . . . . . . . . 437
Green Ethernet Commands . . . . . . . . . . . . . . . . . . . . .440
Energy-Detect Mode . . . . . . . . . . . . . . . . 440
Energy Efficient Ethernet . . . . . . . . . . . . . . 440
Commands in this Section . . . . . . . . . . . . . 440
green-mode energy-detect. . . . . . . . . . . . . 441
green-mode eee . . . . . . . . . . . . . . . . . . 442
green-mode eee { tx-idle-time | tx-wake-time}. . . 443
clear green-mode statistics . . . . . . . . . . . . 444
green-mode eee-lpi-history . . . . . . . . . . . . 444
show green-mode interface-id . . . . . . . . . . . 446
show green-mode . . . . . . . . . . . . . . . . . 449
Contents 14
show green-mode eee-lpi-history interface . . . . 451
GMRP Commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . .453
Commands in this Section . . . . . . . . . . . . . 454
gmrp enable . . . . . . . . . . . . . . . . . . . . 454
clear gmrp statistics . . . . . . . . . . . . . . . . 455
show gmrp configuration . . . . . . . . . . . . . . 455
GVRP Commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . .457
Commands in this Section . . . . . . . . . . . . . 457
clear gvrp statistics. . . . . . . . . . . . . . . . . 457
garp timer . . . . . . . . . . . . . . . . . . . . . . 458
gvrp enable (Global Configuration) . . . . . . . . . 459
gvrp enable (Interface Configuration) . . . . . . . 460
gvrp registration-forbid. . . . . . . . . . . . . . . 461
gvrp vlan-creation-forbid . . . . . . . . . . . . . . 462
show gvrp configuration . . . . . . . . . . . . . . 463
show gvrp error-statistics . . . . . . . . . . . . . 464
show gvrp statistics . . . . . . . . . . . . . . . . 465
IGMP Snooping Commands . . . . . . . . . . . . . . . . . . . .467
Commands in this Section . . . . . . . . . . . . . 468
ip igmp snooping . . . . . . . . . . . . . . . . . . 468
show ip igmp snooping . . . . . . . . . . . . . . . 470
show ip igmp snooping groups . . . . . . . . . . . 471
Contents 15
show ip igmp snooping mrouter . . . . . . . . . . 472
ip igmp snooping vlan immediate-leave . . . . . . 473
ip igmp snooping vlan groupmembership-interval . 474
ip igmp snooping vlan last-member-query-interval 475
ip igmp snooping vlan mcrtrexpiretime . . . . . . 476
ip igmp snooping report-suppression . . . . . . . 476
ip igmp snooping unregistered floodall . . . . . . 477
ip igmp snooping vlan mrouter . . . . . . . . . . . 478
IGMP Snooping Querier Commands . . . . . . . . . . . . .480
Commands in this Section . . . . . . . . . . . . . 480
ip igmp snooping querier . . . . . . . . . . . . . . 480
ip igmp snooping querier election participate . . . 482
ip igmp snooping querier query-interval . . . . . . 483
ip igmp snooping querier timer expiry . . . . . . . 484
ip igmp snooping querier version. . . . . . . . . . 485
show ip igmp snooping querier. . . . . . . . . . . 485
Interface Error Disable and Auto Recovery . . . . . . .489
Commands in this Section . . . . . . . . . . . . . 489
errdisable recovery cause . . . . . . . . . . . . . 489
errdisable recovery interval . . . . . . . . . . . . 491
show errdisable recovery . . . . . . . . . . . . . 492
show interfaces status err-disabled . . . . . . . . 494
Contents 16
IPv6 Access List Commands . . . . . . . . . . . . . . . . . . . .497
Commands in this Section . . . . . . . . . . . . . 497
deny | permit (IPv6 ACL) . . . . . . . . . . . . . . 498
ipv6 access-list . . . . . . . . . . . . . . . . . . . 504
ipv6 access-list rename . . . . . . . . . . . . . . 505
ipv6 traffic-filter. . . . . . . . . . . . . . . . . . . 506
show ipv6 access-lists . . . . . . . . . . . . . . . 507
IPv6 MLD Snooping Commands . . . . . . . . . . . . . . . . .510
Commands in this Section . . . . . . . . . . . . . 510
ipv6 mld snooping vlan groupmembership-interval 511
ipv6 mld snooping vlan immediate-leave. . . . . . 511
ipv6 mld snooping listener-message-suppression . 512
ipv6 mld snooping vlan last-listener-query-interval 513
ipv6 mld snooping vlan mcrtrexpiretime . . . . . . 514
ipv6 mld snooping vlan mrouter . . . . . . . . . . 515
ipv6 mld snooping (Global) . . . . . . . . . . . . . 515
show ipv6 mld snooping . . . . . . . . . . . . . . 516
show ipv6 mld snooping groups . . . . . . . . . . 518
show ipv6 mld snooping mrouter . . . . . . . . . . 519
IPv6 MLD Snooping Querier Commands . . . . . . . . .521
Commands in this Section . . . . . . . . . . . . . 521
ipv6 mld snooping querier . . . . . . . . . . . . . 521
Contents 17
ipv6 mld snooping querier (VLAN mode) . . . . . . 522
ipv6 mld snooping querier address. . . . . . . . . 523
ipv6 mld snooping querier election participate . . 523
ipv6 mld snooping querier query-interval . . . . . 524
ipv6 mld snooping querier timer expiry. . . . . . . 525
show ipv6 mld snooping querier . . . . . . . . . . 526
IP Source Guard Commands . . . . . . . . . . . . . . . . . . . .528
Commands in this Section . . . . . . . . . . . . . 528
ip verify source . . . . . . . . . . . . . . . . . . . 528
ip verify binding . . . . . . . . . . . . . . . . . . . 530
show ip verify . . . . . . . . . . . . . . . . . . . . 530
show ip verify source. . . . . . . . . . . . . . . . 531
show ip source binding. . . . . . . . . . . . . . . 532
iSCSI Optimization Commands . . . . . . . . . . . . . . . . .534
Commands in this Section . . . . . . . . . . . . . 535
iscsi aging time . . . . . . . . . . . . . . . . . . . 535
iscsi cos. . . . . . . . . . . . . . . . . . . . . . . 536
iscsi enable . . . . . . . . . . . . . . . . . . . . . 538
iscsi target port . . . . . . . . . . . . . . . . . . . 539
show iscsi. . . . . . . . . . . . . . . . . . . . . . 540
show iscsi sessions . . . . . . . . . . . . . . . . 541
Link Dependency Commands . . . . . . . . . . . . . . . . . . .544
Contents 18
Commands in this Section . . . . . . . . . . . . . 544
action . . . . . . . . . . . . . . . . . . . . . . . . 544
link-dependency group . . . . . . . . . . . . . . . 545
add . . . . . . . . . . . . . . . . . . . . . . . . . 546
depends-on . . . . . . . . . . . . . . . . . . . . . 546
show link-dependency . . . . . . . . . . . . . . . 547
LLDP Commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .549
Commands in this Section . . . . . . . . . . . . . 550
clear lldp remote-data . . . . . . . . . . . . . . . 550
clear lldp statistics . . . . . . . . . . . . . . . . . 551
dcb enable . . . . . . . . . . . . . . . . . . . . . 552
lldp med . . . . . . . . . . . . . . . . . . . . . . . 552
lldp med confignotification . . . . . . . . . . . . . 553
lldp med faststartrepeatcount . . . . . . . . . . . 553
lldp med transmit-tlv . . . . . . . . . . . . . . . . 554
lldp notification . . . . . . . . . . . . . . . . . . . 555
lldp notification-interval . . . . . . . . . . . . . . 556
lldp receive . . . . . . . . . . . . . . . . . . . . . 556
lldp timers. . . . . . . . . . . . . . . . . . . . . . 557
lldp transmit. . . . . . . . . . . . . . . . . . . . . 558
lldp transmit-mgmt . . . . . . . . . . . . . . . . . 559
Contents 19
lldp transmit-tlv . . . . . . . . . . . . . . . . . . . 560
show lldp . . . . . . . . . . . . . . . . . . . . . . 561
show lldp interface . . . . . . . . . . . . . . . . . 561
show lldp local-device . . . . . . . . . . . . . . . 562
show lldp med . . . . . . . . . . . . . . . . . . . 564
show lldp med interface . . . . . . . . . . . . . . 564
show lldp med local-device detail . . . . . . . . . 565
show lldp med remote-device . . . . . . . . . . . 567
show lldp remote-device . . . . . . . . . . . . . . 569
show lldp statistics . . . . . . . . . . . . . . . . . 570
Loop Protection . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .573
Commands in this Section . . . . . . . . . . . . . 573
keepalive (Interface Config) . . . . . . . . . . . . 573
keepalive (Global Config) . . . . . . . . . . . . . . 575
keepalive action . . . . . . . . . . . . . . . . . . 576
show keepalive . . . . . . . . . . . . . . . . . . . 577
show keepalive statistics. . . . . . . . . . . . . . 578
MLAG Commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . .580
Commands in this Section . . . . . . . . . . . . . 580
clear vpc statistics . . . . . . . . . . . . . . . . . 580
feature vpc . . . . . . . . . . . . . . . . . . . . . 581
peer detection enable . . . . . . . . . . . . . . . 582
Contents 20
peer detection interval . . . . . . . . . . . . . . . 582
peer-keepalive destination . . . . . . . . . . . . . 583
peer-keepalive enable . . . . . . . . . . . . . . . 585
peer-keepalive timeout . . . . . . . . . . . . . . . 586
role priority . . . . . . . . . . . . . . . . . . . . . 587
show vpc . . . . . . . . . . . . . . . . . . . . . . 588
show vpc brief . . . . . . . . . . . . . . . . . . . 589
show vpc consistency-parameters . . . . . . . . 591
show vpc consistency-features . . . . . . . . . . 593
show vpc peer-keepalive. . . . . . . . . . . . . . 594
show vpc role. . . . . . . . . . . . . . . . . . . . 595
show vpc statistics . . . . . . . . . . . . . . . . . 596
system-mac. . . . . . . . . . . . . . . . . . . . . 598
system-priority . . . . . . . . . . . . . . . . . . . 599
vpc . . . . . . . . . . . . . . . . . . . . . . . . . 600
vpc domain . . . . . . . . . . . . . . . . . . . . . 601
vpc peer-link . . . . . . . . . . . . . . . . . . . . 602
Multicast VLAN Registration Commands . . . . . . . .604
Commands in this Section . . . . . . . . . . . . . 605
mvr . . . . . . . . . . . . . . . . . . . . . . . . . 605
mvr group . . . . . . . . . . . . . . . . . . . . . . 605
Contents 21
mvr mode . . . . . . . . . . . . . . . . . . . . . . 606
mvr querytime. . . . . . . . . . . . . . . . . . . . 607
mvr vlan . . . . . . . . . . . . . . . . . . . . . . . 608
mvr immediate . . . . . . . . . . . . . . . . . . . 609
mvr type. . . . . . . . . . . . . . . . . . . . . . . 610
mvr vlan group . . . . . . . . . . . . . . . . . . . 611
show mvr . . . . . . . . . . . . . . . . . . . . . . 612
show mvr members. . . . . . . . . . . . . . . . . 613
show mvr interface . . . . . . . . . . . . . . . . . 614
show mvr traffic . . . . . . . . . . . . . . . . . . 616
Port Channel Commands . . . . . . . . . . . . . . . . . . . . . . .618
Static LAGS . . . . . . . . . . . . . . . . . . . . . 619
VLANs and LAGs . . . . . . . . . . . . . . . . . . 620
LAG Thresholds . . . . . . . . . . . . . . . . . . . 620
LAG Hashing . . . . . . . . . . . . . . . . . . . . 620
Enhanced LAG Hashing. . . . . . . . . . . . . . . 621
Manual Aggregation of LAGs. . . . . . . . . . . . 621
Flexible Assignment of Ports to LAGs . . . . . . . 622
Commands in this Section . . . . . . . . . . . . . 622
channel-group . . . . . . . . . . . . . . . . . . . 622
interface port-channel . . . . . . . . . . . . . . . 623
Contents 22
interface range port-channel. . . . . . . . . . . . 624
hashing-mode. . . . . . . . . . . . . . . . . . . . 625
lacp port-priority . . . . . . . . . . . . . . . . . . 626
lacp system-priority . . . . . . . . . . . . . . . . 627
lacp timeout. . . . . . . . . . . . . . . . . . . . . 628
port-channel local-preference . . . . . . . . . . . 629
port-channel min-links . . . . . . . . . . . . . . . 630
show interfaces port-channel . . . . . . . . . . . 631
show lacp . . . . . . . . . . . . . . . . . . . . . . 632
show statistics port-channel . . . . . . . . . . . . 634
Port Monitor Commands . . . . . . . . . . . . . . . . . . . . . . .637
Commands in this Section . . . . . . . . . . . . . 638
monitor capture (Global Configuration) . . . . . . 638
monitor capture (Privileged Exec) . . . . . . . . . 640
monitor capture mode . . . . . . . . . . . . . . . 640
monitor session . . . . . . . . . . . . . . . . . . . 645
remote-span . . . . . . . . . . . . . . . . . . . . 650
show monitor capture . . . . . . . . . . . . . . . 651
show monitor session . . . . . . . . . . . . . . . 653
show vlan remote-span. . . . . . . . . . . . . . . 655
QoS Commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .657
Access Control Lists . . . . . . . . . . . . . . . . 657
Contents 23
Layer 2 ACLs . . . . . . . . . . . . . . . . . . . . 658
Layer 3/4 IPv4 ACLs. . . . . . . . . . . . . . . . . 658
Class of Service (CoS) . . . . . . . . . . . . . . . 658
Queue Mapping. . . . . . . . . . . . . . . . . . . 659
DiffServ . . . . . . . . . . . . . . . . . . . . . . . 660
Commands in this Section . . . . . . . . . . . . . 660
assign-queue . . . . . . . . . . . . . . . . . . . . 661
class . . . . . . . . . . . . . . . . . . . . . . . . 662
class-map. . . . . . . . . . . . . . . . . . . . . . 663
class-map rename . . . . . . . . . . . . . . . . . 663
classofservice dot1p-mapping . . . . . . . . . . . 664
classofservice ip-dscp-mapping . . . . . . . . . . 665
classofservice trust. . . . . . . . . . . . . . . . . 669
conform-color. . . . . . . . . . . . . . . . . . . . 670
cos-queue min-bandwidth . . . . . . . . . . . . . 672
cos-queue random-detect . . . . . . . . . . . . . 673
cos-queue strict . . . . . . . . . . . . . . . . . . 676
diffserv . . . . . . . . . . . . . . . . . . . . . . . 677
drop . . . . . . . . . . . . . . . . . . . . . . . . . 678
mark cos . . . . . . . . . . . . . . . . . . . . . . 678
mark ip-dscp . . . . . . . . . . . . . . . . . . . . 679
Contents 24
mark ip-precedence . . . . . . . . . . . . . . . . 680
match class-map . . . . . . . . . . . . . . . . . . 681
match cos. . . . . . . . . . . . . . . . . . . . . . 682
match destination-address mac . . . . . . . . . . 683
match dstip . . . . . . . . . . . . . . . . . . . . . 684
match dstip6 . . . . . . . . . . . . . . . . . . . . 685
match dstl4port . . . . . . . . . . . . . . . . . . . 686
match ethertype . . . . . . . . . . . . . . . . . . 686
match ip6flowlbl . . . . . . . . . . . . . . . . . . 687
match ip dscp. . . . . . . . . . . . . . . . . . . . 688
match ip precedence . . . . . . . . . . . . . . . . 689
match ip tos. . . . . . . . . . . . . . . . . . . . . 690
match protocol . . . . . . . . . . . . . . . . . . . 691
match source-address mac . . . . . . . . . . . . 692
match srcip . . . . . . . . . . . . . . . . . . . . . 693
match srcip6 . . . . . . . . . . . . . . . . . . . . 693
match srcl4port . . . . . . . . . . . . . . . . . . . 694
match vlan . . . . . . . . . . . . . . . . . . . . . 695
mirror . . . . . . . . . . . . . . . . . . . . . . . . 696
police-simple . . . . . . . . . . . . . . . . . . . . 696
police-single-rate. . . . . . . . . . . . . . . . . . 698
Contents 25
police-two-rate . . . . . . . . . . . . . . . . . . . 699
policy-map . . . . . . . . . . . . . . . . . . . . . 701
random-detect queue-parms. . . . . . . . . . . . 702
random-detect exponential-weighting-constant. . 707
redirect . . . . . . . . . . . . . . . . . . . . . . . 708
service-policy. . . . . . . . . . . . . . . . . . . . 709
show class-map . . . . . . . . . . . . . . . . . . 710
show classofservice dot1p-mapping. . . . . . . . 711
show classofservice ip-dscp-mapping. . . . . . . 713
show classofservice trust . . . . . . . . . . . . . 715
show diffserv . . . . . . . . . . . . . . . . . . . . 715
show diffserv service interface . . . . . . . . . . 716
show diffserv service brief . . . . . . . . . . . . . 717
show interfaces cos-queue . . . . . . . . . . . . 718
show interfaces random-detect . . . . . . . . . . 720
show policy-map . . . . . . . . . . . . . . . . . . 722
show policy-map interface . . . . . . . . . . . . . 723
show service-policy . . . . . . . . . . . . . . . . 724
traffic-shape . . . . . . . . . . . . . . . . . . . . 725
vlan priority . . . . . . . . . . . . . . . . . . . . . 726
Spanning Tree Commands . . . . . . . . . . . . . . . . . . . . .727
Contents 26
Commands in this Section . . . . . . . . . . . . . 728
clear spanning-tree detected-protocols . . . . . . 729
exit (mst) . . . . . . . . . . . . . . . . . . . . . . 730
instance (mst). . . . . . . . . . . . . . . . . . . . 730
name (mst) . . . . . . . . . . . . . . . . . . . . . 732
revision (mst) . . . . . . . . . . . . . . . . . . . . 733
show spanning-tree . . . . . . . . . . . . . . . . 734
show spanning-tree summary . . . . . . . . . . . 742
show spanning-tree vlan . . . . . . . . . . . . . . 743
spanning-tree. . . . . . . . . . . . . . . . . . . . 744
spanning-tree auto-portfast . . . . . . . . . . . . 745
spanning-tree backbonefast . . . . . . . . . . . . 746
spanning-tree bpdu flooding . . . . . . . . . . . . 747
spanning-tree bpdu-protection. . . . . . . . . . . 747
spanning-tree cost . . . . . . . . . . . . . . . . . 748
spanning-tree disable . . . . . . . . . . . . . . . 750
spanning-tree forward-time . . . . . . . . . . . . 750
spanning-tree guard . . . . . . . . . . . . . . . . 751
spanning-tree loopguard . . . . . . . . . . . . . . 752
spanning-tree max-age. . . . . . . . . . . . . . . 753
spanning-tree max-hops . . . . . . . . . . . . . . 754
Contents 27
spanning-tree mode . . . . . . . . . . . . . . . . 754
spanning-tree mst configuration . . . . . . . . . . 756
spanning-tree mst cost . . . . . . . . . . . . . . . 757
spanning-tree mst port-priority. . . . . . . . . . . 758
spanning-tree mst priority . . . . . . . . . . . . . 759
spanning-tree portfast . . . . . . . . . . . . . . . 760
spanning-tree portfast bpdufilter default. . . . . . 761
spanning-tree portfast default . . . . . . . . . . . 762
spanning-tree port-priority (Interface Configuration) 763
spanning-tree priority. . . . . . . . . . . . . . . . 764
spanning-tree tcnguard . . . . . . . . . . . . . . 765
spanning-tree transmit hold-count . . . . . . . . . 766
spanning-tree uplinkfast . . . . . . . . . . . . . . 766
spanning-tree vlan . . . . . . . . . . . . . . . . . 768
spanning-tree vlan forward-time . . . . . . . . . . 769
spanning-tree vlan hello-time . . . . . . . . . . . 770
spanning-tree vlan max-age . . . . . . . . . . . . 771
spanning-tree vlan root. . . . . . . . . . . . . . . 772
spanning-tree vlan priority . . . . . . . . . . . . . 773
UDLD Commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . .775
Detecting Unidirectional Links on a Device Port. . 775
Contents 28
Processing UDLD Traffic from Neighbors . . . . . 776
UDLD in Normal-mode . . . . . . . . . . . . . . . 776
UDLD in Aggressive-mode . . . . . . . . . . . . . 776
Commands in this Section . . . . . . . . . . . . . 777
udld enable (Global Configuration) . . . . . . . . . 777
udld reset . . . . . . . . . . . . . . . . . . . . . . 778
udld message time . . . . . . . . . . . . . . . . . 779
udld timeout interval . . . . . . . . . . . . . . . . 780
udld enable (Interface Configuration) . . . . . . . 780
udld port . . . . . . . . . . . . . . . . . . . . . . 781
show udld . . . . . . . . . . . . . . . . . . . . . . 782
VLAN Commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . .784
Double VLAN Mode. . . . . . . . . . . . . . . . . 785
Independent VLAN Learning . . . . . . . . . . . . 785
Protocol Based VLANs . . . . . . . . . . . . . . . 786
IP Subnet Based VLANs . . . . . . . . . . . . . . 786
MAC-Based VLANs. . . . . . . . . . . . . . . . . 786
Private VLAN Commands . . . . . . . . . . . . . . 787
Commands in this Section . . . . . . . . . . . . . 789
interface vlan . . . . . . . . . . . . . . . . . . . . 790
interface range vlan . . . . . . . . . . . . . . . . 791
Contents 29
name (VLAN Configuration) . . . . . . . . . . . . 792
private-vlan . . . . . . . . . . . . . . . . . . . . . 793
protocol group . . . . . . . . . . . . . . . . . . . 795
protocol vlan group . . . . . . . . . . . . . . . . . 796
protocol vlan group all . . . . . . . . . . . . . . . 797
show dot1q-tunnel . . . . . . . . . . . . . . . . . 798
show interfaces switchport . . . . . . . . . . . . 799
show port protocol . . . . . . . . . . . . . . . . . 800
show switchport ethertype . . . . . . . . . . . . . 801
show vlan . . . . . . . . . . . . . . . . . . . . . . 802
show vlan association mac. . . . . . . . . . . . . 804
show vlan association subnet . . . . . . . . . . . 805
show vlan private-vlan . . . . . . . . . . . . . . . 806
switchport access vlan. . . . . . . . . . . . . . . 807
switchport dot1q ethertype (Global Configuration) 808
switchport dot1q ethertype (Interface Configuration) 810
switchport general forbidden vlan . . . . . . . . . 812
switchport general acceptable-frame-type tagged-only 813
switchport general allowed vlan . . . . . . . . . . 813
switchport general ingress-filtering disable . . . . 814
switchport general pvid . . . . . . . . . . . . . . 815
Contents 30
switchport mode . . . . . . . . . . . . . . . . . . 816
switchport mode dot1q-tunnel . . . . . . . . . . . 817
switchport mode private-vlan . . . . . . . . . . . 819
switchport private-vlan. . . . . . . . . . . . . . . 820
switchport trunk . . . . . . . . . . . . . . . . . . 821
switchport trunk encapsulation dot1q . . . . . . . 823
vlan . . . . . . . . . . . . . . . . . . . . . . . . . 824
vlan association mac . . . . . . . . . . . . . . . . 825
vlan association subnet . . . . . . . . . . . . . . 825
vlan makestatic . . . . . . . . . . . . . . . . . . . 826
vlan protocol group . . . . . . . . . . . . . . . . . 827
vlan protocol group add protocol. . . . . . . . . . 828
vlan protocol group name . . . . . . . . . . . . . 829
vlan protocol group remove . . . . . . . . . . . . 829
Voice VLAN Commands . . . . . . . . . . . . . . . . . . . . . . . .831
Commands in this Section . . . . . . . . . . . . . 832
voice vlan . . . . . . . . . . . . . . . . . . . . . . 832
voice vlan (Interface) . . . . . . . . . . . . . . . . 832
voice vlan data priority . . . . . . . . . . . . . . . 834
show voice vlan. . . . . . . . . . . . . . . . . . . 835
Contents 31
4 Security Commands. . . . . . . . . . . . . . . . 837
AAA Commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .838
Administrative Authentication . . . . . . . . . . . 838
Administrative Accounting . . . . . . . . . . . . . 839
Accounting Method Lists . . . . . . . . . . . . . . 840
Access Line Modes. . . . . . . . . . . . . . . . . 840
Command Authorization . . . . . . . . . . . . . . 841
Network Authentication . . . . . . . . . . . . . . 841
Local 802.1x Authentication Server . . . . . . . . 841
MAC Authentication Bypass . . . . . . . . . . . . 842
Guest VLAN . . . . . . . . . . . . . . . . . . . . . 843
Unauthenticated VLAN . . . . . . . . . . . . . . . 843
Commands in this Section . . . . . . . . . . . . . 844
aaa accounting . . . . . . . . . . . . . . . . . . . 844
aaa authentication dot1x default . . . . . . . . . . 847
aaa authentication enable . . . . . . . . . . . . . 848
aaa authentication login . . . . . . . . . . . . . . 850
aaa authorization . . . . . . . . . . . . . . . . . . 852
aaa authorization network default radius . . . . . 855
aaa ias-user username . . . . . . . . . . . . . . . 856
aaa new-model . . . . . . . . . . . . . . . . . . . 857
Contents 32
aaa server radius dynamic-author . . . . . . . . . 857
authentication enable . . . . . . . . . . . . . . . 859
authentication order . . . . . . . . . . . . . . . . 860
authentication priority . . . . . . . . . . . . . . . 861
authentication restart . . . . . . . . . . . . . . . 862
clear (IAS) . . . . . . . . . . . . . . . . . . . . . 862
clear authentication statistics . . . . . . . . . . . 863
clear authentication authentication-history . . . . 864
enable password . . . . . . . . . . . . . . . . . . 864
ip http authentication . . . . . . . . . . . . . . . . 865
ip https authentication . . . . . . . . . . . . . . . 866
password (AAA IAS User Configuration). . . . . . 868
password (User Exec) . . . . . . . . . . . . . . . 869
show aaa ias-users. . . . . . . . . . . . . . . . . 870
show aaa statistics . . . . . . . . . . . . . . . . . 870
show accounting methods . . . . . . . . . . . . . 871
show authentication . . . . . . . . . . . . . . . . 872
show authentication authentication-history . . . . 873
show authentication methods . . . . . . . . . . . 874
show authentication statistics . . . . . . . . . . . 875
show authorization methods . . . . . . . . . . . . 876
Contents 33
show users accounts. . . . . . . . . . . . . . . . 877
show users login-history . . . . . . . . . . . . . . 878
username . . . . . . . . . . . . . . . . . . . . . . 879
username unlock . . . . . . . . . . . . . . . . . . 881
Administrative Profiles Commands . . . . . . . . . . . . .883
Commands in this Section . . . . . . . . . . . . . 884
admin-profile . . . . . . . . . . . . . . . . . . . . 884
description (Administrative Profile Configuration) . 885
rule . . . . . . . . . . . . . . . . . . . . . . . . . 886
show admin-profiles . . . . . . . . . . . . . . . . 887
show admin-profiles brief . . . . . . . . . . . . . 888
show cli modes . . . . . . . . . . . . . . . . . . . 889
E-mail Alerting Commands . . . . . . . . . . . . . . . . . . . . .890
Commands in this Section . . . . . . . . . . . . . 890
logging email . . . . . . . . . . . . . . . . . . . . 891
logging email urgent . . . . . . . . . . . . . . . . 892
logging email message-type to-addr . . . . . . . . 893
logging email from-addr . . . . . . . . . . . . . . 894
logging email message-type subject . . . . . . . . 895
logging email logtime . . . . . . . . . . . . . . . . 896
logging email test message-type . . . . . . . . . . 897
show logging email statistics. . . . . . . . . . . . 897
Contents 34
clear logging email statistics . . . . . . . . . . . . 898
security . . . . . . . . . . . . . . . . . . . . . . . 899
mail-server ip-address | hostname. . . . . . . . . 899
port (Mail Server Configuration Mode). . . . . . . 900
username (Mail Server Configuration Mode) . . . 901
password (Mail Server Configuration Mode) . . . 902
show mail-server . . . . . . . . . . . . . . . . . . 903
RADIUS Commands . . . . . . . . . . . . . . . . . . . . . . . . . . .905
RADIUS-based Dynamic VLAN Assignment . . . . 905
RADIUS Change of Authorization. . . . . . . . . . 906
Commands in this Section . . . . . . . . . . . . . 907
acct-port . . . . . . . . . . . . . . . . . . . . . . 908
attribute 6 . . . . . . . . . . . . . . . . . . . . . . 909
attribute 8 . . . . . . . . . . . . . . . . . . . . . . 910
attribute 25 . . . . . . . . . . . . . . . . . . . . . 911
attribute 31 . . . . . . . . . . . . . . . . . . . . . 911
authentication event fail retry . . . . . . . . . . . 913
auth-port . . . . . . . . . . . . . . . . . . . . . . 914
deadtime . . . . . . . . . . . . . . . . . . . . . . 915
key . . . . . . . . . . . . . . . . . . . . . . . . . 916
msgauth. . . . . . . . . . . . . . . . . . . . . . . 917
Contents 35
name (RADIUS server) . . . . . . . . . . . . . . . 918
primary . . . . . . . . . . . . . . . . . . . . . . . 919
priority . . . . . . . . . . . . . . . . . . . . . . . 920
radius-server attribute 4 . . . . . . . . . . . . . . 921
radius-server attribute 6 . . . . . . . . . . . . . . 922
radius-server attribute 8 . . . . . . . . . . . . . . 923
radius-server attribute 25. . . . . . . . . . . . . . 924
radius-server attribute 31. . . . . . . . . . . . . . 924
radius-server deadtime. . . . . . . . . . . . . . . 926
radius-server host . . . . . . . . . . . . . . . . . 927
radius-server key . . . . . . . . . . . . . . . . . . 928
radius-server retransmit . . . . . . . . . . . . . . 929
radius-server source-ip . . . . . . . . . . . . . . 930
radius-server source-interface. . . . . . . . . . . 931
radius-server timeout. . . . . . . . . . . . . . . . 932
retransmit . . . . . . . . . . . . . . . . . . . . . . 932
show aaa servers. . . . . . . . . . . . . . . . . . 933
show radius statistics . . . . . . . . . . . . . . . 936
source-ip . . . . . . . . . . . . . . . . . . . . . . 940
timeout . . . . . . . . . . . . . . . . . . . . . . . 940
usage . . . . . . . . . . . . . . . . . . . . . . . . 941
Contents 36
TACACS+ Commands . . . . . . . . . . . . . . . . . . . . . . . . . .943
Commands in this Section . . . . . . . . . . . . . 943
key . . . . . . . . . . . . . . . . . . . . . . . . . 944
port . . . . . . . . . . . . . . . . . . . . . . . . . 945
priority . . . . . . . . . . . . . . . . . . . . . . . 946
show tacacs . . . . . . . . . . . . . . . . . . . . 946
tacacs-server host . . . . . . . . . . . . . . . . . 947
tacacs-server key . . . . . . . . . . . . . . . . . 948
tacacs-server source-interface . . . . . . . . . . 949
tacacs-server timeout . . . . . . . . . . . . . . . 950
timeout . . . . . . . . . . . . . . . . . . . . . . . 951
802.1x Commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . .953
802.1x Monitor Mode . . . . . . . . . . . . . . . . 953
Commands in this Section . . . . . . . . . . . . . 954
dot1x dynamic-vlan enable . . . . . . . . . . . . . 955
dot1x eapolflood . . . . . . . . . . . . . . . . . . 956
dot1x initialize. . . . . . . . . . . . . . . . . . . . 956
dot1x mac-auth-bypass. . . . . . . . . . . . . . . 957
dot1x max-req. . . . . . . . . . . . . . . . . . . . 958
dot1x max-users . . . . . . . . . . . . . . . . . . 959
dot1x port-control. . . . . . . . . . . . . . . . . . 959
dot1x re-authenticate. . . . . . . . . . . . . . . . 961
Contents 37
dot1x reauthentication . . . . . . . . . . . . . . . 962
dot1x system-auth-control . . . . . . . . . . . . . 962
dot1x system-auth-control monitor. . . . . . . . . 963
dot1x timeout quiet-period . . . . . . . . . . . . . 964
dot1x timeout re-authperiod . . . . . . . . . . . . 965
dot1x timeout server-timeout. . . . . . . . . . . . 966
dot1x timeout supp-timeout . . . . . . . . . . . . 967
dot1x timeout tx-period . . . . . . . . . . . . . . . 968
auth-type . . . . . . . . . . . . . . . . . . . . . . 969
client . . . . . . . . . . . . . . . . . . . . . . . . 970
ignore . . . . . . . . . . . . . . . . . . . . . . . . 972
port . . . . . . . . . . . . . . . . . . . . . . . . . 973
server-key . . . . . . . . . . . . . . . . . . . . . 973
show dot1x . . . . . . . . . . . . . . . . . . . . . 975
show dot1x authentication-history . . . . . . . . . 977
show dot1x clients . . . . . . . . . . . . . . . . . 979
show dot1x interface . . . . . . . . . . . . . . . . 980
show dot1x interface statistics. . . . . . . . . . . 982
show dot1x users . . . . . . . . . . . . . . . . . . 983
clear dot1x authentication–history . . . . . . . . . 984
dot1x guest-vlan . . . . . . . . . . . . . . . . . . 985
Contents 38
dot1x timeout guest-vlan-period . . . . . . . . . . 986
dot1x unauth-vlan. . . . . . . . . . . . . . . . . . 987
show dot1x advanced . . . . . . . . . . . . . . . 988
Captive Portal Commands . . . . . . . . . . . . . . . . . . . . . .990
Commands in this Section . . . . . . . . . . . . . 990
authentication timeout . . . . . . . . . . . . . . . 992
captive-portal. . . . . . . . . . . . . . . . . . . . 992
enable. . . . . . . . . . . . . . . . . . . . . . . . 993
http port . . . . . . . . . . . . . . . . . . . . . . . 994
https port . . . . . . . . . . . . . . . . . . . . . . 994
show captive-portal . . . . . . . . . . . . . . . . 995
show captive-portal status . . . . . . . . . . . . . 996
block . . . . . . . . . . . . . . . . . . . . . . . . 997
configuration . . . . . . . . . . . . . . . . . . . . 997
enable. . . . . . . . . . . . . . . . . . . . . . . . 998
group . . . . . . . . . . . . . . . . . . . . . . . . 999
interface . . . . . . . . . . . . . . . . . . . . . . 999
locale . . . . . . . . . . . . . . . . . . . . . . . 1000
name (Captive Portal). . . . . . . . . . . . . . . 1001
protocol . . . . . . . . . . . . . . . . . . . . . . 1001
redirect . . . . . . . . . . . . . . . . . . . . . . 1002
Contents 39
redirect-url . . . . . . . . . . . . . . . . . . . . 1002
session-timeout. . . . . . . . . . . . . . . . . . 1003
verification . . . . . . . . . . . . . . . . . . . . 1004
captive-portal client deauthenticate . . . . . . . 1005
show captive-portal client status . . . . . . . . 1005
show captive-portal configuration client status . 1006
show captive-portal interface client status . . . 1007
show captive-portal interface configuration status 1008
clear captive-portal users . . . . . . . . . . . . 1009
no user . . . . . . . . . . . . . . . . . . . . . . 1010
show captive-portal user . . . . . . . . . . . . . 1010
user group . . . . . . . . . . . . . . . . . . . . 1011
user-logout . . . . . . . . . . . . . . . . . . . . 1012
user name. . . . . . . . . . . . . . . . . . . . . 1013
user password . . . . . . . . . . . . . . . . . . 1014
user session-timeout . . . . . . . . . . . . . . . 1014
show captive-portal configuration . . . . . . . . 1015
show captive-portal configuration interface. . . 1016
show captive-portal configuration locales. . . . 1017
show captive-portal configuration status . . . . 1018
user group . . . . . . . . . . . . . . . . . . . . 1019
Contents 40
user group moveusers . . . . . . . . . . . . . . 1019
user group name . . . . . . . . . . . . . . . . . 1020
Denial of Service Commands . . . . . . . . . . . . . . . . . .1021
Commands in this Section . . . . . . . . . . . . 1022
dos-control firstfrag . . . . . . . . . . . . . . . 1023
dos-control icmp . . . . . . . . . . . . . . . . . 1023
dos-control l4port. . . . . . . . . . . . . . . . . 1024
dos-control sipdip . . . . . . . . . . . . . . . . 1025
dos-control tcpflag . . . . . . . . . . . . . . . . 1026
dos-control tcpfrag . . . . . . . . . . . . . . . . 1026
rate-limit cpu . . . . . . . . . . . . . . . . . . . 1027
show dos-control . . . . . . . . . . . . . . . . . 1029
show system internal pktmgr. . . . . . . . . . . 1030
storm-control broadcast . . . . . . . . . . . . . 1031
storm-control multicast. . . . . . . . . . . . . . 1032
storm-control unicast. . . . . . . . . . . . . . . 1034
Management ACL Commands . . . . . . . . . . . . . . . . .1036
Commands in this Section . . . . . . . . . . . . 1036
deny (management) . . . . . . . . . . . . . . . 1037
management access-class. . . . . . . . . . . . 1038
management access-list . . . . . . . . . . . . . 1039
permit (management). . . . . . . . . . . . . . . 1041
Contents 41
show management access-class . . . . . . . . 1042
show management access-list. . . . . . . . . . 1043
Password Management Commands . . . . . . . . . . . .1045
Configurable Minimum Password Length . . . . 1045
Password History . . . . . . . . . . . . . . . . . 1045
Password Aging . . . . . . . . . . . . . . . . . 1045
User Lockout . . . . . . . . . . . . . . . . . . . 1045
Password Strength . . . . . . . . . . . . . . . . 1046
Commands in this Section . . . . . . . . . . . . 1047
passwords aging . . . . . . . . . . . . . . . . . 1048
passwords history . . . . . . . . . . . . . . . . 1048
passwords lock-out. . . . . . . . . . . . . . . . 1049
passwords min-length . . . . . . . . . . . . . . 1050
passwords strength-check . . . . . . . . . . . . 1051
passwords strength minimum uppercase-letters 1052
passwords strength minimum lowercase-letters 1053
passwords strength minimum numeric-characters 1054
passwords strength minimum special-characters 1054
passwords strength max-limit consecutive-characters 1055
passwords strength max-limit repeated-characters 1056
passwords strength minimum character-classes 1057
Contents 42
passwords strength exclude-keyword . . . . . . 1058
enable password encrypted . . . . . . . . . . . 1059
show passwords configuration. . . . . . . . . . 1059
show passwords result. . . . . . . . . . . . . . 1061
SSH Commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1063
Commands in this Section . . . . . . . . . . . . 1063
crypto key generate dsa . . . . . . . . . . . . . 1063
crypto key generate rsa . . . . . . . . . . . . . 1064
crypto key pubkey-chain ssh . . . . . . . . . . . 1065
crypto key zeroize pubkey-chain . . . . . . . . . 1066
crypto key zeroize {rsa|dsa} . . . . . . . . . . . 1067
ip ssh port. . . . . . . . . . . . . . . . . . . . . 1068
ip ssh pubkey-auth . . . . . . . . . . . . . . . . 1069
ip ssh server . . . . . . . . . . . . . . . . . . . 1070
key-string . . . . . . . . . . . . . . . . . . . . . 1071
show crypto key mypubkey. . . . . . . . . . . . 1072
show crypto key pubkey-chain ssh . . . . . . . 1073
show ip ssh . . . . . . . . . . . . . . . . . . . . 1074
5 Audio Visual Bridging Commands . . . . 1075
Multiple MAC Registration Protocol Commands .1076
Commands in this Section . . . . . . . . . . . . 1076
Contents 43
clear mmrp statistics . . . . . . . . . . . . . . . 1076
mmrp . . . . . . . . . . . . . . . . . . . . . . . 1077
mmrp global. . . . . . . . . . . . . . . . . . . . 1078
mmrp periodic state machine . . . . . . . . . . 1079
show mmrp . . . . . . . . . . . . . . . . . . . . 1080
show mmrp statistics . . . . . . . . . . . . . . . 1081
Multiple VLAN Registration Protocol Commands 1083
Commands in this Section . . . . . . . . . . . . 1083
clear mvrp statistics . . . . . . . . . . . . . . . 1083
mvrp. . . . . . . . . . . . . . . . . . . . . . . . 1084
mvrp global . . . . . . . . . . . . . . . . . . . . 1085
mvrp periodic state machine . . . . . . . . . . . 1086
show mvrp . . . . . . . . . . . . . . . . . . . . 1087
show mvrp statistics . . . . . . . . . . . . . . . 1088
Multiple Stream Reservation Protocol Commands 1090
Commands in this Section . . . . . . . . . . . . 1090
clear msrp statistics . . . . . . . . . . . . . . . 1090
msrp (Interface). . . . . . . . . . . . . . . . . . 1091
msrp boundary-propagate . . . . . . . . . . . . 1092
msrp delta-bw . . . . . . . . . . . . . . . . . . 1093
msrp global . . . . . . . . . . . . . . . . . . . . 1094
msrp max-fan-in-ports . . . . . . . . . . . . . . 1095
Contents 44
msrp srclass-pvid. . . . . . . . . . . . . . . . . 1096
msrp srclassqav . . . . . . . . . . . . . . . . . 1097
msrp talker-pruning. . . . . . . . . . . . . . . . 1099
show msrp . . . . . . . . . . . . . . . . . . . . 1100
show msrp reservations . . . . . . . . . . . . . 1103
show msrp statistics . . . . . . . . . . . . . . . 1104
show msrp stream . . . . . . . . . . . . . . . . 1106
802.1AS Timesync Commands . . . . . . . . . . . . . . . . .1109
Commands in this Section . . . . . . . . . . . . 1109
clear dot1as statistics . . . . . . . . . . . . . . 1109
dot1as (Global Configuration) . . . . . . . . . . 1110
dot1as (Interface Configuration) . . . . . . . . . 1111
dot1as priority. . . . . . . . . . . . . . . . . . . 1112
dot1as interval announce. . . . . . . . . . . . . 1113
dot1as interval sync . . . . . . . . . . . . . . . 1115
dot1as interval pdelay . . . . . . . . . . . . . . 1116
dot1as timeout announce. . . . . . . . . . . . . 1117
dot1as timeout sync . . . . . . . . . . . . . . . 1119
dot1as pdelay-threshold . . . . . . . . . . . . . 1120
dot1as interval pdelay-loss . . . . . . . . . . . . 1121
show dot1as . . . . . . . . . . . . . . . . . . . 1123
Contents 45
show dot1as statistics . . . . . . . . . . . . . . 1126
6 Data Center Technology Commands . . 1129
Data Center Bridging Commands . . . . . . . . . . . . . .1130
Data Center Bridging Exchange Protocol . . . . 1130
Interoperability with IEEE DCBX . . . . . . . . . 1134
Port Roles . . . . . . . . . . . . . . . . . . . . . 1134
Commands in this Section . . . . . . . . . . . . 1138
Data Center Bridging Capability Exchange Commands 1138
datacenter-bridging . . . . . . . . . . . . . . . 1138
lldp dcbx version . . . . . . . . . . . . . . . . . 1139
lldp tlv-select dcbxp (dcb enable) . . . . . . . . 1140
lldp dcbx port-role . . . . . . . . . . . . . . . . 1142
show lldp tlv-select . . . . . . . . . . . . . . . . 1143
show lldp dcbx . . . . . . . . . . . . . . . . . . 1144
Enhanced Transmission Selection (ETS) Commands 1148
classofservice traffic-class-group . . . . . . . . 1148
traffic-class-group max-bandwidth . . . . . . . 1150
traffic-class-group min-bandwidth. . . . . . . . 1151
traffic-class-group strict . . . . . . . . . . . . . 1152
traffic-class-group weight . . . . . . . . . . . . 1154
show classofservice traffic-class-group. . . . . 1155
Contents 46
show interfaces traffic . . . . . . . . . . . . . . 1156
show interfaces traffic-class-group . . . . . . . 1158
OpenFlow Commands . . . . . . . . . . . . . . . . . . . . . . . .1160
Commands in this Section . . . . . . . . . . . . 1160
controller . . . . . . . . . . . . . . . . . . . . . 1160
hardware profile openflow . . . . . . . . . . . . 1162
ipv4 address . . . . . . . . . . . . . . . . . . . 1163
mode . . . . . . . . . . . . . . . . . . . . . . . 1165
openflow . . . . . . . . . . . . . . . . . . . . . 1167
passive . . . . . . . . . . . . . . . . . . . . . . 1168
protocol-version . . . . . . . . . . . . . . . . . 1169
show openflow . . . . . . . . . . . . . . . . . . 1171
Priority Flow Control Commands . . . . . . . . . . . . . . .1179
Commands in this Section . . . . . . . . . . . . 1180
priority-flow-control mode . . . . . . . . . . . . 1180
priority-flow-control priority . . . . . . . . . . . 1181
clear priority-flow-control statistics . . . . . . . 1182
show interfaces priority-flow-control . . . . . . 1183
7 Layer 3 Routing Commands . . . . . . . . . 1187
ARP Commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1188
ARP Aging . . . . . . . . . . . . . . . . . . . . 1189
Contents 47
Commands in this Section . . . . . . . . . . . . 1189
arp . . . . . . . . . . . . . . . . . . . . . . . . 1189
arp cachesize. . . . . . . . . . . . . . . . . . . 1191
arp dynamicrenew . . . . . . . . . . . . . . . . 1192
arp purge . . . . . . . . . . . . . . . . . . . . . 1193
arp resptime . . . . . . . . . . . . . . . . . . . 1194
arp retries. . . . . . . . . . . . . . . . . . . . . 1195
arp timeout . . . . . . . . . . . . . . . . . . . . 1195
clear arp-cache. . . . . . . . . . . . . . . . . . 1196
clear arp-cache management . . . . . . . . . . 1197
ip local-proxy-arp. . . . . . . . . . . . . . . . . 1198
ip proxy-arp . . . . . . . . . . . . . . . . . . . . 1198
show arp . . . . . . . . . . . . . . . . . . . . . 1199
Bidirectional Forwarding Detection Commands .1201
Commands in this Section . . . . . . . . . . . . 1201
feature bfd . . . . . . . . . . . . . . . . . . . . 1201
bfd echo. . . . . . . . . . . . . . . . . . . . . . 1202
bfd interval . . . . . . . . . . . . . . . . . . . . 1203
bfd slow-timer . . . . . . . . . . . . . . . . . . 1205
ip ospf bfd. . . . . . . . . . . . . . . . . . . . . 1206
ipv6 ospf bfd . . . . . . . . . . . . . . . . . . . 1207
Contents 48
neighbor fall-over bfd. . . . . . . . . . . . . . . 1208
show bfd neighbor . . . . . . . . . . . . . . . . 1208
Border Gateway Protocol Commands . . . . . . . . . .1212
Commands in this Section . . . . . . . . . . . . 1212
router bgp. . . . . . . . . . . . . . . . . . . . . 1215
address-family . . . . . . . . . . . . . . . . . . 1216
address-family ipv4 vrf . . . . . . . . . . . . . . 1218
address-family ipv6 . . . . . . . . . . . . . . . . 1219
address-family vpnv4 unicast . . . . . . . . . . 1219
aggregate-address . . . . . . . . . . . . . . . . 1221
bgp aggregate-different-meds (BGP Router Configuration) 1222
bgp aggregate-different-meds (IPv6 Address Family
Configuration). . . . . . . . . . . . . . . . . . . 1223
bgp always-compare-med . . . . . . . . . . . . 1224
bgp client-to-client reflection (BGP Router Configuration) 1225
bgp client-to-client reflection (IPv6 Address Family
Configuration). . . . . . . . . . . . . . . . . . . 1226
bgp cluster-id . . . . . . . . . . . . . . . . . . . 1227
bgp default local-preference . . . . . . . . . . . 1228
bgp fast-external-fallover . . . . . . . . . . . . 1229
bgp fast-internal-fallover . . . . . . . . . . . . . 1230
bgp listen . . . . . . . . . . . . . . . . . . . . . 1231
Contents 49
bgp log-neighbor-changes . . . . . . . . . . . . 1233
bgp maxas-limit . . . . . . . . . . . . . . . . . . 1233
bgp router-id . . . . . . . . . . . . . . . . . . . 1234
clear ip bgp . . . . . . . . . . . . . . . . . . . . 1235
clear ip bgp counters . . . . . . . . . . . . . . . 1237
default-information originate (BGP Router Configuration) 1237
default-information originate (IPv6 Address Family Configuration)
1238
default metric (BGP Router Configuration) . . . . 1239
default metric (IPv6 Address Family Configuration) 1240
distance. . . . . . . . . . . . . . . . . . . . . . 1241
distance bgp (BGP Router Configuration) . . . . 1242
distance bgp (IPv6 Address Family Configuration) 1243
distribute-list prefix in . . . . . . . . . . . . . . 1245
distribute-list prefix out (BGP Router Configuration) 1245
distribute-list prefix out (IPv6 Address Family Configuration)
1246
enable. . . . . . . . . . . . . . . . . . . . . . . 1247
ip as-path access-list. . . . . . . . . . . . . . . 1248
ip bgp-community new-format . . . . . . . . . . 1251
ip bgp fast-external-fallover . . . . . . . . . . . 1251
ip community-list . . . . . . . . . . . . . . . . . 1252
Contents 50
ip extcommunity-list . . . . . . . . . . . . . . . 1254
match extcommunity . . . . . . . . . . . . . . . 1256
maximum-paths (BGP Router Configuration). . . 1257
maximum-paths (IPv6 Address Family Configuration) 1259
maximum-paths ibgp (BGP Router Configuration) 1260
maximum-paths ibgp (IPv6 Address Family Configuration) 1261
neighbor activate . . . . . . . . . . . . . . . . . 1262
neighbor advertisement-interval (BGP Router Configuration)
1263
neighbor advertisement-interval (IPv6 Address Family
Configuration). . . . . . . . . . . . . . . . . . . 1264
neighbor allowas-in . . . . . . . . . . . . . . . 1265
neighbor connect-retry-interval . . . . . . . . . 1267
neighbor default-originate (BGP Router Configuration) 1268
neighbor default-originate (IPv6 Address Family Configuration)
1269
neighbor description . . . . . . . . . . . . . . . 1271
neighbor ebgp-multihop . . . . . . . . . . . . . 1272
neighbor filter-list (BGP Router Configuration). . 1274
neighbor filter-list (IPv6 Address Family Configuration) 1276
neighbor inherit peer . . . . . . . . . . . . . . . 1277
neighbor local-as . . . . . . . . . . . . . . . . . 1278
neighbor maximum-prefix (BGP Router Configuration) 1280
Contents 51
neighbor maximum-prefix (IPv6 Address Family Configuration)
1282
neighbor next-hop-self (BGP Router Configuration) 1283
neighbor next-hop-self (IPv6 Address Family Configuration) 1284
neighbor password . . . . . . . . . . . . . . . . 1285
neighbor prefix-list (BGP Router Configuration) . 1287
neighbor prefix-list (IPv6 Address Family Configuration) 1288
neighbor remote-as. . . . . . . . . . . . . . . . 1289
neighbor remove-private-as . . . . . . . . . . . 1290
neighbor rfc5549-support. . . . . . . . . . . . . 1291
neighbor route-map (BGP Router Configuration) 1293
neighbor route-map (IPv6 Address Family Configuration) 1294
neighbor route-reflector-client (BGP Router Configuration) 1295
neighbor route-reflector-client (IPv6 Address Family
Configuration). . . . . . . . . . . . . . . . . . . 1296
neighbor send-community (BGP Router Configuration) 1298
neighbor send-community (IPv6 Address Family Configuration)
1299
neighbor shutdown . . . . . . . . . . . . . . . . 1300
neighbor timers . . . . . . . . . . . . . . . . . . 1301
neighbor update-source . . . . . . . . . . . . . 1302
network (BGP Router Configuration) . . . . . . . 1304
network (IPv6 Address Family Configuration) . . 1306
Contents 52
rd . . . . . . . . . . . . . . . . . . . . . . . . . 1308
redistribute (BGP). . . . . . . . . . . . . . . . . 1309
redistribute (BGP IPv6) . . . . . . . . . . . . . . 1311
route-target . . . . . . . . . . . . . . . . . . . . 1313
set extcommunity rt. . . . . . . . . . . . . . . . 1314
set extcommunity soo . . . . . . . . . . . . . . 1316
show bgp ipv6. . . . . . . . . . . . . . . . . . . 1317
show bgp ipv6 aggregate-address . . . . . . . . 1319
show bgp ipv6 community . . . . . . . . . . . . 1320
show bgp ipv6 community-list . . . . . . . . . . 1322
show bgp ipv6 listen range . . . . . . . . . . . . 1323
show bgp ipv6 neighbors . . . . . . . . . . . . . 1324
show bgp ipv6 neighbors advertised-routes . . . 1330
show bgp ipv6 neighbors policy . . . . . . . . . 1332
show bgp ipv6 neighbors received-routes . . . . 1333
show bgp ipv6 statistics . . . . . . . . . . . . . 1335
show bgp ipv6 summary . . . . . . . . . . . . . 1336
show bgp ipv6 update-group . . . . . . . . . . . 1339
show bgp ipv6 route-reflection. . . . . . . . . . 1342
show ip bgp . . . . . . . . . . . . . . . . . . . . 1343
show ip bgp aggregate-address . . . . . . . . . 1345
Contents 53
show ip bgp community . . . . . . . . . . . . . 1346
show ip bgp community-list . . . . . . . . . . . 1347
show ip bgp extcommunity-list . . . . . . . . . . 1348
show ip bgp listen range . . . . . . . . . . . . . 1349
show ip bgp neighbors . . . . . . . . . . . . . . 1350
show ip bgp neighbors advertised-routes . . . . 1357
show ip bgp neighbors received-routes . . . . . 1359
show ip bgp neighbors policy . . . . . . . . . . 1361
show ip bgp route-reflection . . . . . . . . . . . 1362
show ip bgp statistics. . . . . . . . . . . . . . . 1363
show ip bgp summary . . . . . . . . . . . . . . 1365
show ip bgp template. . . . . . . . . . . . . . . 1368
show ip bgp traffic . . . . . . . . . . . . . . . . 1369
show ip bgp update-group . . . . . . . . . . . . 1371
show ip bgp vpn4 . . . . . . . . . . . . . . . . . 1375
show router-capability . . . . . . . . . . . . . . 1379
template peer . . . . . . . . . . . . . . . . . . . 1380
timers bgp. . . . . . . . . . . . . . . . . . . . . 1382
BGP Routing Policy . . . . . . . . . . . . . . . . . . . . . . . . . .1384
Commands in this Section . . . . . . . . . . . . 1384
ip as-path access-list. . . . . . . . . . . . . . . 1385
Contents 54
ip bgp-community new-format . . . . . . . . . . 1387
ip community-list . . . . . . . . . . . . . . . . . 1388
ip prefix-list . . . . . . . . . . . . . . . . . . . . 1389
ip prefix-list description . . . . . . . . . . . . . 1391
ipv6 prefix-list. . . . . . . . . . . . . . . . . . . 1392
match as-path . . . . . . . . . . . . . . . . . . 1395
match community. . . . . . . . . . . . . . . . . 1396
match ip address prefix-list . . . . . . . . . . . 1397
match ipv6 address prefix-list . . . . . . . . . . 1398
show ip as-path-access-list . . . . . . . . . . . 1399
show ip community-list . . . . . . . . . . . . . . 1400
show ip prefix-list. . . . . . . . . . . . . . . . . 1401
show ipv6 prefix-list . . . . . . . . . . . . . . . 1403
clear ip prefix-list . . . . . . . . . . . . . . . . . 1405
clear ipv6 prefix-list. . . . . . . . . . . . . . . . 1406
clear ip community-list . . . . . . . . . . . . . . 1407
set as-path . . . . . . . . . . . . . . . . . . . . 1408
set comm-list delete . . . . . . . . . . . . . . . 1409
set community . . . . . . . . . . . . . . . . . . 1410
set ipv6 next-hop (BGP). . . . . . . . . . . . . . 1411
set local-preference . . . . . . . . . . . . . . . 1412
Contents 55
set metric . . . . . . . . . . . . . . . . . . . . . 1413
DVMRP Commands . . . . . . . . . . . . . . . . . . . . . . . . . .1415
Commands in this Section . . . . . . . . . . . . 1415
ip dvmrp. . . . . . . . . . . . . . . . . . . . . . 1415
ip dvmrp metric . . . . . . . . . . . . . . . . . . 1416
show ip dvmrp . . . . . . . . . . . . . . . . . . 1417
show ip dvmrp interface . . . . . . . . . . . . . 1418
show ip dvmrp neighbor . . . . . . . . . . . . . 1418
show ip dvmrp nexthop. . . . . . . . . . . . . . 1419
show ip dvmrp prune . . . . . . . . . . . . . . . 1420
show ip dvmrp route . . . . . . . . . . . . . . . 1421
IGMP Commands . . . . . . . . . . . . . . . . . . . . . . . . . . . .1422
Commands in this Section . . . . . . . . . . . . 1423
ip igmp last-member-query-count . . . . . . . . 1423
ip igmp last-member-query-interval . . . . . . . 1424
ip igmp mroute-proxy . . . . . . . . . . . . . . . 1425
ip igmp query-interval . . . . . . . . . . . . . . 1426
ip igmp query-max-response-time . . . . . . . . 1427
ip igmp robustness . . . . . . . . . . . . . . . . 1428
ip igmp startup-query-count . . . . . . . . . . . 1428
ip igmp startup-query-interval . . . . . . . . . . 1429
ip igmp version . . . . . . . . . . . . . . . . . . 1430
Contents 56
show ip igmp . . . . . . . . . . . . . . . . . . . 1431
show ip igmp groups . . . . . . . . . . . . . . . 1431
show ip igmp interface . . . . . . . . . . . . . . 1432
show ip igmp membership . . . . . . . . . . . . 1433
show ip igmp interface stats . . . . . . . . . . . 1434
IGMP Proxy Commands . . . . . . . . . . . . . . . . . . . . . . .1436
Commands in this Section . . . . . . . . . . . . 1436
ip igmp proxy-service. . . . . . . . . . . . . . . 1436
ip igmp proxy-service reset-status . . . . . . . . 1437
ip igmp proxy-service unsolicit-rprt-interval . . . 1438
show ip igmp proxy-service . . . . . . . . . . . 1439
show ip igmp proxy-service interface . . . . . . 1440
show ip igmp-proxy groups. . . . . . . . . . . . 1440
show ip igmp proxy-service groups detail . . . . 1441
IP Helper/DHCP Relay Commands . . . . . . . . . . . . .1443
Commands in this Section . . . . . . . . . . . . 1445
bootpdhcprelay maxhopcount . . . . . . . . . . 1446
bootpdhcprelay minwaittime . . . . . . . . . . . 1447
clear ip helper statistics . . . . . . . . . . . . . 1448
ip dhcp relay information check . . . . . . . . . 1448
ip dhcp relay information check-reply . . . . . . 1449
ip dhcp relay information option . . . . . . . . . 1450
Contents 57
ip dhcp relay information option-insert . . . . . 1451
ip helper-address (global configuration) . . . . . 1452
ip helper-address (interface configuration) . . . 1454
ip helper enable. . . . . . . . . . . . . . . . . . 1456
show ip helper-address . . . . . . . . . . . . . 1457
show ip dhcp relay . . . . . . . . . . . . . . . . 1458
show ip helper statistics . . . . . . . . . . . . . 1459
IP Routing Commands . . . . . . . . . . . . . . . . . . . . . . . .1462
Static Routes/ECMP Static Routes . . . . . . . . 1462
Static Reject Routes . . . . . . . . . . . . . . . 1463
Default Routes . . . . . . . . . . . . . . . . . . 1463
Commands in this Section . . . . . . . . . . . . 1463
encapsulation. . . . . . . . . . . . . . . . . . . 1464
ip icmp echo-reply . . . . . . . . . . . . . . . . 1464
ip icmp error-interval . . . . . . . . . . . . . . . 1465
ip netdirbcast . . . . . . . . . . . . . . . . . . . 1466
ip policy route-map . . . . . . . . . . . . . . . . 1467
ip redirects . . . . . . . . . . . . . . . . . . . . 1469
ip route . . . . . . . . . . . . . . . . . . . . . . 1469
ip route default . . . . . . . . . . . . . . . . . . 1474
ip route distance . . . . . . . . . . . . . . . . . 1476
Contents 58
ip routing . . . . . . . . . . . . . . . . . . . . . 1477
ip unnumbered . . . . . . . . . . . . . . . . . . 1478
ip unnumbered gratuitous-arp accept . . . . . . 1479
ip unreachables. . . . . . . . . . . . . . . . . . 1480
match ip address . . . . . . . . . . . . . . . . . 1481
match length . . . . . . . . . . . . . . . . . . . 1484
match mac-list . . . . . . . . . . . . . . . . . . 1485
route-map. . . . . . . . . . . . . . . . . . . . . 1485
set interface null0. . . . . . . . . . . . . . . . . 1487
set ip default next-hop . . . . . . . . . . . . . . 1488
set ip next-hop . . . . . . . . . . . . . . . . . . 1489
set ip precedence . . . . . . . . . . . . . . . . 1490
show ip brief . . . . . . . . . . . . . . . . . . . 1491
show ip interface . . . . . . . . . . . . . . . . . 1492
show ip policy. . . . . . . . . . . . . . . . . . . 1494
show ip protocols. . . . . . . . . . . . . . . . . 1494
show ip route . . . . . . . . . . . . . . . . . . . 1498
show ip route static. . . . . . . . . . . . . . . . 1501
show ip route preferences . . . . . . . . . . . . 1502
show ip route summary. . . . . . . . . . . . . . 1503
show ip traffic. . . . . . . . . . . . . . . . . . . 1504
Contents 59
show ip vlan . . . . . . . . . . . . . . . . . . . 1506
show route-map . . . . . . . . . . . . . . . . . 1507
show routing heap summary . . . . . . . . . . . 1509
IPv6 Routing Commands . . . . . . . . . . . . . . . . . . . . . .1511
IPv6 Limitations & Restrictions . . . . . . . . . . 1511
Commands in this Section . . . . . . . . . . . . 1511
clear ipv6 neighbors . . . . . . . . . . . . . . . 1512
clear ipv6 statistics . . . . . . . . . . . . . . . . 1513
ipv6 address . . . . . . . . . . . . . . . . . . . 1514
ipv6 enable . . . . . . . . . . . . . . . . . . . . 1515
ipv6 hop-limit . . . . . . . . . . . . . . . . . . . 1516
ipv6 host . . . . . . . . . . . . . . . . . . . . . 1516
ipv6 icmp error-interval. . . . . . . . . . . . . . 1517
ipv6 mld last-member-query-count. . . . . . . . 1518
ipv6 mld last-member-query-interval. . . . . . . 1519
ipv6 mld host-proxy . . . . . . . . . . . . . . . . 1519
ipv6 mld host-proxy reset-status . . . . . . . . . 1520
ipv6 mld host-proxy unsolicit-rprt-interval . . . . 1521
ipv6 mld query-interval . . . . . . . . . . . . . . 1521
ipv6 mld query-max-response-time . . . . . . . 1522
ipv6 nd dad attempts . . . . . . . . . . . . . . . 1523
Contents 60
ipv6 nd ra hop-limit unspecified . . . . . . . . . 1524
ipv6 nd managed-config-flag . . . . . . . . . . . 1524
ipv6 nd ns-interval . . . . . . . . . . . . . . . . 1525
ipv6 nd nud max-multicast-solicits . . . . . . . . 1526
ipv6 nd nud max-unicast-solicits . . . . . . . . . 1527
ipv6 nd nud retry . . . . . . . . . . . . . . . . . 1528
ipv6 nd other-config-flag . . . . . . . . . . . . . 1529
ipv6 nd prefix . . . . . . . . . . . . . . . . . . . 1530
ipv6 nd raguard attach-policy . . . . . . . . . . 1531
ipv6 nd ra-interval . . . . . . . . . . . . . . . . 1532
ipv6 nd ra-lifetime. . . . . . . . . . . . . . . . . 1533
ipv6 nd reachable-time . . . . . . . . . . . . . . 1534
ipv6 nd suppress-ra. . . . . . . . . . . . . . . . 1535
ipv6 route . . . . . . . . . . . . . . . . . . . . . 1535
ipv6 route distance . . . . . . . . . . . . . . . . 1537
ipv6 unicast-routing . . . . . . . . . . . . . . . 1538
ipv6 unreachables . . . . . . . . . . . . . . . . 1538
show ipv6 brief . . . . . . . . . . . . . . . . . . 1539
show ipv6 interface. . . . . . . . . . . . . . . . 1540
show ipv6 mld groups. . . . . . . . . . . . . . . 1542
show ipv6 mld interface . . . . . . . . . . . . . 1544
Contents 61
show ipv6 mld host-proxy . . . . . . . . . . . . 1547
show ipv6 mld host-proxy groups . . . . . . . . 1548
show ipv6 mld host-proxy groups detail . . . . . 1549
show ipv6 mld host-proxy interface . . . . . . . 1551
show ipv6 mld traffic . . . . . . . . . . . . . . . 1552
show ipv6 nd raguard policy . . . . . . . . . . . 1553
show ipv6 neighbors . . . . . . . . . . . . . . . 1555
show ipv6 protocols . . . . . . . . . . . . . . . 1555
show ipv6 route . . . . . . . . . . . . . . . . . . 1557
show ipv6 route preferences . . . . . . . . . . . 1558
show ipv6 route summary . . . . . . . . . . . . 1559
show ipv6 snooping counters . . . . . . . . . . 1560
show ipv6 traffic . . . . . . . . . . . . . . . . . 1561
show ipv6 vlan . . . . . . . . . . . . . . . . . . 1562
traceroute ipv6 . . . . . . . . . . . . . . . . . . 1563
Loopback Interface Commands . . . . . . . . . . . . . . . .1565
Commands in this Section . . . . . . . . . . . . 1565
interface loopback . . . . . . . . . . . . . . . . 1565
show interfaces loopback . . . . . . . . . . . . 1566
IP Multicast Commands . . . . . . . . . . . . . . . . . . . . . .1568
Commands in this Section . . . . . . . . . . . . 1569
clear ip mroute . . . . . . . . . . . . . . . . . . 1569
Contents 62
ip multicast boundary. . . . . . . . . . . . . . . 1571
ip mroute . . . . . . . . . . . . . . . . . . . . . 1571
ip multicast-routing . . . . . . . . . . . . . . . . 1572
ip multicast ttl-threshold . . . . . . . . . . . . . 1574
ip pim . . . . . . . . . . . . . . . . . . . . . . . 1574
ip pim bsr-border . . . . . . . . . . . . . . . . . 1575
ip pim bsr-candidate . . . . . . . . . . . . . . . 1576
ip pim dense-mode . . . . . . . . . . . . . . . . 1577
ip pim dr-priority . . . . . . . . . . . . . . . . . 1578
ip pim hello-interval. . . . . . . . . . . . . . . . 1578
ip pim join-prune-interval. . . . . . . . . . . . . 1579
ip pim rp-address . . . . . . . . . . . . . . . . . 1580
ip pim rp-candidate . . . . . . . . . . . . . . . . 1581
ip pim sparse-mode. . . . . . . . . . . . . . . . 1581
ip pim ssm. . . . . . . . . . . . . . . . . . . . . 1582
show ip mfc . . . . . . . . . . . . . . . . . . . . 1583
show ip multicast . . . . . . . . . . . . . . . . . 1584
show ip pim boundary . . . . . . . . . . . . . . 1585
show ip multicast interface. . . . . . . . . . . . 1586
show ip mroute . . . . . . . . . . . . . . . . . . 1587
show ip mroute group . . . . . . . . . . . . . . 1587
Contents 63
show ip mroute source . . . . . . . . . . . . . . 1588
show ip mroute static. . . . . . . . . . . . . . . 1589
show ip pim . . . . . . . . . . . . . . . . . . . . 1590
show ip pim bsr-router . . . . . . . . . . . . . . 1590
show ip pim interface. . . . . . . . . . . . . . . 1592
show ip pim neighbor. . . . . . . . . . . . . . . 1593
show ip pim rp-hash . . . . . . . . . . . . . . . 1594
show ip pim rp mapping . . . . . . . . . . . . . 1595
show ip pim statistics. . . . . . . . . . . . . . . 1596
IPv6 Multicast Commands . . . . . . . . . . . . . . . . . . . .1599
clear ipv6 mroute . . . . . . . . . . . . . . . . . 1599
ipv6 pim (VLAN Interface config) . . . . . . . . . 1600
ipv6 pim bsr-border . . . . . . . . . . . . . . . . 1601
ipv6 pim bsr-candidate . . . . . . . . . . . . . . 1602
ipv6 pim dense-mode . . . . . . . . . . . . . . . 1603
ipv6 pim dr-priority . . . . . . . . . . . . . . . . 1603
ipv6 pim hello-interval . . . . . . . . . . . . . . 1604
ipv6 pim join-prune-interval . . . . . . . . . . . 1605
ipv6 pim register-threshold . . . . . . . . . . . . 1605
ipv6 pim rp-address. . . . . . . . . . . . . . . . 1606
ipv6 pim rp-candidate. . . . . . . . . . . . . . . 1607
Contents 64
ipv6 pim sparse-mode . . . . . . . . . . . . . . 1608
ipv6 pim ssm . . . . . . . . . . . . . . . . . . . 1609
show ipv6 pim. . . . . . . . . . . . . . . . . . . 1609
show ipv6 pim bsr-router . . . . . . . . . . . . . 1610
show ipv6 mroute group . . . . . . . . . . . . . 1614
show ipv6 mroute source. . . . . . . . . . . . . 1615
show ipv6 pim interface . . . . . . . . . . . . . 1616
show ipv6 pim neighbor . . . . . . . . . . . . . 1617
show ipv6 pim rp-hash . . . . . . . . . . . . . . 1618
show ipv6 pim rp mapping . . . . . . . . . . . . 1618
show ipv6 pim statistics . . . . . . . . . . . . . 1619
OSPF Commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1622
Route Preferences . . . . . . . . . . . . . . . . 1623
OSPF Equal Cost Multipath (ECMP) . . . . . . . 1623
Forwarding of OSPF Opaque LSAs Enabled by Default 1624
Passive Interfaces . . . . . . . . . . . . . . . . 1624
Graceful Restart . . . . . . . . . . . . . . . . . 1625
Commands in this Section . . . . . . . . . . . . 1625
area default-cost (Router OSPF) . . . . . . . . . 1626
area nssa (Router OSPF) . . . . . . . . . . . . . 1627
area nssa default-info-originate (Router OSPF Config) 1629
Contents 65
area nssa no-redistribute. . . . . . . . . . . . . 1630
area nssa no-summary . . . . . . . . . . . . . . 1630
area nssa translator-role . . . . . . . . . . . . . 1631
area nssa translator-stab-intv . . . . . . . . . . 1632
area range (Router OSPF) . . . . . . . . . . . . 1633
area stub . . . . . . . . . . . . . . . . . . . . . 1635
area stub no-summary . . . . . . . . . . . . . . 1636
area virtual-link . . . . . . . . . . . . . . . . . . 1637
area virtual-link authentication. . . . . . . . . . 1639
area virtual-link dead-interval . . . . . . . . . . 1641
area virtual-link hello-interval . . . . . . . . . . 1642
area virtual-link retransmit-interval . . . . . . . 1643
area virtual-link transmit-delay. . . . . . . . . . 1644
auto-cost . . . . . . . . . . . . . . . . . . . . . 1644
bandwidth. . . . . . . . . . . . . . . . . . . . . 1645
bfd. . . . . . . . . . . . . . . . . . . . . . . . . 1646
capability opaque. . . . . . . . . . . . . . . . . 1647
clear ip ospf. . . . . . . . . . . . . . . . . . . . 1648
clear ip ospf stub-router . . . . . . . . . . . . . 1649
compatible rfc1583 . . . . . . . . . . . . . . . . 1650
default-information originate (Router OSPF Configuration) 1650
Contents 66
default-metric. . . . . . . . . . . . . . . . . . . 1652
distance ospf . . . . . . . . . . . . . . . . . . . 1652
distribute-list out . . . . . . . . . . . . . . . . . 1653
enable. . . . . . . . . . . . . . . . . . . . . . . 1654
exit-overflow-interval. . . . . . . . . . . . . . . 1655
external-lsdb-limit . . . . . . . . . . . . . . . . 1656
ip ospf area . . . . . . . . . . . . . . . . . . . . 1657
ip ospf authentication . . . . . . . . . . . . . . 1658
ip ospf cost . . . . . . . . . . . . . . . . . . . . 1659
ip ospf database-filter all out . . . . . . . . . . . 1659
ip ospf dead-interval . . . . . . . . . . . . . . . 1660
ip ospf hello-interval . . . . . . . . . . . . . . . 1661
ip ospf mtu-ignore . . . . . . . . . . . . . . . . 1661
ip ospf network . . . . . . . . . . . . . . . . . . 1662
ip ospf priority. . . . . . . . . . . . . . . . . . . 1663
ip ospf retransmit-interval . . . . . . . . . . . . 1664
ip ospf transmit-delay. . . . . . . . . . . . . . . 1665
log adjacency-changes. . . . . . . . . . . . . . 1665
max-metric router-lsa . . . . . . . . . . . . . . 1666
maximum-paths. . . . . . . . . . . . . . . . . . 1668
network area . . . . . . . . . . . . . . . . . . . 1669
Contents 67
nsf. . . . . . . . . . . . . . . . . . . . . . . . . 1670
nsf helper . . . . . . . . . . . . . . . . . . . . . 1671
nsf helper strict-lsa-checking . . . . . . . . . . 1672
nsf restart-interval . . . . . . . . . . . . . . . . 1672
passive-interface default . . . . . . . . . . . . . 1673
passive-interface . . . . . . . . . . . . . . . . . 1674
redistribute (OSPF) . . . . . . . . . . . . . . . . 1675
router-id. . . . . . . . . . . . . . . . . . . . . . 1676
router ospf . . . . . . . . . . . . . . . . . . . . 1677
show ip ospf . . . . . . . . . . . . . . . . . . . 1678
show ip ospf abr . . . . . . . . . . . . . . . . . 1685
show ip ospf area. . . . . . . . . . . . . . . . . 1685
show ip ospf asbr . . . . . . . . . . . . . . . . . 1687
show ip ospf database . . . . . . . . . . . . . . 1688
show ip ospf database database-summary . . . 1691
show ip ospf interface . . . . . . . . . . . . . . 1693
show ip ospf interface brief . . . . . . . . . . . 1695
show ip ospf interface stats . . . . . . . . . . . 1696
show ip ospf lsa-group . . . . . . . . . . . . . . 1697
show ip ospf neighbor . . . . . . . . . . . . . . 1698
show ip ospf range . . . . . . . . . . . . . . . . 1702
Contents 68
show ip ospf statistics . . . . . . . . . . . . . . 1703
show ip ospf stub table . . . . . . . . . . . . . . 1705
show ip ospf traffic . . . . . . . . . . . . . . . . 1706
show ip ospf virtual-links . . . . . . . . . . . . . 1708
show ip ospf virtual-links brief . . . . . . . . . . 1709
timers pacing flood . . . . . . . . . . . . . . . . 1710
timers pacing lsa-group . . . . . . . . . . . . . 1711
timers spf . . . . . . . . . . . . . . . . . . . . . 1712
OSPFv3 Commands . . . . . . . . . . . . . . . . . . . . . . . . . . .1713
area default-cost (Router OSPFv3) . . . . . . . . 1714
area nssa (Router OSPFv3) . . . . . . . . . . . . 1715
area nssa default-info-originate (Router OSPFv3 Config) 1716
area nssa no-redistribute. . . . . . . . . . . . . 1717
area nssa no-summary . . . . . . . . . . . . . . 1718
area nssa translator-role . . . . . . . . . . . . . 1719
area nssa translator-stab-intv . . . . . . . . . . 1720
area range (Router OSPFv3) . . . . . . . . . . . 1721
area stub . . . . . . . . . . . . . . . . . . . . . 1722
area stub no-summary . . . . . . . . . . . . . . 1723
area virtual-link . . . . . . . . . . . . . . . . . . 1723
area virtual-link dead-interval . . . . . . . . . . 1725
Contents 69
area virtual-link hello-interval . . . . . . . . . . 1726
area virtual-link retransmit-interval . . . . . . . 1727
area virtual-link transmit-delay. . . . . . . . . . 1728
default-information originate (Router OSPFv3 Configuration)
1728
default-metric. . . . . . . . . . . . . . . . . . . 1729
distance ospf . . . . . . . . . . . . . . . . . . . 1730
enable. . . . . . . . . . . . . . . . . . . . . . . 1731
exit-overflow-interval. . . . . . . . . . . . . . . 1732
external-lsdb-limit . . . . . . . . . . . . . . . . 1733
ipv6 ospf . . . . . . . . . . . . . . . . . . . . . 1733
ipv6 ospf area. . . . . . . . . . . . . . . . . . . 1734
ipv6 ospf cost . . . . . . . . . . . . . . . . . . . 1735
ipv6 ospf dead-interval . . . . . . . . . . . . . . 1736
ipv6 ospf hello-interval . . . . . . . . . . . . . . 1736
ipv6 ospf mtu-ignore . . . . . . . . . . . . . . . 1737
ipv6 ospf network . . . . . . . . . . . . . . . . . 1738
ipv6 ospf priority . . . . . . . . . . . . . . . . . 1739
ipv6 ospf retransmit-interval . . . . . . . . . . . 1740
ipv6 ospf transmit-delay . . . . . . . . . . . . . 1741
ipv6 router ospf . . . . . . . . . . . . . . . . . . 1741
maximum-paths. . . . . . . . . . . . . . . . . . 1742
Contents 70
nsf. . . . . . . . . . . . . . . . . . . . . . . . . 1743
nsf helper . . . . . . . . . . . . . . . . . . . . . 1744
nsf helper strict-lsa-checking . . . . . . . . . . 1745
nsf restart-interval . . . . . . . . . . . . . . . . 1745
passive-interface . . . . . . . . . . . . . . . . . 1746
passive-interface default . . . . . . . . . . . . . 1747
redistribute (OSPFv3) . . . . . . . . . . . . . . . 1748
router-id. . . . . . . . . . . . . . . . . . . . . . 1749
show ipv6 ospf . . . . . . . . . . . . . . . . . . 1749
show ipv6 ospf abr . . . . . . . . . . . . . . . . 1753
show ipv6 ospf area . . . . . . . . . . . . . . . 1754
show ipv6 ospf asbr . . . . . . . . . . . . . . . 1755
show ipv6 ospf border-routers . . . . . . . . . . 1755
show ipv6 ospf database . . . . . . . . . . . . . 1756
show ipv6 ospf database database-summary . . 1758
show ipv6 ospf interface . . . . . . . . . . . . . 1759
show ipv6 ospf interface brief . . . . . . . . . . 1760
show ipv6 ospf interface stats . . . . . . . . . . 1761
show ipv6 ospf interface vlan . . . . . . . . . . 1762
show ipv6 ospf neighbor . . . . . . . . . . . . . 1763
show ipv6 ospf range . . . . . . . . . . . . . . . 1764
Contents 71
show ipv6 ospf stub table. . . . . . . . . . . . . 1765
show ipv6 ospf virtual-links. . . . . . . . . . . . 1766
show ipv6 ospf virtual-link brief . . . . . . . . . 1767
Router Discovery Protocol Commands . . . . . . . . . .1768
Commands in this Section . . . . . . . . . . . . 1768
ip irdp . . . . . . . . . . . . . . . . . . . . . . . 1768
ip irdp holdtime . . . . . . . . . . . . . . . . . . 1770
ip irdp maxadvertinterval . . . . . . . . . . . . . 1771
ip irdp minadvertinterval . . . . . . . . . . . . . 1772
ip irdp multicast. . . . . . . . . . . . . . . . . . 1773
ip irdp preference. . . . . . . . . . . . . . . . . 1773
show ip irdp. . . . . . . . . . . . . . . . . . . . 1774
Routing Information Protocol Commands . . . . . . .1776
Commands in this Section . . . . . . . . . . . . 1776
auto-summary . . . . . . . . . . . . . . . . . . 1776
default-information originate (Router RIP Configuration) 1777
default-metric. . . . . . . . . . . . . . . . . . . 1778
distance rip . . . . . . . . . . . . . . . . . . . . 1779
distribute-list out . . . . . . . . . . . . . . . . . 1779
enable. . . . . . . . . . . . . . . . . . . . . . . 1780
hostroutesaccept . . . . . . . . . . . . . . . . . 1781
ip rip. . . . . . . . . . . . . . . . . . . . . . . . 1782
Contents 72
ip rip authentication . . . . . . . . . . . . . . . 1782
ip rip receive version . . . . . . . . . . . . . . . 1783
ip rip send version . . . . . . . . . . . . . . . . 1784
redistribute (RIP) . . . . . . . . . . . . . . . . . 1785
router rip . . . . . . . . . . . . . . . . . . . . . 1786
show ip rip . . . . . . . . . . . . . . . . . . . . 1787
show ip rip interface . . . . . . . . . . . . . . . 1788
show ip rip interface brief . . . . . . . . . . . . 1789
split-horizon. . . . . . . . . . . . . . . . . . . . 1790
Tunnel Interface Commands . . . . . . . . . . . . . . . . . .1791
Commands in this Section . . . . . . . . . . . . 1791
interface tunnel . . . . . . . . . . . . . . . . . . 1791
show interfaces tunnel . . . . . . . . . . . . . . 1792
tunnel destination. . . . . . . . . . . . . . . . . 1793
tunnel mode ipv6ip . . . . . . . . . . . . . . . . 1794
tunnel source . . . . . . . . . . . . . . . . . . . 1794
Virtual Router Commands . . . . . . . . . . . . . . . . . . . . .1796
Commands in this Section . . . . . . . . . . . . 1797
description . . . . . . . . . . . . . . . . . . . . 1798
ip vrf. . . . . . . . . . . . . . . . . . . . . . . . 1799
ip vrf forwarding . . . . . . . . . . . . . . . . . 1800
maximum routes . . . . . . . . . . . . . . . . . 1801
Contents 73
show ip vrf . . . . . . . . . . . . . . . . . . . . 1802
Virtual Router Redundancy Protocol Commands .1805
Pingable VRRP Interface . . . . . . . . . . . . . 1805
VRRP Route/Interface Tracking . . . . . . . . . 1806
Interface Tracking . . . . . . . . . . . . . . . . 1807
Route Tracking . . . . . . . . . . . . . . . . . . 1807
Commands in this Section . . . . . . . . . . . . 1807
ip vrrp . . . . . . . . . . . . . . . . . . . . . . . 1808
vrrp accept-mode. . . . . . . . . . . . . . . . . 1808
vrrp authentication . . . . . . . . . . . . . . . . 1809
vrrp description . . . . . . . . . . . . . . . . . . 1810
vrrp ip . . . . . . . . . . . . . . . . . . . . . . . 1811
vrrp mode . . . . . . . . . . . . . . . . . . . . . 1812
vrrp preempt . . . . . . . . . . . . . . . . . . . 1813
vrrp priority . . . . . . . . . . . . . . . . . . . . 1814
vrrp timers advertise . . . . . . . . . . . . . . . 1814
vrrp timers learn . . . . . . . . . . . . . . . . . 1815
vrrp track interface . . . . . . . . . . . . . . . . 1816
vrrp track ip route. . . . . . . . . . . . . . . . . 1817
show vrrp . . . . . . . . . . . . . . . . . . . . . 1818
show vrrp interface. . . . . . . . . . . . . . . . 1820
Contents 74
8 Switch Management Commands . . . . . 1823
Application Deployment . . . . . . . . . . . . . . . . . . . . . .1824
Commands in this Section . . . . . . . . . . . . 1824
application install . . . . . . . . . . . . . . . . . 1824
application start . . . . . . . . . . . . . . . . . 1825
application stop. . . . . . . . . . . . . . . . . . 1826
show application . . . . . . . . . . . . . . . . . 1827
Auto-Install Commands . . . . . . . . . . . . . . . . . . . . . . .1829
Commands in this Section . . . . . . . . . . . . 1830
boot auto-copy-sw . . . . . . . . . . . . . . . . 1830
boot auto-copy-sw allow-downgrade . . . . . . 1831
boot host auto-reboot . . . . . . . . . . . . . . 1832
boot host auto-save . . . . . . . . . . . . . . . 1832
boot host dhcp . . . . . . . . . . . . . . . . . . 1833
boot host retry-count . . . . . . . . . . . . . . . 1834
show auto-copy-sw . . . . . . . . . . . . . . . 1835
show boot. . . . . . . . . . . . . . . . . . . . . 1835
CLI Macro Commands . . . . . . . . . . . . . . . . . . . . . . . .1837
Commands in this Section . . . . . . . . . . . . 1838
macro name . . . . . . . . . . . . . . . . . . . 1838
macro global apply . . . . . . . . . . . . . . . . 1840
macro global trace . . . . . . . . . . . . . . . . 1840
Contents 75
macro global description . . . . . . . . . . . . . 1841
macro apply. . . . . . . . . . . . . . . . . . . . 1842
macro trace. . . . . . . . . . . . . . . . . . . . 1842
macro description . . . . . . . . . . . . . . . . 1843
show parser macro . . . . . . . . . . . . . . . . 1844
Clock Commands . . . . . . . . . . . . . . . . . . . . . . . . . . . .1845
Real-time Clock . . . . . . . . . . . . . . . . . . 1845
Simple Network Time Protocol . . . . . . . . . . 1845
Commands in this Section . . . . . . . . . . . . 1846
show sntp configuration . . . . . . . . . . . . . 1846
show sntp server . . . . . . . . . . . . . . . . . 1847
show sntp status . . . . . . . . . . . . . . . . . 1848
sntp authenticate . . . . . . . . . . . . . . . . . 1849
sntp authentication-key . . . . . . . . . . . . . 1850
sntp broadcast client enable . . . . . . . . . . . 1851
sntp client poll timer . . . . . . . . . . . . . . . 1851
sntp server . . . . . . . . . . . . . . . . . . . . 1852
sntp source-interface . . . . . . . . . . . . . . 1853
sntp trusted-key . . . . . . . . . . . . . . . . . 1854
sntp unicast client enable . . . . . . . . . . . . 1855
clock set . . . . . . . . . . . . . . . . . . . . . 1856
Contents 76
clock timezone hours-offset . . . . . . . . . . . 1856
no clock timezone . . . . . . . . . . . . . . . . 1857
clock summer-time recurring . . . . . . . . . . 1858
clock summer-time date . . . . . . . . . . . . . 1859
no clock summer-time . . . . . . . . . . . . . . 1860
show clock . . . . . . . . . . . . . . . . . . . . 1860
Command Line Configuration Scripting Commands 1862
Commands in this Section . . . . . . . . . . . . 1862
script apply . . . . . . . . . . . . . . . . . . . . 1862
script delete . . . . . . . . . . . . . . . . . . . 1863
script list . . . . . . . . . . . . . . . . . . . . . 1864
script show . . . . . . . . . . . . . . . . . . . . 1864
script validate. . . . . . . . . . . . . . . . . . . 1865
Configuration and Image File Commands . . . . . . .1867
File System Commands . . . . . . . . . . . . . . 1867
Command Line Interface Scripting . . . . . . . . 1867
Commands in this Section . . . . . . . . . . . . 1867
boot system . . . . . . . . . . . . . . . . . . . . 1868
clear config . . . . . . . . . . . . . . . . . . . . 1869
copy. . . . . . . . . . . . . . . . . . . . . . . . 1869
delete . . . . . . . . . . . . . . . . . . . . . . . 1879
dir . . . . . . . . . . . . . . . . . . . . . . . . . 1879
Contents 77
erase . . . . . . . . . . . . . . . . . . . . . . . 1880
filedescr. . . . . . . . . . . . . . . . . . . . . . 1881
rename . . . . . . . . . . . . . . . . . . . . . . 1882
show backup-config . . . . . . . . . . . . . . . 1883
show bootvar . . . . . . . . . . . . . . . . . . . 1884
show running-config . . . . . . . . . . . . . . . 1885
show startup-config . . . . . . . . . . . . . . . 1886
write. . . . . . . . . . . . . . . . . . . . . . . . 1887
DHCP Client Commands . . . . . . . . . . . . . . . . . . . . . .1889
Commands in this Section . . . . . . . . . . . . 1889
release dhcp . . . . . . . . . . . . . . . . . . . 1890
renew dhcp . . . . . . . . . . . . . . . . . . . . 1890
show dhcp lease . . . . . . . . . . . . . . . . . 1892
DHCP Server Commands . . . . . . . . . . . . . . . . . . . . . .1894
Commands in this Section . . . . . . . . . . . . 1895
ip dhcp pool. . . . . . . . . . . . . . . . . . . . 1895
bootfile . . . . . . . . . . . . . . . . . . . . . . 1898
clear ip dhcp binding . . . . . . . . . . . . . . . 1898
clear ip dhcp conflict . . . . . . . . . . . . . . . 1899
client-identifier . . . . . . . . . . . . . . . . . . 1900
client-name . . . . . . . . . . . . . . . . . . . . 1900
default-router . . . . . . . . . . . . . . . . . . . 1901
Contents 78
dns-server (IP DHCP Pool Config) . . . . . . . . 1902
domain-name (IP DHCP Pool Config) . . . . . . . 1903
hardware-address . . . . . . . . . . . . . . . . 1903
host . . . . . . . . . . . . . . . . . . . . . . . . 1904
ip dhcp bootp automatic . . . . . . . . . . . . . 1905
ip dhcp conflict logging . . . . . . . . . . . . . . 1906
ip dhcp excluded-address . . . . . . . . . . . . 1906
ip dhcp ping packets . . . . . . . . . . . . . . . 1907
lease . . . . . . . . . . . . . . . . . . . . . . . 1908
netbios-name-server . . . . . . . . . . . . . . . 1909
netbios-node-type . . . . . . . . . . . . . . . . 1910
network . . . . . . . . . . . . . . . . . . . . . . 1911
next-server . . . . . . . . . . . . . . . . . . . . 1911
option . . . . . . . . . . . . . . . . . . . . . . . 1912
service dhcp . . . . . . . . . . . . . . . . . . . 1917
sntp . . . . . . . . . . . . . . . . . . . . . . . . 1917
show ip dhcp binding . . . . . . . . . . . . . . . 1918
show ip dhcp conflict . . . . . . . . . . . . . . . 1919
show ip dhcp global configuration . . . . . . . . 1919
show ip dhcp pool. . . . . . . . . . . . . . . . . 1920
show ip dhcp server statistics . . . . . . . . . . 1920
Contents 79
DHCPv6 Server Commands . . . . . . . . . . . . . . . . . . . .1922
clear ipv6 dhcp . . . . . . . . . . . . . . . . . . 1922
dns-server (IPv6 DHCP Pool Config) . . . . . . . 1923
domain-name (IPv6 DHCP Pool Config) . . . . . 1923
ipv6 dhcp pool . . . . . . . . . . . . . . . . . . 1924
ipv6 dhcp relay . . . . . . . . . . . . . . . . . . 1925
ipv6 dhcp server . . . . . . . . . . . . . . . . . 1926
prefix-delegation . . . . . . . . . . . . . . . . . 1928
service dhcpv6 . . . . . . . . . . . . . . . . . . 1929
show ipv6 dhcp . . . . . . . . . . . . . . . . . . 1930
show ipv6 dhcp binding. . . . . . . . . . . . . . 1930
show ipv6 dhcp interface (User Exec) . . . . . . 1931
show ipv6 dhcp interface (Privileged Exec) . . . 1932
show ipv6 dhcp pool . . . . . . . . . . . . . . . 1935
show ipv6 dhcp statistics. . . . . . . . . . . . . 1936
HiveAgent Commands . . . . . . . . . . . . . . . . . . . . . . . .1938
Commands in this Section . . . . . . . . . . . . 1938
eula-consent . . . . . . . . . . . . . . . . . . . 1938
hiveagent . . . . . . . . . . . . . . . . . . . . . 1939
server . . . . . . . . . . . . . . . . . . . . . . . 1940
enable. . . . . . . . . . . . . . . . . . . . . . . 1941
proxy-ip-address . . . . . . . . . . . . . . . . . 1942
Contents 80
url . . . . . . . . . . . . . . . . . . . . . . . . . 1943
show hiveagent status . . . . . . . . . . . . . . 1944
show eula-consent hiveagent . . . . . . . . . . 1945
IP Addressing Commands . . . . . . . . . . . . . . . . . . . . .1947
Commands in this Section . . . . . . . . . . . . 1947
clear host . . . . . . . . . . . . . . . . . . . . . 1948
clear ip address-conflict-detect . . . . . . . . . 1948
interface out-of-band. . . . . . . . . . . . . . . 1949
ip address. . . . . . . . . . . . . . . . . . . . . 1950
ip address (Out-of-Band) . . . . . . . . . . . . . 1951
ip address-conflict-detect run . . . . . . . . . . 1952
ip address dhcp (Interface Configuration) . . . . 1953
ip default-gateway . . . . . . . . . . . . . . . . 1954
ip domain-lookup . . . . . . . . . . . . . . . . . 1956
ip domain-name. . . . . . . . . . . . . . . . . . 1956
ip host. . . . . . . . . . . . . . . . . . . . . . . 1957
ip name-server . . . . . . . . . . . . . . . . . . 1958
ip name-server source-interface. . . . . . . . . 1959
ipv6 address (Interface Configuration) . . . . . . 1960
ipv6 address (OOB Port) . . . . . . . . . . . . . 1962
ipv6 address dhcp . . . . . . . . . . . . . . . . 1963
Contents 81
ipv6 enable (Interface Configuration) . . . . . . 1964
ipv6 enable (OOB Configuration) . . . . . . . . . 1965
ipv6 gateway (OOB Configuration) . . . . . . . . 1965
show hosts . . . . . . . . . . . . . . . . . . . . 1966
show ip address-conflict . . . . . . . . . . . . . 1967
show ip helper-address . . . . . . . . . . . . . 1968
show ipv6 dhcp interface out-of-band statistics. 1969
show ipv6 interface out-of-band . . . . . . . . . 1970
Line Commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1972
accounting . . . . . . . . . . . . . . . . . . . . 1972
authorization . . . . . . . . . . . . . . . . . . . 1973
enable authentication . . . . . . . . . . . . . . 1974
exec-banner . . . . . . . . . . . . . . . . . . . 1975
exec-timeout . . . . . . . . . . . . . . . . . . . 1976
history. . . . . . . . . . . . . . . . . . . . . . . 1977
history size . . . . . . . . . . . . . . . . . . . . 1977
line . . . . . . . . . . . . . . . . . . . . . . . . 1978
login authentication . . . . . . . . . . . . . . . 1979
login-banner . . . . . . . . . . . . . . . . . . . 1980
motd-banner . . . . . . . . . . . . . . . . . . . 1981
password (Line Configuration) . . . . . . . . . . 1981
Contents 82
show line . . . . . . . . . . . . . . . . . . . . . 1982
speed . . . . . . . . . . . . . . . . . . . . . . . 1983
terminal length . . . . . . . . . . . . . . . . . . 1984
PHY Diagnostics Commands . . . . . . . . . . . . . . . . . .1986
show copper-ports tdr . . . . . . . . . . . . . . 1986
show fiber-ports optical-transceiver. . . . . . . 1987
test copper-port tdr. . . . . . . . . . . . . . . . 1988
Power Over Ethernet Commands . . . . . . . . . . . . . . .1990
Flexible Power Management . . . . . . . . . . . 1990
Commands in this Section . . . . . . . . . . . . 1991
power inline. . . . . . . . . . . . . . . . . . . . 1991
power inline detection . . . . . . . . . . . . . . 1992
power inline four-pair forced. . . . . . . . . . . 1993
power inline limit . . . . . . . . . . . . . . . . . 1994
power inline management . . . . . . . . . . . . 1997
power inline powered-device . . . . . . . . . . 1998
power inline priority . . . . . . . . . . . . . . . 1999
power inline reset . . . . . . . . . . . . . . . . 2000
power inline usage-threshold . . . . . . . . . . 2000
clear power inline statistics . . . . . . . . . . . 2001
show power inline . . . . . . . . . . . . . . . . 2002
show power inline firmware-version. . . . . . . 2004
Contents 83
RMON Commands . . . . . . . . . . . . . . . . . . . . . . . . . . .2005
Commands in this Section . . . . . . . . . . . . 2005
rmon alarm . . . . . . . . . . . . . . . . . . . . 2005
rmon collection history . . . . . . . . . . . . . . 2007
rmon event . . . . . . . . . . . . . . . . . . . . 2008
rmon hcalarm . . . . . . . . . . . . . . . . . . . 2009
show rmon alarm . . . . . . . . . . . . . . . . . 2011
show rmon alarms . . . . . . . . . . . . . . . . 2013
show rmon collection history. . . . . . . . . . . 2014
show rmon events . . . . . . . . . . . . . . . . 2015
show rmon hcalarm . . . . . . . . . . . . . . . 2016
show rmon history . . . . . . . . . . . . . . . . 2017
show rmon log . . . . . . . . . . . . . . . . . . 2020
show rmon statistics . . . . . . . . . . . . . . . 2021
Serviceability Commands . . . . . . . . . . . . . . . . . . . . .2025
Commands in this Section . . . . . . . . . . . . 2025
debug aaa accounting . . . . . . . . . . . . . . 2026
debug arp . . . . . . . . . . . . . . . . . . . . . 2027
debug authentication interface. . . . . . . . . . 2028
debug auto-voip . . . . . . . . . . . . . . . . . 2029
debug bfd . . . . . . . . . . . . . . . . . . . . . 2029
debug cfm. . . . . . . . . . . . . . . . . . . . . 2030
Contents 84
debug clear . . . . . . . . . . . . . . . . . . . . 2031
debug console . . . . . . . . . . . . . . . . . . 2032
debug crashlog . . . . . . . . . . . . . . . . . . 2032
debug dhcp packet . . . . . . . . . . . . . . . . 2035
debug dhcp server packet . . . . . . . . . . . . 2036
debug dot1ag . . . . . . . . . . . . . . . . . . . 2037
debug dot1x. . . . . . . . . . . . . . . . . . . . 2038
debug igmpsnooping . . . . . . . . . . . . . . . 2039
debug ip acl. . . . . . . . . . . . . . . . . . . . 2040
debug ip bgp . . . . . . . . . . . . . . . . . . . 2040
debug ip dvmrp . . . . . . . . . . . . . . . . . . 2042
debug ip igmp. . . . . . . . . . . . . . . . . . . 2043
debug ip mcache . . . . . . . . . . . . . . . . . 2044
debug ip pimdm packet. . . . . . . . . . . . . . 2044
debug ip pimsm packet . . . . . . . . . . . . . . 2045
debug ipv6 dhcp . . . . . . . . . . . . . . . . . 2046
debug ipv6 mcache . . . . . . . . . . . . . . . . 2047
debug ipv6 mld . . . . . . . . . . . . . . . . . . 2047
debug ipv6 pimdm . . . . . . . . . . . . . . . . 2048
debug ipv6 pimsm. . . . . . . . . . . . . . . . . 2049
debug isdp . . . . . . . . . . . . . . . . . . . . 2050
Contents 85
debug lacp . . . . . . . . . . . . . . . . . . . . 2051
debug mldsnooping. . . . . . . . . . . . . . . . 2051
debug ospf . . . . . . . . . . . . . . . . . . . . 2052
debug ospfv3 . . . . . . . . . . . . . . . . . . . 2053
debug ping . . . . . . . . . . . . . . . . . . . . 2054
debug rip . . . . . . . . . . . . . . . . . . . . . 2055
debug sflow. . . . . . . . . . . . . . . . . . . . 2055
debug spanning-tree . . . . . . . . . . . . . . . 2056
debug udld . . . . . . . . . . . . . . . . . . . . 2057
debug vpc . . . . . . . . . . . . . . . . . . . . 2058
debug vrrp . . . . . . . . . . . . . . . . . . . . 2059
exception core-file . . . . . . . . . . . . . . . . 2059
exception dump. . . . . . . . . . . . . . . . . . 2060
exception protocol . . . . . . . . . . . . . . . . 2062
exception switch-chip-register . . . . . . . . . 2065
ip http timeout-policy . . . . . . . . . . . . . . . 2065
show debugging . . . . . . . . . . . . . . . . . 2066
show supported mibs. . . . . . . . . . . . . . . 2069
snapshot bgp . . . . . . . . . . . . . . . . . . . 2074
write core . . . . . . . . . . . . . . . . . . . . . 2075
Sflow Commands . . . . . . . . . . . . . . . . . . . . . . . . . . . .2077
Contents 86
Commands in this Section . . . . . . . . . . . . 2077
sflow destination . . . . . . . . . . . . . . . . . 2077
sflow polling . . . . . . . . . . . . . . . . . . . 2079
sflow polling (Interface Mode) . . . . . . . . . . 2080
sflow sampling . . . . . . . . . . . . . . . . . . 2081
sflow sampling (Interface Mode). . . . . . . . . 2082
sflow source-interface . . . . . . . . . . . . . . 2083
show sflow agent . . . . . . . . . . . . . . . . . 2084
show sflow destination . . . . . . . . . . . . . . 2085
show sflow polling . . . . . . . . . . . . . . . . 2086
show sflow sampling . . . . . . . . . . . . . . . 2087
show sflow source-interface. . . . . . . . . . . 2088
SNMP Commands . . . . . . . . . . . . . . . . . . . . . . . . . . . .2090
Commands in this Section . . . . . . . . . . . . 2090
show snmp . . . . . . . . . . . . . . . . . . . . 2090
show snmp engineid . . . . . . . . . . . . . . . 2092
show snmp filters . . . . . . . . . . . . . . . . . 2092
show snmp group. . . . . . . . . . . . . . . . . 2093
show snmp user . . . . . . . . . . . . . . . . . 2095
show snmp views. . . . . . . . . . . . . . . . . 2096
show trapflags . . . . . . . . . . . . . . . . . . 2097
Contents 87
snmp-server community . . . . . . . . . . . . . 2098
snmp-server community-group. . . . . . . . . . 2100
snmp-server contact . . . . . . . . . . . . . . . 2101
snmp-server enable traps . . . . . . . . . . . . 2102
snmp-server engineID local . . . . . . . . . . . 2105
snmp-server filter. . . . . . . . . . . . . . . . . 2106
snmp-server group . . . . . . . . . . . . . . . . 2108
snmp-server host . . . . . . . . . . . . . . . . . 2109
snmp-server location . . . . . . . . . . . . . . . 2111
snmp-server user . . . . . . . . . . . . . . . . . 2111
snmp-server view. . . . . . . . . . . . . . . . . 2114
snmp-server v3-host . . . . . . . . . . . . . . . 2115
snmp-server source-interface . . . . . . . . . . 2117
SupportAssist Commands . . . . . . . . . . . . . . . . . . . . .2119
Commands in this Section . . . . . . . . . . . . 2119
eula-consent . . . . . . . . . . . . . . . . . . . 2119
contact-company . . . . . . . . . . . . . . . . . 2121
contact-person . . . . . . . . . . . . . . . . . . 2122
enable. . . . . . . . . . . . . . . . . . . . . . . 2123
proxy-ip-address . . . . . . . . . . . . . . . . . 2124
server . . . . . . . . . . . . . . . . . . . . . . . 2125
Contents 88
show eula-consent support-assist . . . . . . . . 2126
show support-assist status. . . . . . . . . . . . 2128
support-assist. . . . . . . . . . . . . . . . . . . 2129
url . . . . . . . . . . . . . . . . . . . . . . . . . 2130
SYSLOG Commands . . . . . . . . . . . . . . . . . . . . . . . . . .2132
CLI Logged to Local File and SYSLOG Server . . 2132
Commands in this Section . . . . . . . . . . . . 2133
clear logging . . . . . . . . . . . . . . . . . . . 2133
clear logging file . . . . . . . . . . . . . . . . . 2134
description (Logging) . . . . . . . . . . . . . . . 2135
level . . . . . . . . . . . . . . . . . . . . . . . . 2135
logging cli-command . . . . . . . . . . . . . . . 2136
logging . . . . . . . . . . . . . . . . . . . . . . 2138
logging audit . . . . . . . . . . . . . . . . . . . 2140
logging buffered . . . . . . . . . . . . . . . . . 2140
logging console . . . . . . . . . . . . . . . . . . 2142
logging facility . . . . . . . . . . . . . . . . . . 2143
logging file . . . . . . . . . . . . . . . . . . . . 2143
logging monitor . . . . . . . . . . . . . . . . . . 2145
logging on. . . . . . . . . . . . . . . . . . . . . 2146
logging protocol . . . . . . . . . . . . . . . . . 2146
Contents 89
logging snmp . . . . . . . . . . . . . . . . . . . 2148
logging source-interface . . . . . . . . . . . . . 2149
logging traps . . . . . . . . . . . . . . . . . . . 2150
logging web-session . . . . . . . . . . . . . . . 2151
port . . . . . . . . . . . . . . . . . . . . . . . . 2152
show logging . . . . . . . . . . . . . . . . . . . 2153
show logging file . . . . . . . . . . . . . . . . . 2154
show syslog-servers . . . . . . . . . . . . . . . 2154
terminal monitor . . . . . . . . . . . . . . . . . 2155
System and Stack Management Commands . . . . .2157
asset-tag . . . . . . . . . . . . . . . . . . . . . 2158
banner exec . . . . . . . . . . . . . . . . . . . 2159
banner login . . . . . . . . . . . . . . . . . . . 2159
banner motd . . . . . . . . . . . . . . . . . . . 2160
banner motd acknowledge . . . . . . . . . . . . 2161
buffers . . . . . . . . . . . . . . . . . . . . . . 2163
clear checkpoint statistics . . . . . . . . . . . . 2165
clear counters stack-ports . . . . . . . . . . . . 2165
connect . . . . . . . . . . . . . . . . . . . . . . 2166
cut-through mode. . . . . . . . . . . . . . . . . 2167
disconnect . . . . . . . . . . . . . . . . . . . . 2168
Contents 90
exit . . . . . . . . . . . . . . . . . . . . . . . . 2169
hardware profile portmode . . . . . . . . . . . . 2170
hostname . . . . . . . . . . . . . . . . . . . . . 2171
initiate failover . . . . . . . . . . . . . . . . . . 2172
load-interval . . . . . . . . . . . . . . . . . . . 2173
locate . . . . . . . . . . . . . . . . . . . . . . . 2174
logout . . . . . . . . . . . . . . . . . . . . . . . 2175
member . . . . . . . . . . . . . . . . . . . . . . 2176
memory free low-watermark . . . . . . . . . . . 2177
nsf. . . . . . . . . . . . . . . . . . . . . . . . . 2178
ping . . . . . . . . . . . . . . . . . . . . . . . . 2178
process cpu threshold . . . . . . . . . . . . . . 2182
quit . . . . . . . . . . . . . . . . . . . . . . . . 2183
reload . . . . . . . . . . . . . . . . . . . . . . . 2184
service unsupported-transceiver . . . . . . . . 2186
set description . . . . . . . . . . . . . . . . . . 2186
slot . . . . . . . . . . . . . . . . . . . . . . . . 2187
show banner . . . . . . . . . . . . . . . . . . . 2189
show buffers . . . . . . . . . . . . . . . . . . . 2190
show checkpoint statistics . . . . . . . . . . . . 2191
show cut-through mode . . . . . . . . . . . . . 2192
Contents 91
show hardware profile . . . . . . . . . . . . . . 2192
show idprom interface . . . . . . . . . . . . . . 2193
show interfaces. . . . . . . . . . . . . . . . . . 2194
show interfaces advanced firmware. . . . . . . 2196
show interfaces utilization . . . . . . . . . . . . 2197
show memory cpu . . . . . . . . . . . . . . . . 2200
show nsf . . . . . . . . . . . . . . . . . . . . . 2201
show power-usage-history. . . . . . . . . . . . 2203
show process app-list . . . . . . . . . . . . . . 2204
show process app-resource-list . . . . . . . . . 2206
show process cpu . . . . . . . . . . . . . . . . 2207
show process proc-list . . . . . . . . . . . . . . 2208
show sessions . . . . . . . . . . . . . . . . . . 2210
show slot . . . . . . . . . . . . . . . . . . . . . 2211
show supported cardtype . . . . . . . . . . . . 2213
show supported switchtype . . . . . . . . . . . 2215
show switch . . . . . . . . . . . . . . . . . . . 2217
show system . . . . . . . . . . . . . . . . . . . 2222
show system fan . . . . . . . . . . . . . . . . . 2224
show system id . . . . . . . . . . . . . . . . . . 2225
show system power . . . . . . . . . . . . . . . 2225
Contents 92
show system temperature . . . . . . . . . . . . 2226
show tech-support . . . . . . . . . . . . . . . . 2228
show users . . . . . . . . . . . . . . . . . . . . 2231
show version . . . . . . . . . . . . . . . . . . . 2232
stack . . . . . . . . . . . . . . . . . . . . . . . 2233
stack-port . . . . . . . . . . . . . . . . . . . . . 2234
stack-port shutdown . . . . . . . . . . . . . . . 2236
standby . . . . . . . . . . . . . . . . . . . . . . 2237
switch renumber . . . . . . . . . . . . . . . . . 2238
telnet . . . . . . . . . . . . . . . . . . . . . . . 2239
traceroute. . . . . . . . . . . . . . . . . . . . . 2240
traceroute ipv6 . . . . . . . . . . . . . . . . . . 2242
update bootcode . . . . . . . . . . . . . . . . . 2244
Telnet Server Commands . . . . . . . . . . . . . . . . . . . . .2246
Telnet Client Behaviors. . . . . . . . . . . . . . 2246
Commands in this Section . . . . . . . . . . . . 2248
ip telnet server disable . . . . . . . . . . . . . . 2248
ip telnet port . . . . . . . . . . . . . . . . . . . 2249
show ip telnet. . . . . . . . . . . . . . . . . . . 2249
Time Ranges Commands . . . . . . . . . . . . . . . . . . . . . .2251
time-range [name] . . . . . . . . . . . . . . . . 2251
absolute. . . . . . . . . . . . . . . . . . . . . . 2252
Contents 93
periodic . . . . . . . . . . . . . . . . . . . . . . 2253
show time-range . . . . . . . . . . . . . . . . . 2255
USB Flash Drive Commands . . . . . . . . . . . . . . . . . . .2257
Validation of Files Downloaded/Uploaded from USB Device 2257
Validation for Files Uploaded from Switch to USB Flash Drive
2257
Downloading and Uploading of Files . . . . . . . 2258
Commands in this Section . . . . . . . . . . . . 2258
unmount usb . . . . . . . . . . . . . . . . . . . 2258
show usb . . . . . . . . . . . . . . . . . . . . . 2259
dir usb. . . . . . . . . . . . . . . . . . . . . . . 2260
User Interface Commands . . . . . . . . . . . . . . . . . . . .2263
configure terminal . . . . . . . . . . . . . . . . 2263
do . . . . . . . . . . . . . . . . . . . . . . . . . 2263
enable. . . . . . . . . . . . . . . . . . . . . . . 2265
end . . . . . . . . . . . . . . . . . . . . . . . . 2266
exit . . . . . . . . . . . . . . . . . . . . . . . . 2267
quit . . . . . . . . . . . . . . . . . . . . . . . . 2267
Web Server Commands . . . . . . . . . . . . . . . . . . . . . . .2269
Web Sessions. . . . . . . . . . . . . . . . . . . 2269
Commands in this Section . . . . . . . . . . . . 2270
common-name . . . . . . . . . . . . . . . . . . 2270
Contents 94
country . . . . . . . . . . . . . . . . . . . . . . 2271
crypto certificate generate . . . . . . . . . . . . 2272
crypto certificate import . . . . . . . . . . . . . 2274
crypto certificate request . . . . . . . . . . . . 2276
duration . . . . . . . . . . . . . . . . . . . . . . 2277
ip http port . . . . . . . . . . . . . . . . . . . . 2278
ip http server . . . . . . . . . . . . . . . . . . . 2279
ip http secure-certificate . . . . . . . . . . . . . 2280
ip http secure-port . . . . . . . . . . . . . . . . 2280
ip http secure-server . . . . . . . . . . . . . . . 2281
key-generate . . . . . . . . . . . . . . . . . . . 2282
location . . . . . . . . . . . . . . . . . . . . . . 2283
no crypto certificate . . . . . . . . . . . . . . . 2283
organization-unit . . . . . . . . . . . . . . . . . 2284
show crypto certificate mycertificate . . . . . . 2285
show ip http server status . . . . . . . . . . . . 2286
show ip http server secure status . . . . . . . . 2287
state. . . . . . . . . . . . . . . . . . . . . . . . 2288
A Appendix A: List of Commands . . . . . . 2289
Dell EMC Networking CLI 95
1
Dell EMC Networking CLI
Dell EMC Networking N1100-ON/N1500/N2000/N2100-
ON/N3000/N3100-ON/N4000 Series Switches
Introduction
The Command Line Interface (CLI) is a network management application
operated through an ASCII terminal without the use of a Graphic User
Interface (GUI) driven software application. By directly entering commands,
the user has greater configuration flexibility. The CLI is a basic command-line
interpreter with command-line completion, in-line syntax help, and prior
command recall.
A switch can be configured and maintained by entering commands from the
CLI, which is based solely on textual input and output with commands being
entered by a terminal keyboard and the output displayed as text via a terminal
monitor. The CLI can be accessed from a console terminal connected to an
RS-232 port or through a Telnet/SSH session. Serial communication via a
dedicated USB port is available on the N1100-ON Series switch.
This guide describes how the CLI is structured, describes the command
syntax, and describes the command functionality.
This guide also provides guidelines for configuring the Dell EMC Networking
switch, and provides limited configuration examples. Basic installation is
described in the User’s Guide and must be completed before using this
document.
This document applies to the following switch firmware versions:
• Version 6.3.0.x—N2000, N3000, and N4000 Series switches
• Version 6.3.5.x—N3100-ON Series switches
• Version 6.3.6.x—N2100-ON, and N3100-ON Series switches
• Version 6.4.x.x—N1100-ON Series switches
Dell EMC Networking CLI 96
Command Groups
The system commands can be broken down into three sets of functional
groups: Layer 2, Layer 3, and Utility.
Table 1-1. System Command Groups
Command Group Description
Layer 2 Commands
ACL
Configures and displays ACL information.
Address Table
Configures bridging address tables.
Auto-VoIP
Configures Auto VoIP for IP phones on a switch.
CDP Interoperability
Configures Cisco® Discovery Protocol (CDP).
DHCP L2 Relay
Enables the Layer 2 DHCP Relay agent for an interface.
DHCP Snooping
Configures DHCP snooping and displays DHCP
Snooping information.
Dynamic ARP Inspection
Configures for rejection of invalid and malicious ARP
packets.
Ethernet Configuration
Configures all port configuration options for example
ports, storm control, port speed and auto-negotiation.
Ethernet CFM
Configures and displays GVRP configuration and
information.
Green Ethernet
Configures Green Ethernet and displays Green Ethernet
information.
GVRP
Configures GVRP snooping and displays GVRP
information.
IGMP Snooping
Configures IGMP snooping and displays IGMP
configuration and IGMP information.
IGMP Snooping Querier
Configures IGMP Snooping Querier and displays IGMP
Snooping Querier information.
IP Addressing
Configures and manages IP addresses on the switch.
IPv6 ACL
Configures and displays ACL information for IPv6.
IPv6 MLD Snooping
Configures IPv6 MLD Snooping.
Dell EMC Networking CLI 97
IPv6 MLD Snooping
Querier
Configures IPv6 Snooping Querier and displays IPv6
Snooping Querier information.
IP Source Guard
Configures IP source guard and displays IP source guard
information.
iSCSI Optimization
Configures special QoS treatment for traffic between
iSCSI initiators and target systems.
Link Dependency
Configures and displays link dependency information.
LLDP
Configures and displays LLDP information.
Loop Protection
Configures keep alive.
MLAG
Configures MLAG and displays MLAG information.
Multicast VLAN
Registration
Configures MVLAN and displays MVLAN information.
Port Channel
Configures and displays Port channel information.
Port Monitor
Monitors activity on specific target ports.
QoS
Configures and displays QoS information.
Spanning Tree
Configures and reports on Spanning Tree protocol.
UDLD
Configures UDLD and displays UDLD information.
VLAN
Configures VLANs and displays VLAN information.
Voice VLAN
Configures voice VLANs and displays voice VLAN
information.
Security Commands
AAA
Configures connection security including authorization
and passwords.
Administrative Profiles
Commands
Group commands into a profile and assign a profile to a
user upon authentication.
E-mail Alerting
Configures e-mail capabilities.
RADIUS
Configures and displays RADIUS information.
TACACS+
Configures and displays TACACS+ information.
Table 1-1. System Command Groups (continued)
Command Group Description
Dell EMC Networking CLI 98
802.1x
Configures and displays commands related to 802.1x
security protocol.
Captive Portal
Blocks clients from accessing network until user
verification is established.
Denial of Service
Provides several Denial of Service options.
Management ACL
Configures and displays management access-list
information.
Password Management
Provides password management.
SSH
Configures SSH authentication.
Audio Visual Bridging Commands
MMRP
Configures and displays MMRP information.
MSRP
Configures and displays MSRP information.
MVRP
Configures and displays MVRP information.
802.1AS Timesync
Configures and displays commands related to 802.1AS
timesync.
Data Center Commands
Data Center Bridging
Configures data center bridging snooping and displays
data center bridging information.
OpenFlow
Configures the switch to be managed by a centralized
OpenFlow Controller using the OpenFlow protocol.
Priority Flow Control
Configures priority flow control and displays priority flow
control information.
Layer 3 Routing Commands
ARP (IPv4)
Manages Address Resolution Protocol functions.
BFD
Configures BFD and displays BFD information.
BGP
Configures BGP and displays BGP information.
BGP Routing Policy
Configures BGP routing policy and displays BGP routing
policy information.
DHCP Server and Relay
Agent (IPv4)
Manages DHCP/BOOTP operations on the system.
Table 1-1. System Command Groups (continued)
Command Group Description
Dell EMC Networking CLI 99
DHCPv6
Configures IPv6 DHCP functions.
DHCPv6 Snooping
Configures DHCP v6 snooping and whether an interface
is trusted or untrusted.
DVMRP
(Mcast) Configures DVMRP operations.
GMRP
Configures GMRP and displays GMRP information.
IGMP
(Mcast) Configures IGMP operations.
IGMP Proxy
(Mcast) Manages IGMP Proxy on the system.
IP Helper/DHCP Relay
Configures relay of UDP packets.
IP Routing
(IPv4) Configures IP routing and addressing.
IPv6 Multicast
Manages IPv6 Multicasting on the system.
IPv6 Routing
Configures IPv6 routing and addressing.
Loopback Interface
(IPv6)
Manages Loopback configurations.
Multicast
(Mcast) Manages Multicasting on the system.
OSPF
(IPv4) Manages shortest path operations.
OSPFv3
(IPv6) Manages IPv6 shortest path operations.
Router Discovery Protocol
(IPv4)
Manages router discovery operations.
Routing Information
Protocol
(IPv4)
Configures RIP activities.
Tunnel Interface
(IPv6) Managing tunneling operations.
Virtual Router
Manages a virtual router.
Virtual Router
Redundancy
(IPv4)
Controls virtual LAN routing.
Switch Management Commands
Application Deployment
Manages Dell-supplied applications.
Auto-Install
Automatically configures switch when a configuration file
is not found.
Table 1-1. System Command Groups (continued)
Command Group Description
Dell EMC Networking CLI 100
CLI Macro
Configures CLI Macro and displays CLI Macro
information.
Clock
Configures the system clock.
Command Line
Configuration Scripting
Manages the switch configuration files.
Configuration and Image
Files
Manages file system and Command Line Interface
scripting commands.
DHCP Client
Configures an interface to obtain an IP address via DHCP.
HiveAgent
Enables configuration of the Dell HiveAgent
Line
Configures the console, SSH, and remote Telnet
connection.
PHY Diagnostics
Diagnoses and displays the interface status.
Power Over Ethernet
(PoE)
Configures PoE and displays PoE information.
RMON
Can be configured through the CLI and displays RMON
information.
Serviceability Tracing
Controls display of debug output to serial port or telnet
console.
sFlow
Configures sFlow monitoring.
SNMP
Configures SNMP communities, traps and displays SNMP
information.
Syslog
Manages and displays syslog messages.
System Management
Configures the switch clock, name and authorized users.
Telnet Server
Configures Telnet service on the switch and displays
Telnet information.
Time Ranges
Configures time ranges and displays time range
information.
USB Flash Drive
Configures USB flash drive and displays USB flash drive
information.
User Interface
Describes user commands used for entering CLI
commands.
Table 1-1. System Command Groups (continued)
Command Group Description
Dell EMC Networking CLI 101
Mode Types
The tables on the following pages use these abbreviations for Command
Mode names.
• AAA — IAS User Configuration
• APC — Administrative Profile Configuration
• ARPA — ARP ACL Configuration
• BR—BGP Router Configuration
• CC — Crypto Configuration
• CP — Captive Portal Configuration
• CPI — Captive Portal Instance
• CMC — Class-Map Configuration
• DCB—Datacenter-Bridging Configuration
• DP — IP DHCP Pool Configuration
• DRC–Dynamic Radius Configuration mode
• GC — Global Configuration
• HAC—Hive Agent Sever Configuration
• IC — Interface Configuration
• IP — IP Access List Configuration
• IPAF4—IPv4 Address Family Configuration
• IPAF—IPv6 Address Family Configuration
• IR — Interface Range
• KC — Key Chain
• KE — Key
• L — Logging
• LC — Line Configuration
Web Server
Configures web-based access to the switch.
Table 1-1. System Command Groups (continued)
Command Group Description
Dell EMC Networking CLI 102
• LD — Link Dependency
• MA — Management Access-level
• MC — MST Configuration
• MD —MLAG Domain Configuration
• MDC — Maintenance Domain Configuration
• ML — MAC-List Configuration
• MSC — Mail Server Configuration
• MT — MAC-acl
• OFC—OpenFlow Configuration
• OG — OSPFv2 Global Configuration
• PE — Privileged Exec
• PM — Policy Map Configuration
• PCGC — Policy Map Global Configuration
• PCMC — Policy Class Map Configuration
• PTC—Peer Template Configuration
• R — Radius
• RIP — Router RIP Configuration
• RC — Router Configuration
• RM—Route Map Configuration
• ROSPF — Router Open Shortest Path First
• ROSV3 — Router Open Shortest Path First Version 3
• S—Support
• SAC—Support Assist Configuration
• SC — Stack Configuration
• SP — SSH Public Key
• SK — SSH Public Key-chain
• TC — TACACS Configuration
• TRC — Time Range Configuration
• UE — User Exec
Dell EMC Networking CLI 103
• VC — VLAN Configuration (reached via vlan command)
•
VRC—VRF Configuration
• VR—Virtual Router Configuration
• v6ACL — IPv6 Access List Configuration
• v6CMC — IPv6 Class-Map Configuration
• v6DP — IPv6 DHCP Pool Configuration
Layer 2 Commands
ACL
Command Description Modea
ip access-list
Creates an Access Control List (ACL) that is
identified by the parameter accesslistnumber.
GC
deny | permit (IP ACL)
The deny command denies traffic if the
conditions defined in the deny statement are
matched. The permit command allows traffic if
the conditions defined in the permit statement
are matched.
ML
deny | permit (Mac-Access-
List-Configuration)
The deny command denies traffic if the
conditions defined in the deny statement are
matched. The permit command allows traffic if
the conditions defined in the permit statement
are matched.
ML
ip access-group
Attaches a specified access-control list to an
interface.
GC or
IC
mac access-group
Attaches a specific MAC Access Control List
(ACL) to an interface in the in-bound
direction.
GC or
IC
mac access-list extended
Creates the MAC Access Control List (ACL)
identified by the name parameter.
GC
mac access-list extended
rename
Renames the existing MAC Access Control List
(ACL) name.
GC
Dell EMC Networking CLI 104
Address Table
remark
Adds a comment to an ACL rule. IPAF4,
IPAF,
ML,
ARPA
service-acl input
Blocks Link Local Protocol Filtering (LLPF)
protocol(s) on a given port.
IC
show access-lists interface
Displays interface ACLs. PE
show service-acl interface
Displays the status of LLPF rules configured on
a particular port or on all the ports.
PE
show ip access-lists
Displays an Access Control List (ACL) and all
of the rules that are defined for the ACL.
PE
show mac access-lists
Displays a MAC access list and all of the rules
that are defined for the ACL.
PE
a. For the meaning of each Mode abbreviation, see
Mode Types
.
Command Description Modea
clear mac address-table
Removes any learned entries from the
forwarding database.
PE
mac address-table aging-
time
Sets the address table aging time. GC
mac address-table multicast
forbidden address
Forbids adding a specific multicast address to
specific ports.
GC
mac address-table static vlan
Registers MAC-layer multicast addresses to the
bridge forwarding table, and adds static ports to
the group.
GC
switchport port-security
(Interface Configuration)
Disables new address learning on an interface. IC
show mac address-table
Displays dynamically created entries in the
bridge-forwarding database.
PE
show mac address-table
address
Displays all entries in the bridge-forwarding
database for the specified MAC address.
UE or
PE
Command Description Modea
Dell EMC Networking CLI 105
Auto-VoIP
CDP Interoperability
show mac address-table
count
Displays the number of addresses present in the
Forwarding Database.
PE
show mac address-table
dynamic
Displays all entries in the bridge-forwarding
database.
UE or
PE
show mac address-table
interface
Displays the mac forwarding table entries for a
specific interface.
UE or
PE
show mac address-table
multicast
Displays Multicast MAC address table
information.
PE
show mac address-table
static
Displays statically created entries in the bridge-
forwarding database.
PE
show mac address-table vlan
Displays all entries in the bridge-forwarding
database for the specified VLAN.
UE or
PE
show port-security
Displays the port-lock status. PE
a. For the meaning of each Mode abbreviation, see
Mode Types
.
Command Description Modea
a. For the meaning of each Mode abbreviation, see
Mode Types
.
switchport voice detect auto
Enables the VoIP Profile on all the interfaces of
the switch.
GC or
IC
show switchport voice
Displays the status of auto-voip on an interface
or all interfaces.
PE
Command Description Modea
clear isdp counters
Clears the ISDP counters. PE
clear isdp table
Clears entries in the ISDP table. PE
isdp advertise-v2
Enables the sending of ISDP version 2 packets
from the device.
GC
isdp enable
Enables ISDP on the switch. GC or
IC
Command Description Modea
Dell EMC Networking CLI 106
DHCP L2 Relay
isdp holdtime
Configures the hold time for ISDP packets that
the switch transmits.
GC
isdp timer
Sets period of time between sending new ISDP
packets.
GC
show isdp
Displays global ISDP settings. PE
show isdp entry
Displays ISDP entries. PE
show isdp interface
Displays ISDP settings for the specified
interface.
PE
show isdp neighbors
Displays the list of neighboring devices. PE
show isdp traffic
Displays ISDP statistics. PE
a. For the meaning of each Mode abbreviation, see
Mode Types
.
Command Description Modea
dhcp l2relay (Global
Configuration)
Enables the Layer 2 DHCP Relay agent for an
interface or globally.
GC or
IC
dhcp l2relay (Interface
Configuration)
Enables DHCP L2 Relay for an interface. IC
dhcp l2relay circuit-id
Enables user to set the DHCP Option 82
Circuit ID for a VLAN.
GC
dhcp l2relay remote-id
Enables user to set the DHCP Option 82
Remote ID for a VLAN.
GC
dhcp l2relay trust
Configures an interface to trust a received
DHCP Option 82.
IC
dhcp l2relay vlan
Enables the L2 DHCP Relay agent for a set of
VLANs.
GC
show dhcp l2relay all
Displays the summary of DHCP L2 Relay
configuration.
PE or
GC
show dhcp l2relay interface
Displays DHCP L2 Relay configuration specific
to interfaces.
PE
Command Description Modea
Dell EMC Networking CLI 107
DHCP Snooping
show dhcp l2relay stats
interface
Displays DHCP L2 Relay statistics specific to
interfaces.
PE or
GC
show dhcp l2relay agent-
option vlan
Displays DHCP L2 Relay Option-82
configuration specific to VLANs.
PE or
GC
show dhcp l2relay vlan
Displays whether DHCP L2 Relay is globally
enabled on the specified VLAN or VLAN range.
PE or
GC
show dhcp l2relay circuit-id
vlan
Displays whether DHCP L2 Relay is globally
enabled and whether the DHCP Circuit-ID
option is enabled on the specified VLAN or
VLAN range.
PE or
GC
show dhcp l2relay remote-id
vlan
Displays whether DHCP L2 Relay is globally
enabled and shows the remote ID configured on
the specified VLAN or VLAN range.
PE or
GC
clear dhcp l2relay statistics
interface
Resets the DHCP L2 Relay counters to zero. PE
a. For the meaning of each Mode abbreviation, see
Mode Types
.
Command Description Modea
clear ip dhcp snooping
binding
Clears all DHCP Snooping entries. PE
clear ip dhcp snooping
statistics
Clears all DHCP Snooping statistics. PE
ip dhcp snooping
Enables DHCP snooping globally or on a
specific VLAN.
GC or
IC
ip dhcp snooping binding
Configures a static DHCP Snooping binding. GC
ip dhcp snooping database
Configures the persistent location of the DHCP
snooping database.
GC
ip dhcp snooping database
write-delay
Configures the interval in seconds at which the
DHCP Snooping database will be stored in
persistent storage.
GC
ip dhcp snooping limit
Controls the maximum rate of DHCP
messages.
IC
Command Description Modea
Dell EMC Networking CLI 108
Dynamic ARP Inspection
ip dhcp snooping log-invalid
Enables logging of DHCP messages filtered by
the DHCP Snooping application.
IC
ip dhcp snooping trust
Configure a port as trusted for DHCP snooping. IC
ip dhcp snooping verify mac-
address
Enables the verification of the source MAC
address with the client MAC address in the
received DHCP message.
GC
show ip dhcp snooping
Displays the DHCP snooping global and per
port configuration.
PE
show ip dhcp snooping
binding
Displays the DHCP snooping binding entries. PE
show ip dhcp snooping
database
Displays the DHCP snooping configuration
related to the database persistence.
PE
show ip dhcp snooping
interfaces
Displays the DHCP Snooping status of the
interfaces.
PE
show ip dhcp snooping
statistics
Displays the DHCP snooping filtration
statistics.
PE
a. For the meaning of each Mode abbreviation, see
Mode Types
.
Command Description Modea
arp access-list
Creates an ARP ACL. GC
clear ip arp inspection
statistics
Resets the statistics for Dynamic ARP
Inspection on all VLANs.
PE
ip arp inspection filter
Configures the ARP ACL to be used for a single
VLAN or a range of VLANs to filter invalid ARP
packets.
GC
ip arp inspection limit
Configures the rate limit and burst interval
values for an interface.
IC
ip arp inspection trust
Configures an interface as trusted for Dynamic
ARP Inspection.
IC
Command Description Modea
Dell EMC Networking CLI 109
Ethernet Configuration
ip arp inspection validate
Enables additional validation checks like source
MAC address validation, destination MAC
address validation or IP address validation on
the received ARP packets.
GC
ip arp inspection vlan
Enables Dynamic ARP Inspection on a single
VLAN or a range of VLANs.
GC
permit ip host mac host
Configures a rule for a valid IP address and
MAC address combination used in ARP packet
validation.
ARPA
show arp access-list
Displays the configured ARP ACLs with the
rules.
PE
show ip arp inspection
Displays the Dynamic ARP Inspection
configuration.
PE
12 Enabled Disabled
Displays the Dynamic ARP Inspection
configuration on all the VLANs in the given
VLAN range.
PE
a. For the meaning of each Mode abbreviation, see
Mode Types
.
Command Description Modea
clear counters
Clears statistics on an interface or globally. PE
description
Adds a description to an interface. IC
flowcontrol
Configures the flow control on a given interface. GC or
IC
interface
Enters the interface configuration mode to
configure parameters for an interface.
GC or
IC
interface range
Enters the interface configuration mode to
execute a command on multiple ports at the
same time.
GC or
IC or
IR
link debounce time
Configures the debounce timer for one or
multiple interfaces.
IC or
IR
Command Description Modea
Dell EMC Networking CLI 110
rate-limit cpu
Reduces the amount of unknown
unicast/multicast packets forwarded to the
CPU.
GC
show interfaces
Lists the traffic statistics for one or multiple
interfaces.
PE
show interfaces advertise
Displays information about auto negotiation
advertisement.
PE
show interfaces
configuration
Displays the configuration for all configured
interfaces.
UE
show interfaces counters
Displays traffic seen by the Ethernet interface. UE
show interfaces debounce
Lists the debounce information for one or
multiple interfaces.
PE or
GC
show interfaces description
Displays the description for all configured
interfaces.
UE
show interfaces detail
Displays the detail for all configured interfaces. UE
show interfaces status
Displays the status for all configured interfaces. UE
show interfaces transceiver
Display the optic static parameters as well as
the Dell EMC qualification.
PE
show statistics
Displays statistics for one port or for the entire
switch.
PE
show statistics switchport
Displays detailed statistics for a specific port or
for the entire switch.
PE
show storm-control
Displays the storm control configuration. PE
show storm-control action
Displays the storm control action configuration
for one or all interfaces.
PE
shutdown
Disables interfaces. IC
speed
Configures the speed of a given Ethernet
interface when not using auto-negotiation.
IC
switchport protected
Sets the port to Protected mode. IC
switchport protected name
Configures a name for a protected group. GC
show switchport protected
Displays protected group/port information. PE
Command Description Modea
Dell EMC Networking CLI 111
Ethernet CFM
show system mtu
Displays the configured MTU. PE
system jumbo mtu
Globally configures the Maximum Transmission
Unit (MTU) on all interfaces for forwarded and
system-generated frames.
GC
a. For the meaning of each Mode abbreviation, see
Mode Types
.
Command Description Modea
ethernet cfm domain
Enters into maintenance domain Configuration
mode for an existing domain. Use the optional
level parameter to create a domain and enter
into maintenance domain Configuration mode.
GC
service
Associates a VLAN with a maintenance domain. MDC
ethernet cfm cc level
Initiates sending continuity checks (CCMs) at
the specified interval and level on a VLAN
monitored by an existing domain.
GC
ethernet cfm mep level
Creates a Maintenance End Point (MEP) on an
interface at the specified level and direction.
IC
ethernet cfm mep enable
Enables a MEP at the specified level and
direction.
IC
ethernet cfm mep active
Activates a MEP at the specified level and
direction.
IC
ethernet cfm mep archive-
hold-time
Maintains internal information on a missing
MEP.
IC
ethernet cfm mip level
Creates a Maintenance Intermediate Point
(MIP) at the specified level.
IC
ping ethernet cfm
Generates a loopback message (LBM) from
the configured MEP.
PE
traceroute ethernet cfm
Generates a link trace message (LTM) from the
configured MEP.
PE
show ethernet cfm errors
Displays the cfm errors. PE
show ethernet cfm domain
Displays the configured parameters in a
maintenance domain.
PE
Command Description Modea
Dell EMC Networking CLI 112
Green Ethernet
show ethernet cfm
maintenance-points local
Displays the configured local maintenance
points.
PE
show ethernet cfm
maintenance-points remote
Displays the configured remote maintenance
points.
PE
show ethernet cfm statistics
Displays the CFM statistics. PE
a. For the meaning of each Mode abbreviation, see
Mode Types
.
Command Description Modea
clear counters
Enables a Dell EMC proprietary mode of power
reduction on ports that are not connected to
another interface.
IC
green-mode eee
Enables EEE low power idle mode on an
interface or all the interfaces.
IC
description
Clears:
• The EEE LPI event count, and LPI duration
• The EEE LPI history table entries
• The Cumulative Power savings estimates
for a specified interface or for all the interfaces
based upon the argument.
PE
green-mode eee-lpi-history
Configures the Global EEE LPI history
collection interval and buffer size. This value is
applied globally on all interfaces on the stack.
GC
show green-mode interface-
id
Displays the green-mode configuration and
operational status of the port. This command is
also used to display the per port configuration
and operational status of the green-mode. The
status is shown only for the modes supported on
the corresponding hardware platform whether
enabled or disabled.
PE
Command Description Modea
Dell EMC Networking CLI 113
GVRP
show green-mode
Displays the green-mode configuration for the
whole system. The status is shown only for the
modes supported on the corresponding
hardware platform whether enabled or disabled.
PE
show green-mode eee-lpi-
history interface
Displays the interface green-mode EEE LPI
history.
PE
a. For the meaning of each Mode abbreviation, see
Mode Types
.
Command Description Modea
a. For the meaning of each Mode abbreviation, see
Mode Types
.
clear gvrp statistics
Clears all the GVRP statistics information. PE
garp timer
Adjusts the GARP application join, leave, and
leaveall GARP timer values.
IC
gvrp enable (Global
Configuration)
Enables GVRP globally. GC
gvrp enable (Interface
Configuration)
Enables GVRP on an interface. IC
gvrp registration-forbid
Deregisters all VLANs, and prevents dynamic
VLAN registration on the port.
IC
gvrp vlan-creation-forbid
Enables or disables dynamic VLAN creation. IC
show gvrp configuration
Displays GVRP configuration information,
including timer values, whether GVRP and
dynamic VLAN creation is enabled, and
which ports are running GVRP.
PE
show gvrp error-statistics
Displays GVRP error statistics. UE
show gvrp statistics
Displays GVRP statistics. UE
Command Description Modea
Dell EMC Networking CLI 114
IGMP Snooping
IGMP Snooping Querier
Command Description Modea
a. For the meaning of each Mode abbreviation, see
Mode Types
.
ip igmp snooping
In Global Configuration mode, Enables
Internet Group Management Protocol (IGMP)
snooping.
GC
show ip igmp snooping
groups
Displays Multicast groups learned by IGMP
snooping.
UE
show ip igmp snooping
mrouter
Displays information on dynamically learned
Multicast router interfaces.
PE
show ip igmp snooping
In VLAN Configuration mode, enables IGMP
snooping on a particular VLAN or on all
interfaces participating in a VLAN.
VC
ip igmp snooping vlan
immediate-leave
Enables or disables IGMP Snooping fast-leave
mode on a selected VLAN.
VC
ip igmp snooping vlan
groupmembership-interval
Sets the IGMP Group Membership Interval
time on a VLAN.
VC
ip igmp snooping vlan last-
member-query-interval
Sets the IGMP Maximum Response time on a
particular VLAN.
VC
ip igmp snooping vlan
mcrtrexpiretime
Sets the Multicast Router Present Expiration
time.
VC
ip igmp snooping report-
suppression
Enables IGMP report suppression on a specific
VLAN.
GC
ip igmp snooping
unregistered floodall
Enables flooding of unregistered multicast
traffic to all ports in the VLAN.
GC
ip igmp snooping vlan
mrouter
Statically configures a port as connected to a
multicast router for a specified VLAN.
GC
Command Description Modea
ip igmp snooping
Enables/disables IGMP Snooping Querier on
the system (Global Configuration mode) or on
a VLAN.
GC or
VC
Dell EMC Networking CLI 115
IP Addressing
ip igmp snooping querier
election participate
Enables the Snooping Querier to participate in
the Querier Election process when it discovers
the presence of another Querier in the VLAN.
VC
ip igmp snooping querier
query-interval
Sets the IGMP Querier Query Interval time. GC
ip igmp snooping querier
timer expiry
Sets the IGMP Querier timer expiration period. GC
ip igmp snooping querier
version
Sets the IGMP version of the query that the
snooping switch is going to send periodically.
GC
show ip igmp snooping
querier
Displays IGMP Snooping Querier information. PE
a. For the meaning of each Mode abbreviation, see
Mode Types
.
Command Description Modea
clear host
Deletes entries from the host name-to-address
cache.
PE
clear ip address-conflict-
detect
Clears the address conflict detection status in
the switch.
PE
interface out-of-band
Enters into OOB interface configuration mode. GC
ip address
Configures an IP address on an in-band
interface.
IC
ip address (Out-of-Band)
Sets an IP address for the out-of-band interface. IC
ip address-conflict-detect
run
Triggers the switch to run active address conflict
detection by sending gratuitous ARP packets for
IPv4 addresses on the switch.
GC
ip address dhcp (Interface
Configuration)
Acquires an IP address on an interface from the
DHCP server.
IC
ip default-gateway
Defines a default gateway (router). GC
ip domain-lookup
Enables IP DNS-based host name-to-address
translation.
GC
Command Description Modea
Dell EMC Networking CLI 116
ip domain-name
Defines a default domain name to complete
unqualified host names.
GC
ip host
Configures static host name-to-address
mapping in the host cache.
GC
ip name-server
Defines available IPv4 or IPv6 name servers. GC
ip name-server source-
interface
Configures available name servers. GC
ipv6 address (Interface
Configuration)
Sets the IPv6 address of the management
interface.
IC
ipv6 address (OOB Port)
Sets the IPv6 prefix on the out-of-band port. IC
ipv6 address dhcp
Enables the DHCPv6 client on an IPv6
interface.
IC
ipv6 enable (Interface
Configuration)
Enables IPv6 on the management interface. GC
ipv6 enable (OOB
Configuration)
Enables IPv6 operation on the out-of-band
interface.
IC
ipv6 gateway (OOB
Configuration)
Configures the address of the IPv6 gateway. IC
show hosts
Displays the default domain name, a list of
name server hosts, static and cached list of host
names and addresses.
UE
show ip address-conflict
Displays the status information corresponding
to the last detected address conflict.
UE or
PE
show ip helper-address
Displays the ip helper addresses configuration. PE
show ipv6 dhcp interface
out-of-band statistics
Displays IPv6 DHCP statistics for the out-of-
band interface.
PE
show ipv6 interface out-of-
band
Displays the IPv6 out-of-band port
configuration.
PE
a. For the meaning of each Mode abbreviation, see
Mode Types
.
Command Description Modea
Dell EMC Networking CLI 117
IPv6 ACL
IPv6 MLD Snooping
Command Description Modea
a. For the meaning of each Mode abbreviation, see
Mode Types
.
deny | permit (IPv6 ACL)
Creates a new rule for the current IPv6 access
list.
v6ACL
ipv6 access-list
Creates an IPv6 Access Control List (ACL)
consisting of classification fields defined for the
IP header of an IPv6 frame.
GC
ipv6 access-list rename
Changes the name of an IPv6 ACL. GC
ipv6 traffic-filter
Attaches a specific IPv6 ACL to an interface or
associates it with a VLAN ID in a given
direction.
GC
IC
show ipv6 access-lists
Displays an IPv6 access list (and the rules
defined for it).
PE
Command Description Modea
ipv6 mld snooping vlan
groupmembership-interval
Sets the MLD Group Membership Interval
time on a VLAN or interface.
VC
ipv6 mld snooping vlan
immediate-leave
Enables or disables MLD Snooping immediate-
leave admin mode on a selected interface or
VLAN.
VC
ipv6 mld snooping vlan last-
listener-query-interval
Sets the MLD Maximum Response time for an
interface or VLAN.
IC or
VC
ipv6 mld snooping listener-
message-suppression
Enables MLD listener message suppression on a
specific VLAN.
GC
ipv6 mld snooping vlan
mcrtrexpiretime
Sets the Multicast Router Present Expiration
time.
GC
ipv6 mld snooping vlan
mrouter
Statically configures a port as connected to a
multicast router for a specified VLAN.
GC
ipv6 mld snooping (Global)
Enables MLD Snooping on the system (Global
Configuration mode).
GC
show ipv6 mld snooping
Displays MLD Snooping information. PE
Dell EMC Networking CLI 118
IPv6 MLD Snooping Querier
IP Source Guard
show ipv6 mld snooping
groups
Displays the MLD Snooping entries in the
MFDB table.
PE
show ipv6 mld snooping
mrouter
Displays information on dynamically learned
Multicast router interfaces.
PE
a. For the meaning of each Mode abbreviation, see
Mode Types
.
Command Description Modea
a. For the meaning of each Mode abbreviation, see
Mode Types
.
ipv6 mld snooping querier
Enables MLD Snooping Querier on the system. GC
ipv6 mld snooping querier
(VLAN mode)
Enables MLD Snooping Querier on a VLAN. VC
ipv6 mld snooping querier
address
Sets the global MLD Snooping Querier address
on the system or on a VLAN.
GC or
VC
ipv6 mld snooping querier
election participate
Enables the Snooping Querier to participate in
the Querier Election process when it discovers
the presence of another Querier in the VLAN.
VC
ipv6 mld snooping querier
query-interval
Sets the MLD Querier Query Interval time. GC
ipv6 mld snooping querier
timer expiry
Sets the MLD Querier timer expiration period. GC
show ipv6 mld snooping
querier
Displays MLD Snooping Querier information. PE
Command Description Modea
ip verify source
Enables IP Source Guard on an interface. IC
ip verify binding
Configures IPSG static bindings. GC
show ip verify
Displays IPSG interface configuration. PE
show ip verify source
Displays the bindings configured on a particular
interface.
PE
Command Description Modea
Dell EMC Networking CLI 119
iSCSI Optimization
Link Dependency
show ip source binding
Displays all bindings (static and dynamic). PE
a. For the meaning of each Mode abbreviation, see
Mode Types
.
Command Description Modea
a. For the meaning of each Mode abbreviation, see
Mode Types
.
iscsi aging time
Sets aging time for iSCSI sessions. GC
iscsi cos
Sets the quality of service profile that will be
applied to iSCSI flows.
GC
iscsi enable
Enables Global Configuration mode command
globally enables iSCSI awareness.
GC
iscsi target port
Configures an iSCSI target port (optionally
configures target port address and name).
GC
show iscsi
Displays the iSCSI settings. PE
show iscsi sessions
Displays the iSCSI sessions. PE
Command Description Modea
a. For the meaning of each Mode abbreviation, see
Mode Types
.
action
Indicates if the link-dependency group should
mirror or invert the status of the depended on
interfaces.
LD
link-dependency group
Enters the link-dependency mode to configure
a link-dependency group.
GC
add
Adds member gigabit Ethernet port(s) to the
dependency list.
LD
depends-on
Adds the dependent Ethernet ports or port
channels list.
LD
show link-dependency
Shows the link dependencies configured on a
particular group.
PE
Command Description Modea
Dell EMC Networking CLI 120
LLDP
Command Description Modea
clear lldp remote-data
Deletes all data from the remote data table. PE
clear lldp statistics
Resets all LLDP statistics. PE
dcb enable
Enables the sending of DCBX information in
LLDP frames.
GC
lldp med
Enables/disables LLDP-MED on an interface. IC
lldp med confignotification
Enables sending the topology change
notification.
IC
lldp med
faststartrepeatcount
Sets the value of the fast start repeat count. GC
lldp med transmit-tlv
Specifies which optional TLVs in the LLDP
MED set are transmitted in the LLDPDUs.
IC
lldp notification
Enables remote data change notifications. IC
lldp notification-interval
Limits how frequently remote data change
notifications are sent.
GC
lldp receive
Enables the LLDP receive capability. IC
lldp timers
Sets the timing parameters for local data
transmission on ports enabled for LLDP.
GC
lldp transmit
Enables the LLDP advertise capability. IC
lldp transmit-mgmt
Specifies that transmission of the local system
management address information in the
LLDPDUs is included.
IC
lldp transmit-tlv
Specifies which optional TLVs in the 802.1AB
basic management set will be transmitted in the
LLDPDUs.
IC
show lldp
Displays the current LLDP configuration
summary.
PE
show lldp interface
Displays the current LLDP interface state. PE
show lldp local-device
Displays the LLDP local data. PE
show lldp med
Displays a summary of the current LLDP MED
configuration.
PE
Dell EMC Networking CLI 121
Loop Protection
MLAG
show lldp med interface
Displays a summary of the current LLDP MED
configuration for a specific interface.
PE
show lldp med local-device
detail
Displays the advertised LLDP local data in
detail.
PE
show lldp med remote-
device
Displays the current LLDP MED remote data. PE
show lldp remote-device
Displays the current LLDP remote data. PE
show lldp statistics
Displays the current LLDP traffic statistics. PE
a. For the meaning of each Mode abbreviation, see
Mode Types
.
Command Description Modea
a. For the meaning of each Mode abbreviation, see
Mode Types
.
keepalive (Interface Config)
Enables loop protection on an interface. IC
keepalive (Global Config)
Globally enable loop protection and
optionally configure the loop protection
timer and packet count.
GC
keepalive action
Configure the action taken when a loop is
detected on an interface.
IC
show keepalive
Displays the global loop protect
configuration.
PE
show keepalive statistics
Displays the loop protect status for one or all
interfaces.
PE
Command Description Modea
clear vpc statistics
Clears the counters for the keepalive
messages transmitted and received by the
MLAG switch.
PE
feature vpc
Enables debug traces for the specified
protocols.
GC
Command Description Modea
Dell EMC Networking CLI 122
feature vpc
Globally enables MLAG. GC
peer detection enable
Enables the Dual Control Plane
Detection Protocol.
MD
peer detection interval
Configures the peer detection
transmission interval and the detection
interval.
MD
peer-keepalive destination
Enables the Dual Control Plane Detection
Protocol with the configured IP address of
the peer MLAG, the local source address and
the peer timeout value.
MD
peer-keepalive enable
Enables the peer keepalive protocol. MD
peer-keepalive timeout
Configures the peer keepalive timeout value,
in seconds.
MD
role priority
Configures the priority value used on a
switch for primary/secondary role selection.
MD
show vpc
Displays information about an MLAG. PE
show vpc brief
Displays the MLAG global status. PE
show vpc consistency-
parameters
Displays MLAG-related configuration
information in a format suitable for
comparison with the other MLAG peer.
PE
show vpc consistency-
features
Displays MLAG-related configuration
information in a format suitable for
comparison with the other MLAG peer.
PE
show vpc peer-keepalive
Displays the peer MLAG switch’s IP address
used by the dual control plane detection
protocol.
PE
show vpc role
Displays information about the keepalive
status, keepalive parameters, role of the
MLAG switch, and the system MAC and
priority.
PE
show vpc statistics
Displays counters for the keepalive messages
transmitted and received by the MLAG
switch
PE
Command Description Modea
Dell EMC Networking CLI 123
Multicast VLAN Registration
system-mac
Manually configures the MAC address for the
VPC domain.
MD
system-priority
Manually configures the priority for the VPC
domain.
MD
vpc
Configures a port-channel (LAG) as part of
the MLAG domain.
IC
vpc domain
Enters into MLAG Configuration mode. GC
vpc peer-link
Configures a port channel as the MLAG peer
link for a domain and enables the peer link
protocol.
IC
a. For the meaning of each Mode abbreviation, see
Mode Types
.
Command Description Modea
a. For the meaning of each Mode abbreviation, see
Mode Types
.
mvr
Enables MVR. GC or
IC
mvr group
Adds an MVR membership group. GC
mvr mode
Changes the MVR mode type. GC
mvr querytime
Sets the MVR query response time. GC
mvr vlan
Sets the MVR multicast VLAN. GC
mvr immediate
Enables MVR Immediate Leave mode. IC
mvr type
Sets the MVR port type. IC
mvr vlan group
Use to participate in the specific MVR group. IC
show mvr
Displays global MVR settings. PE
show mvr members
Displays the MVR membership groups
allocated.
PE
show mvr interface
Displays the MVR enabled interface
configuration.
PE
show mvr traffic
Displays global MVR statistics. PE
Command Description Modea
Dell EMC Networking CLI 124
Port Channel
Port Monitor
Command Description Modea
a. For the meaning of each Mode abbreviation, see
Mode Types
.
channel-group
Associates a port with a port-channel. IC
feature vpc
Enables debug traces for the specified
protocols.
GC
interface range port-channel
Enters the interface configuration mode to
configure multiple port-channels.
GC
hashing-mode
Sets the hashing algorithm on trunk ports. IC (port-
channel)
lacp port-priority
Configures the priority value for Ethernet
ports.
IC
lacp system-priority
Configures the system LACP priority. GC
lacp timeout
Assigns an administrative LACP timeout. IC
port-channel min-links
Sets the minimum number of links that must
be up in order for the port channel interface
to be declared up.
IC
show interfaces port-
channel
Displays port-channel information. PE
show lacp
Displays LACP information for ports. PE
show statistics port-channel
Displays port-channel statistics. PE
Command Description Modea
monitor capture (Global
Configuration)
Captures packets transmitted or received from
the CPU.
GC
monitor capture (Privileged
Exec)
Capture packets transmitted or received from
the CPU
PE
monitor session
Configures a port monitoring session. GC
remote-span
Configures a VLAN as an RSPAN VLAN. VC
show monitor capture
Displays captured packets transmitted or
received from the CPU.
PE
Dell EMC Networking CLI 125
QoS
show monitor session
Displays the port monitoring status. PE
show vlan remote-span
Displays the RSPAN VLAN IDs. UE or
PE
a. For the meaning of each Mode abbreviation, see
Mode Types
.
Command Description Modea
assign-queue
Modifies the queue ID to which the associated
traffic stream is assigned.
PCMC
class
Creates an instance of a class definition within
the specified policy for the purpose of defining
treatment of the traffic class through
subsequent policy attribute statements.
PMC
class-map
Defines a new DiffServ class of type match-all. GC
class-map rename
Changes the name of a DiffServ class. GC
classofservice dot1p-
mapping
Maps an 802.1p priority to an internal traffic
class for a switch.
GC or
IC
classofservice ip-dscp-
mapping
Maps an IP DSCP value to an internal traffic
class.
GC
classofservice trust
Sets the class of service trust mode of an
interface.
GC or
IC
conform-color
Specifies the precoloring of packets conforming
to or exceeding the specified rate(s). The
possible actions are drop, setdscp-transmit, set-
prec-transmit, or transmit.
PCMC
cos-queue min-bandwidth
Specifies the minimum transmission
bandwidth for each interface queue.
GC or
IC
cos-queue random-detect
Configures WRED packet drop policy on an
interface CoS queue.
GC or
IC
cos-queue strict
Activates the strict priority scheduler mode for
each specified queue.
GC or
IC
diffserv
Sets the DiffServ operational mode to active. GC
Command Description Modea
Dell EMC Networking CLI 126
drop
Use the drop policy-class-map configuration
command to specify that all packets for the
associated traffic stream are to be dropped at
ingress.
PCMC
mark cos
Marks all packets for the associated traffic
stream with the specified class of service value
in the priority field of the 802.1p header.
PCMC
mark ip-dscp
Marks all packets for the associated traffic
stream with the specified IP DSCP value.
PCMC
mark ip-precedence
Marks all packets for the associated traffic
stream with the specified IP precedence value.
PCMC
match class-map
Adds add to the specified class definition the
set of match conditions defined for another
class.
CMC
match cos
Adds to the specified class definition a match
condition for the Class of Service value.
CMC
match destination-address
mac
Adds to the specified class definition a match
condition based on the destination MAC
address of a packet.
CMC
match dstip
Adds to the specified class definition a match
condition based on the destination IP address
of a packet.
CMC
match dstip6
Adds to the specified class definition a match
condition based on the destination IPv6
address of a packet.
v6CMC
match dstl4port
Adds to the specified class definition a match
condition based on the destination layer 4 port
of a packet using a single keyword, or a numeric
notation.
CMC
match ethertype
Adds to the specified class definition a match
condition based on the value of the ethertype.
CMC
match ip6flowlbl
Adds to the specified class definition a match
condition based on the IPv6 flow label of a
packet.
v6CMC
Command Description Modea
Dell EMC Networking CLI 127
match ip dscp
Adds to the specified class definition a match
condition based on the value of the IP DiffServ
Code Point (DSCP) field in a packet.
CMC
match ip precedence
Adds to the specified class definition a match
condition based on the value of the IP.
CMC
match ip tos
Adds to the specified class definition a match
condition based on the value of the IP TOS
field in a packet.
CMC
match protocol
Adds to the specified class definition a match
condition based on the value of the IP Protocol
field in a packet using a single keyword
notation or a numeric value notation.
CMC
match source-address mac
Adds to the specified class definition a match
condition based on the source MAC address of
the packet.
CMC
match srcip
Adds to the specified class definition a match
condition based on the source IP address of a
packet.
CMC
match srcip6
Adds to the specified class definition a match
condition based on the source IPv6 address of a
packet.
v6CMC
match srcl4port
Adds to the specified class definition a match
condition based on the source layer 4 port of a
packet using a single keyword, a numeric
notation, or a numeric range notation.
CMC
match vlan
Adds to the specified class definition a match
condition based on the value of the layer 2
VLAN Identifier field.
CMC
mirror
Mirrors all the data that matches the class
defined to the destination port specified.
PCMC
police-simple
Implements simple color aware marking for the
specified class.
PCMC
police-single-rate
Implements a single-rate Three Color Marker
(trTCM) per RFC 2698
PCMC
Command Description Modea
Dell EMC Networking CLI 128
police-two-rate
Implements a two-rate Three Color Marker
(trTCM) per RFC 2698.
PCMC
policy-map
Establishes a new DiffServ policy or enters
policy map configuration mode.
GC
random-detect queue-
parms
Configures the green, yellow and red TCP and
non-TCP packet minimum and maximum
thresholds and corresponding drop
probabilities on an interface or all interfaces.
GC, IC,
or IR
random-detect exponential-
weighting-constant
Configures the decay in the calculation of the
average queue size user for WRED on an
interface or all interfaces.
GC, IC,
or IR
redirect
Specifies that all incoming packets for the
associated traffic stream are redirected to a
specific egress interface (Ethernet port or port-
channel).
PCMC
service-policy
Attaches a policy to an interface in a particular
direction.
GC or
IC
show class-map
Displays all configuration information for the
specified class.
PE
show classofservice dot1p-
mapping
Displays the current 802.1p priority mapping
to internal traffic classes for a specific interface.
PE
show classofservice ip-dscp-
mapping
Displays the current IP DSCP mapping to
internal traffic classes for a specific interface.
PE
show classofservice trust
Displays the current trust mode setting for a
specific interface.
PE
show diffserv
Displays the DiffServ General Status
information.
PE
show diffserv service
interface
Displays policy service information for the
specified interface and direction.
PE
show diffserv service brief
Displays all interfaces in the system to which a
DiffServ policy has been attached.
PE
show interfaces cos-queue
Displays the class-of-service queue
configuration for the specified interface.
PE
Command Description Modea
Dell EMC Networking CLI 129
Spanning Tree
show interfaces random-
detect
Displays the WRED policy on an interface. PE
show policy-map
Displays all configuration information for the
specified policy.
PE
show policy-map interface
Displays policy-oriented statistics information
for the specified interface and direction.
PE
show service-policy
Displays a summary of policy-oriented
statistics information for all interfaces.
PE
traffic-shape
Specifies the maximum transmission
bandwidth limit for the interface as a whole.
GC or
IC
vlan priority
Assigns a default VLAN priority tag for
untagged frames ingressing an interface.
IC
a. For the meaning of each Mode abbreviation, see
Mode Types
.
Command Description Modea
clear spanning-tree
detected-protocols
Restarts the protocol migration process on all
interfaces or on the specified interface.
PE
exit (mst)
Exits the MST configuration mode and applies
configuration changes.
MC
instance (mst)
Maps VLANs to an MST instance. MC
name (mst)
Defines the MST configuration name. MC
revision (mst)
Defines the configuration revision number. MC
show spanning-tree
Displays spanning tree configuration. PE
show spanning-tree
summary
Displays spanning tree settings and parameters
for the switch.
PE
show spanning-tree vlan
Displays spanning tree information per VLAN
and also lists the port roles and states as well as
the port cost.
PE
spanning-tree
Enables spanning-tree functionality. GC
spanning-tree auto-portfast
Sets the port to auto portfast mode. IC
Command Description Modea
Dell EMC Networking CLI 130
spanning-tree backbonefast
Enables the detection of indirect link failures
and accelerate spanning tree convergence on
STP-PV/RSTP-PV configured switches using
Indirect Link Rapid Convergence (IRC).
GC
spanning-tree bpdu flooding
Allows flooding of BPDUs received on
nonspanning-tree ports to all other non-
spanning-tree ports.
GC
spanning-tree bpdu-
protection
Enables BPDU protection on a switch. GC
spanning-tree cost
Configures the spanning tree path cost for a
port.
IC
spanning-tree disable
Disables spanning tree on a specific port. IC
spanning-tree forward-time
Configures the spanning tree bridge forward
time.
GC
spanning-tree guard
Selects whether loop guard or root guard is
enabled on an interface.
IC
spanning-tree loopguard
Enables loop guard on all ports. GC
spanning-tree max-age
Configures the spanning tree bridge maximum
age.
GC
spanning-tree max-hops
Sets the MSTP Max Hops parameter to a new
value for the common and internal spanning
tree.
GC
spanning-tree mode
Configures the spanning tree protocol. GC
spanning-tree mst
configuration
Enables configuring an MST region by entering
the multiple spanning-tree (MST) mode.
GC
spanning-tree mst cost
Configures the path cost for multiple spanning
tree (MST) calculations.
IC
spanning-tree mst port-
priority
Configures port priority. IC
spanning-tree mst priority
Configures the switch priority for the specified
spanning tree instance.
GC
spanning-tree portfast
Enables portfast mode. IC
Command Description Modea
Dell EMC Networking CLI 131
UDLD
spanning-tree portfast
bpdufilter default
Discards BPDUs received on spanningtree ports
in portfast mode.
GC
spanning-tree portfast
default
Enables portfast mode on all ports. GC
spanning-tree port-priority
(Interface Configuration)
Configures port priority. IC
spanning-tree priority
Configures the spanning tree priority. GC
spanning-tree tcnguard
Prevents a port from propagating topology
change notifications.
IC
spanning-tree transmit hold-
count
Set the maximum number of BPDUs that a
bridge is allowed to send within a hello time
window (2 seconds).
GC
spanning-tree uplinkfast
Configures the rate at which gratuitous frames
are sent after a switchover to an alternate port
and enables Direct Link Rapid Convergence.
GC
spanning-tree vlan
Enables per VLAN spanning tree on a VLAN. GC
spanning-tree vlan forward-
time
Configures the spanning tree forward delay time
for a specified VLAN or a range of VLANs.
GC
spanning-tree vlan hello-
time
Configures the spanning tree hello time for a
specified VLAN or a range of VLANs.
GC
spanning-tree vlan max-age
Configures the spanning tree maximum age
time for a set of VLANs.
GC
spanning-tree vlan root
Configures the switch to become the root
bridge or standby root bridge.
GC
spanning-tree vlan priority
Configures the bridge priority of a VLAN. GC
a. For the meaning of each Mode abbreviation, see
Mode Types
.
Command Description Modea
udld enable (Global
Configuration)
Globally enable UDLD. UDLD must be
globally enabled and enabled on an interface to
operate.
GC
Command Description Modea
Dell EMC Networking CLI 132
VLAN
udld reset
Resets (enable) all interfaces disabled by
UDLD.
PE
udld message time
Configures the interval between the
transmission of UDLD probe messages on ports
that are in the advertisement phase.
GC
udld timeout interval
Configures the interval for the receipt of ECHO
replies.
GC
udld enable (Interface
Configuration)
Enables UDLD on a specific interface. IC
udld port
Selects the UDLD operating mode on a specific
interface.
IC
show udld
Displays the global settings for UDLD. PE
a. For the meaning of each Mode abbreviation, see
Mode Types
.
Command Description Modea
interface vlan
Enters the VLAN interface configuration mode. GC
interface range vlan
Enters the interface configuration mode to
configure multiple VLANs.
GC
name (VLAN
Configuration)
Configures a name to a VLAN. IC
private-vlan
Defines a private VLAN association between
the primary and secondary VLANs.
VC
protocol group
Attaches a vlan-id to the protocol-based VLAN
identified by groupid.
VC
protocol vlan group
Adds the Ethernet interface to the protocol-
based VLAN identified by groupid.
IC
protocol vlan group all
Adds all Ethernet interfaces to the protocol-
based VLAN identified by groupid.
GC
show dot1q-tunnel
Displays the QinQ status for each interface. PE
show interfaces switchport
Displays switchport configuration. PE or
IC
Command Description Modea
Dell EMC Networking CLI 133
show port protocol
Displays the Protocol-Based VLAN information
for either the entire system or for the indicated
group.
PE
show switchport ethertype
Displays the configured Ethertype for each
interface.
PE
show vlan
Displays detailed information, including
interface information and dynamic vlan type,
for a specific VLAN.
PE
show vlan association mac
Displays the VLAN associated with a specific
configured MAC address.
PE
show vlan association subnet
Displays the VLAN associated with a specific
configured IP subnet.
PE
show vlan private-vlan
Displays information about the configured
private VLANs.
PE
switchport access vlan
Configures the VLAN ID when the interface is
in access mode.
IC
switchport dot1q ethertype
(Global Configuration)
Defines additional QinQ tunneling TPIDs for
matching in the outer VLAN tag of received
frames.
GC
switchport general forbidden
vlan
Forbids adding specific VLANs to a port. IC
switchport general
acceptable-frame-type
tagged-only
Discards untagged frames at ingress. IC
switchport general allowed
vlan
Adds or removes VLANs from a port in General
mode.
IC
switchport general ingress-
filtering disable
Disables port ingress filtering. IC
switchport general pvid
Configures the PVID when the interface is in
general mode.
IC
switchport mode
Configures the VLAN membership mode of a
port.
IC
Command Description Modea
Dell EMC Networking CLI 134
Voice VLAN
switchport mode private-
vlan
Defines a private VLAN association for an
isolated or community interface or a mapping
for a promiscuous interface.
IC
switchport mode dot1q-
tunnel
Enables QinQ tunneling on customer edge
(CE) interfaces.
IC
switchport private-vlan
Defines a private VLAN association for an
isolated or community port or a mapping for a
promiscuous port.
IC
switchport trunk
Adds or removes VLANs from a trunk port. IC
switchport trunk
encapsulation dot1q
Use this command for compatibility. This
command performs no action.
IC or
IR
vlan
Configures a VLAN. GC
vlan association mac
Associates a MAC address to a VLAN. VC
vlan association subnet
Associates an IP subnet to a VLAN. VC
vlan makestatic
Changes a GVRP dynamically created VLAN to
a static VLAN.
GC
vlan protocol group
Adds protocol-based VLAN groups to the
system.
GC
vlan protocol group add
protocol
Adds a protocol to the protocol-based VLAN
identified by groupid.
GC
vlan protocol group name
Adds a group name to the protocol-based VLAN
identified by groupid.
GC
vlan protocol group remove
Removes the protocol-base VLAN group
identified by groupid.
GC
a. For the meaning of each Mode abbreviation, see
Mode Types
.
Command Description Modea
voice vlan
Enables the voice VLAN capability on the
switch.
GG
voice vlan (Interface)
Enables the voice VLAN capability on the
interface.
IC
Command Description Modea
Dell EMC Networking CLI 135
Security Commands
AAA
voice vlan data priority
Trusts or not trusts the data traffic arriving on
the voice VLAN port.
IC
show voice vlan
Displays various properties of the voice VLAN. PE
a. For the meaning of each Mode abbreviation, see
Mode Types
.
Command Description Modea
aaa accounting
Creates an accounting method list GC
aaa authentication dot1x
default
Specifies an authentication method for 802.1x
clients.
GC
aaa authentication enable
Defines authentication method lists for
accessing higher privilege levels.
GC
aaa authentication login
Defines login authentication. GC
aaa authorization
Creates an authorization method list. GC
aaa authorization network
default radius
Enables the switch to accept VLAN assignment
by the RADIUS server.
GC
aaa ias-user username
Configures IAS users and their attributes. Also
changes the mode to aa user Configuration
mode.
GC
aaa new-model
This command is a no-op command. It is
present only for compatibility purposes.
GC
aaa server radius dynamic-
author
Enters radius dynamic authorization mode. GC
authentication enable
Globally enables the Authentication Manager. GC
authentication order
Sets the order of authentication methods used
on a port.
IC
authentication priority
Sets the priority for the authentication methods
used on a port.
IC
Command Description Modea
Dell EMC Networking CLI 136
authentication restart
Sets the interval after which reauthentication
starts.
IC
clear (IAS)
Deletes all IAS users. PE
clear authentication
statistics
Clears the authentication statistics. PE
clear authentication
authentication-history
Clears the authentication history logs. PE
enable password
Sets a local password to control access to the
normal level.
GC
ip http authentication
Specifies authentication methods for http. GC
ip https authentication
Specifies authentication methods for https. GC
password (AAA IAS User
Configuration)
Configures a password for a user. AAA
password (User Exec)
Specifies a user password UE
show aaa ias-users
Displays configured IAS users and their
attributes.
PE
show aaa statistics
Displays accounting statistics PE
show accounting methods
Displays the configured accounting method
lists.
PE
show authentication
Shows information about authentication
methods.
PE
show authentication
authentication-history
Displays the authentication history on one or
more interfaces.
PE
show authentication
methods
Displays information about the authentication
methods.
PE
show authentication
statistics
Displays the Authentication Manager statistics
on one or more interfaces.
PE
show authorization methods
Displays the configured authorization method
lists.
PE
show users accounts
Displays information about the local user
database.
PE
Command Description Modea
Dell EMC Networking CLI 137
Administrative Profiles
E-mail Alerting
show users login-history
Displays information about login histories of
users.
PE
username
Establishes a username-based authentication
system. Optionally allows the specification of an
Administrative Profile for a local user.
GC
username unlock
Transfers local user passwords between devices
without having to know the passwords.
GC
a. For the meaning of each Mode abbreviation, see
Mode Types
Command Description Modea
a. For the meaning of each Mode abbreviation, see
Mode Types
.
admin-profile
Creates an administrative profile. GC
description (Administrative
Profile Configuration)
Adds a description to an administrative profile. APC
rule
Adds a rule to an administrative profile. APC
show admin-profiles
Displays the administrative profiles. PE
show admin-profiles brief
Lists the names of the administrative profiles
defined on the switch.
PE
show cli modes
Lists the names of all the CLI modes. PE
show users
Shows which administrative profiles have been
assigned to local user accounts and to show
which profiles are active for logged-in users.
PE
username
Optionally allows the specification of an
Administrative Profile for a local user.
GC
Command Description Modea
logging email
Enables e-mail alerting and sets the lowest
severity level for which log messages are e-
mailed.
GC
Command Description Modea
Dell EMC Networking CLI 138
logging email urgent
Sets the lowest severity level at which log
messages are e-mailed in an urgent manner.
GC
logging email message-type
to-addr
Sets the lowest severity level at which SNMP
traps are logged.
GC
logging email message-type
to-addr
Configures the To address field of the e-mail. GC
logging email from-addr
Configures the From address of the e-mail. GC
logging email message-type
subject
Configures the subject. GC
logging email logtime
Configures the value of how frequently the
queued messages are sent.
GC
logging email test message-
type
Tests whether or not an e-mail is being sent to
an SMTP server.
GC
show logging email statistics
Displays information on how many e-mails are
sent, how many e-mails failed, when the last e-
mail was sent, how long it has been since the
last e-mail was sent, how long it has been since
the e-mail changed to disabled mode.
PE
clear logging email statistics
Clears the e-mail alerting statistics. GC
security
Sets the e-mail alerting security protocol. MSC
mail-server ip-address |
hostname
Configures the SMTP server IP address and
changes the mode to Mail Server Configuration
Mode.
GC
port (Mail Server
Configuration Mode)
Configures the TCP port to use for
communication with the SMTP servers.
MSC
username (Mail Server
Configuration Mode)
Configures the username required by the
authentication.
MSC
password (Mail Server
Configuration Mode)
Configures the password required to
authenticate to the e-mail server.
MSC
show mail-server
Displays the configuration of all the mail servers
or a particular mail server.
PE
a. For the meaning of each Mode abbreviation, see
Mode Types
.
Command Description Modea
Dell EMC Networking CLI 139
RADIUS
Command Description Modea
acct-port
Sets the port that connects to the RADIUS
accounting server.
R
attribute 6
Configures the switch to send the RADIUS
Service-Type attribute in the Access-Request
message sent to a specific RADIUS
authentication server.
R
attribute 8
Configures the switch to send the RADIUS
Framed-IP-Address attribute in the Access-
Request message sent to a specific RADIUS
authentication server.
R
attribute 25
Enables the switch to send the RADIUS Class
attribute as supplied by the RADIUS server in
accounting messages sent to the specific
accounting server.
R
attribute 31
Alters the format of the MAC address sent in
the Calling-Station-Id attribute to the RADIUS
server when authenticating using 802.1X MAC
based authentication for an interface.
R
authentication event fail
retry
Sets the number of times authentication may
be reattempted by the user for the RADIUS
method for an IEEE 802.1X supplicant.
GC
auth-port Sets the port number for authentication requests
of the designated radius server
.
R
deadtime
Improves Radius response times when a server is
unavailable by causing the unavailable server to
be skipped.
R
key Sets the authentication and encryption key for all
RADIUS communications between the switch
and the RADIUS daemon
.
R
msgauth
Enables the message authenticator attribute to
be used for the RADIUS Authenticating server
being configured.
R
name (RADIUS server)
Assigns a name to a RADIUS server. R
Dell EMC Networking CLI 140
primary
Specifies that a configured server should be the
primary server in the group of authentication
servers which have the same server name.
R
priority
Specifies the order in which the servers are to be
used, with 0 being the highest priority.
R
radius-server attribute 4
Sets the network access server (NAS) IP address
for the RADIUS server.
GC
radius-server attribute 6
Enables the switch to send the RADIUS
Service-Type attribute in authentication
messages sent to the authentication server.
GC
radius-server attribute 8
Enables the switch to send the RADIUS
Framed-IP-Address attribute in authentication
messages sent to the authentication server.
GC
radius-server attribute 25
Globally enables the switch to send the
RADIUS Class attribute as supplied by the
RADIUS server in accounting messages sent to
the accounting server.
GC
radius-server attribute 31
Globally enables the switch to send the
RADIUS Class attribute as supplied by the
RADIUS server in accounting messages sent to
the accounting server.
GC
radius-server deadtime
Improves RADIUS response times when servers
are unavailable. Causes the unavailable servers
to be skipped.
GC
radius-server host
Specifies a RADIUS server host. GC
radius-server key
Sets the authentication and encryption key for
all RADIUS communications between the
switch and the RADIUS daemon.
GC
radius-server retransmit
Specifies the number of times the software
searches the list of RADIUS server hosts.
GC
radius-server source-ip
Specifies the source IP address used for
communication with RADIUS servers.
GC
radius-server source-
interface
Selects the interface from which to use the IP
address in the source IP address field of
transmitted RADIUS packets.
GC
Command Description Modea
Dell EMC Networking CLI 141
TACACS+
radius-server timeout
Sets the interval for which a switch waits for a
RADIUS server to reply.
GC
retransmit
Specifies the number of times the software
searches the list of RADIUS server hosts before
stopping the search.
R
show aaa servers
Displays the list of configured RADIUS servers
and the values configured for the global
parameters of the RADIUS client.
UE or
PE
show radius statistics
Shows the statistics for an authentication or
accounting server.
UE or
PE
source-ip
Specifies the source IP address to be used for
communication with RADIUS servers.
R
timeout
Sets the timeout value in seconds for the
designated RADIUS server.
R
usage
Specifies the usage type of the server. R
a. For the meaning of each Mode abbreviation, see
Mode Types
.
Command Description Modea
key
Specifies the authentication and encryption key
for all TACACS communications between the
device and the TACACS server.
TC
port
Specifies a server port number. TC
priority
Specifies the order in which servers are used. TC
show tacacs
Displays TACACS+ server settings and
statistics.
PE
tacacs-server host
Specifies a TACACS+ server host. GC
tacacs-server key
Sets the authentication and encryption key for
all TACACS+ communications between the
switch and the TACACS+ daemon.
GC
Command Description Modea
Dell EMC Networking CLI 142
802.1x
tacacs-server source-
interface
Selects the interface from which to use the IP
address in the source IP address field of
transmitted TACACS packets.
GC
tacacs-server timeout
Sets the interval for which the switch waits for a
server host to reply.
GC
timeout
Specifies the timeout value in seconds. TC
a. For the meaning of each Mode abbreviation, see
Mode Types
.
Command Description Modea
dot1x dynamic-vlan enable
Enables the capability of creating VLANs
dynamically when a RADIUS-assigned VLAN
does not exist in the switch.
GC
dot1x eapolflood
Enables the flooding of received IEEE 802.1x
frames in the VLAN.
GC
dot1x initialize
Begins the initialization sequence on the
specified port.
PE
dot1x mac-auth-bypass
Enables MAB on an interface. IC
dot1x max-req
Sets the maximum number of times the switch
sends an EAP-request frame to the client before
restarting the authentication process.
IC
dot1x max-users
Sets the maximum number of clients supported
on the port when MAC-based 802.1X
authentication is enabled on the port.
IC
dot1x port-control
Enables manual control of the authorization
state of the port.
IC
dot1x re-authenticate
Manually initiates a reauthentication of all
802.1x-enabled ports or a specified 802.1X
enabled port.
PE
dot1x reauthentication
Enables periodic reauthentication of the client. IC
dot1x system-auth-control
monitor
Enables 802.1X globally. GC
Command Description Modea
Dell EMC Networking CLI 143
dot1x timeout guest-vlan-
period
Sets the number of seconds that the switch
waits before authorizing the client if the client
is a dot1x unaware client.
IC
dot1x timeout quiet-period
Sets the number of seconds the switch remains
in the quiet state following a failed
authentication attempt.
IC
dot1x timeout re-authperiod
Sets the number of seconds between
reauthentication attempts.
IC
dot1x timeout server-
timeout
Sets the number of seconds the switch waits for
a response from the authentication server
before resending the request.
IC
dot1x timeout supp-timeout
Sets the time that the switch waits for a
response before retransmitting an Extensible
Authentication Protocol (EAP)-request frame
to the client
IC
dot1x timeout tx-period
Sets the number of seconds the switch waits for
a response to an EAP-request/identify frame
from the client before resending the request.
IC
auth-type
Set the accepted authorization types for
dynamic RADIUS clients.
DRC
client
Sets the CoA client parameters. DRC
ignore
Sets the switch to ignore certain authentication
parameters from dynamic RADIUS clients.
DRC
port
Sets the port on which to listen for CoA and
disconnect requests from authorized dynamic
RADIUS clients.
DRC
server-key
Configures a global shared secret that is used for
all dynamic RADIUS clients that do not have an
individual shared secret configured.
DRC
show dot1x
Displays 802.1X status for the switch or the
specified interface.
PE
show dot1x authentication-
history
Displays the dot1x authentication events and
information during successful and unsuccessful
dot1x authentication processes.
PE
Command Description Modea
Dell EMC Networking CLI 144
Captive Portal
show dot1x clients
Displays detailed information about the users
who have successfully authenticated on the
system or on a specified port.
PE
show dot1x interface
Shows the status of MAC Authentication
Bypass.
PE
show dot1x interface
statistics
Displays 802.1X statistics for the specified
interface.
PE
show dot1x users
Displays active 802.1X authenticated users for
the switch.
PE
clear dot1x authentication–
history
Clears the authentication history table captured
during successful and unsuccessful
authentication.
PE
dot1x guest-vlan
Sets the guest VLAN on a port. IC
dot1x unauth-vlan
Specifies the unauthenticated VLAN on a port. IC
show dot1x advanced
Displays 802.1X advanced features for the
switch or specified interface.
PE
a. For the meaning of each Mode abbreviation, see
Mode Types
.
Command Description Modea
authentication timeout
Configures the authentication timeout. CP
captive-portal
Enables the captive portal configuration mode. GC
enable
Globally enables captive portal. CPI
http port
Configures an additional HTTP port for captive
portal to monitor.
CP
https port
Configures an additional HTTPS port for
captive portal to monitor.
CP
show captive-portal
Displays the status of captive portal. PE
show captive-portal status
Reports the status of all captive portal instances
in the system.
PE
Command Description Modea
Dell EMC Networking CLI 145
block
Blocks all traffic for a captive portal
configuration.
CPI
configuration
Enables the captive portal instance mode. CP
enable
Enables a captive portal configuration. CPI
group
Configures the group number for a captive
portal configuration.
CPI
interface
Associates an interface with a captive portal
configuration.
CPI
locale
Associates an interface with a captive portal
configuration.
CPI
name (Captive Portal)
Configures the name for a captive portal
configuration.
CPI
protocol
Configures the protocol mode for a captive
portal configuration.
CPI
redirect
Enables the redirect mode for a captive portal
configuration.
CPI
redirect-url
Configures the redirect URL for a captive portal
configuration.
CPI
session-timeout
Configures the session timeout for a captive
portal configuration.
CPI
verification
Configures the verification mode for a captive
portal configuration.
CPI
captive-portal client
deauthenticate
De-authenticates a specific captive portal
client.
PE
show captive-portal client
status
Displays client connection details or a
connection summary for connected captive
portal users.
PE
show captive-portal
configuration client status
Displays the clients authenticated to all captive
portal configurations or a to specific
configuration.
PE
show captive-portal
interface client status
Displays information about clients
authenticated on all interfaces or a specific
interface.
PE
Command Description Modea
Dell EMC Networking CLI 146
show captive-portal
interface configuration
status
Displays the clients authenticated to all captive
portal configurations or a to specific
configuration.
PE
clear captive-portal users
Deletes all captive portal user entries. PE
no user
Deletes a user from the local user database. CP
show captive-portal user
Displays all configured users or a specific user in
the captive portal local user database.
PE
user group
Associates a group with a captive portal user. CP
user-logout
Enables captive portal users to log out of the
portal.
CPI
user name
Modifies the user name for a local captive portal
user.
CP
user password
Creates a local user or changes the password for
an existing user.
CP
user session-timeout
Sets the session timeout value for a captive
portal user.
CP
show captive-portal
configuration
Displays the operational status of each captive
portal configuration.
PE
show captive-portal
configuration interface
Displays information about all interfaces
assigned to a captive portal configuration or
about a specific interface assigned to a captive
portal configuration.
PE
show captive-portal
configuration locales
Displays locales associated with a specific
captive portal configuration.
PE
show captive-portal
configuration status
Displays information about all configured
captive portal configurations or a specific
captive portal configuration.
PE
user group
Creates a user group. CP
user group moveusers
Moves a group's users to a different group. CP
user group name
Configures a group name. CP
a. For the meaning of each Mode abbreviation, see
Mode Types
.
Command Description Modea
Dell EMC Networking CLI 147
Denial of Service
Management ACL
Command Description Modea
a. For the meaning of each Mode abbreviation, see
Mode Types
.
dos-control firstfrag
Enables Minimum TCP Header Size Denial of
Service protection.
GC
dos-control icmp
Enables Maximum ICMP Packet Size Denial of
Service protections.
GC
dos-control l4port
Enables L4 Port Denial of Service protection. GC
dos-control sipdip
Enables Source IP Address = Destination IP
Address (SIP=DIP) Denial of Service protection.
GC
dos-control tcpflag
Enables TCP Flag Denial of Service protections. GC
dos-control tcpfrag
Enables TCP Fragment Denial of Service
protection.
GC
rate-limit cpu
Configures the rate in packets-per-second for the
number of IPv6 data packets trapped to CPU
when the packet fails to be forwarded in the
hardware due to unresolved hardware address of
the destined IPv6 node.
GC
show dos-control
Displays Denial of Service configuration
information.
PE
show system internal
pktmgr
Displays the configured CPU rate limit for
unknown packets in packets per second.
PE
storm-control broadcast
Enables Broadcast storm control. IC
storm-control multicast
Enables the switch to count Multicast packets
together with Broadcast packets.
IC
storm-control unicast
Enables Unicast storm control. IC
Command Description Modea
deny (management)
Defines a deny rule. MA
management access-class
Defines which management access-list is used. GC
Dell EMC Networking CLI 148
Password Management
management access-list
Defines a management access-list, and enters
the access-list for configuration.
GC
permit (management)
Defines a permit rule. MA
show management access-
class
Displays the active management access-list. PE
show management access-
list
Displays management access-lists. PE
a. For the meaning of each Mode abbreviation, see
Mode Types
.
Command Description Modea
passwords aging
Implements aging on the passwords such that
users are required to change passwords when
they expire.
GC
passwords history
Enables the administrator to set the number of
previous passwords that are stored to ensure
that users do not reuse their passwords too
frequently.
GC
passwords lock-out
Enables the administrator to strengthen the
security of the switch by enabling the user
lockout feature. When a lockout count is
configured, a user who is logging in must enter
the correct password within that count.
GC
passwords min-length
Enables the administrator to enforce a
minimum length required for a password.
GC
passwords strength-check
Enables the Password Strength feature. GC
passwords strength
minimum uppercase-letters
Enforces a minimum number of uppercase
letters that a password should contain.
GC
passwords strength
minimum lowercase-letters
Enforces a minimum number of lowercase
letters that a password must contain.
GC
passwords strength
minimum numeric-
characters
Enforces a minimum number of numeric
numbers that a password should contain.
GC
Command Description Modea
Dell EMC Networking CLI 149
SSH
passwords strength
minimum special-characters
Enforces a minimum number of special
characters that a password may contain.
GC
passwords strength max-
limit consecutive-characters
Enforces a maximum number of consecutive
characters that a password can contain.
GC
passwords strength max-
limit repeated-characters
Enforces a maximum repeated characters that a
password should contain.
GC
passwords strength
minimum character-classes
Enforces the minimum number of character
classes (uppercase letters, lowercase letters,
numeric characters and special characters) that
a password must contain.
GC
passwords strength exclude-
keyword
Enforces a maximum number of consecutive
characters that a password can contain.
GC
enable password encrypted
Used by an Administrator to transfer the enable
password between devices without having to
know the password.
PE
show passwords
configuration
Displays the configuration parameters for
password configuration.
PE
show passwords result
Displays the last password set result
information.
PE
a. For the meaning of each Mode abbreviation, see
Mode Types
.
Command Description Modea
crypto key generate dsa
Generates DSA key pairs for the switch. GC
crypto key generate rsa
Generates RSA key pairs for the switch. GC
crypto key pubkey-chain ssh
Enters SSH Public Key-chain configuration
mode.
GC
crypto key zeroize pubkey-
chain
Erases all public key chains or the public key
chain for a user.
GC
crypto key zeroize {rsa|dsa}
Deletes the RSA or DSA keys from the switch. GC
ip ssh port
Specifies the port to be used by the SSH server. GC
Command Description Modea
Dell EMC Networking CLI 150
Audio Visual Bridging Commands
MMRP
ip ssh pubkey-auth
Enables public key authentication for incoming
SSH sessions.
GC
ip ssh server
Enables the switch to be configured from a SSH
server connection.
GC
key-string
Manually specifies a SSH public key. SK
show crypto key mypubkey
Displays its own SSH public keys stored on the
switch.
PE
show crypto key pubkey-
chain ssh
Displays SSH public keys stored on the switch. PE
show ip ssh
Displays the SSH server configuration. PE
a. For the meaning of each Mode abbreviation, see
Mode Types
.
Command Description Modea
a. For the meaning of each Mode abbreviation, see
Mode Types
.
clear mmrp statistics
Clears the MMRP statistics for an interface or
all interfaces.
PE
mmrp
Enables MMRP on a specific interface. IC or
IR
mmrp global
Globally enables MMRP. GC
mmrp periodic state
machine
Globally enables the MMRP periodic state
machine.
GC
show mmrp
Displays the MMRP configuration for an
interface or globally.
PE or
GC
show mmrp statistics
Displays the MMRP statistics for an interface
or globally.
PE or
GC
Command Description Modea
Dell EMC Networking CLI 151
MVRP
MSRP
Command Description Modea
a. For the meaning of each Mode abbreviation, see
Mode Types
.
clear mmrp statistics
Clears the MVRP statistics for an interface or
all interfaces.
PE
mmrp
Enables MVRP on a specific interface. IC
IR
mmrp global
Globally enables MVRP. GC
mmrp periodic state
machine
Globally enables the MVRP periodic state
machine.
GC
show mmrp
Displays the MVRP configuration for an
interface or globally.
PE
GC
show mmrp statistics
Displays the MVRP statistics for an interface
or globally.
PE
GC
Command Description Modea
clear msrp statistics
Clears the MSRP statistics for an interface or
all interfaces.
PE
msrp (Interface)
Enables MSRP on a specific interface. IC
msrp boundary-propagate
Configures the IEEE 802.1Qav boundary
propagation.
GC
msrp delta-bw
Configures the MSRP VLAN ID for the SR
traffic class on the interface.
IC
msrp global
Globally enables MSRP. GC
msrp max-fan-in-ports
Configures the fan-in value used in calculating
available bandwidth.
GC
msrp srclass-pvid
Configures the MSRP VLAN ID for the SR
traffic class on the interface.
IC
msrp srclassqav
Configures the IEEE 802.1Qav class priority
map.
GC
Dell EMC Networking CLI 152
802.1AS Timesync
msrp talker-pruning
Enables source pruning. GC
show msrp
Displays the MSRP configuration for an
interface or globally.
PE or
GC
show msrp reservations
Displays the MSRP reservation information for
an interface.
PE or
GC
show msrp statistics
Displays the MSRP statistics for an interface
or globally.
PE or
GC
show msrp stream
Displays MSRP stream information. PE or
GC
a. For the meaning of each Mode abbreviation, see
Mode Types
.
Command Description Modea
clear dot1as statistics
Clears the IEEE 802.1AS statistics for an
interface or all interfaces.
PE
dot1x dynamic-vlan enable
Globally enables IEEE 802.1AS. GC
dot1as (Interface
Configuration)
Enables IEEE 802.1AS on an interface. IC
dot1as priority
Globally configures the priority 1 or priority 2
value.
GC
dot1as interval announce
Configures the initial log announcement
interval for an interface.
IC
dot1as interval sync
Configures the sync interval for an interface. IC
dot1as interval pdelay
Configures the pdelay interval for an interface. IC
dot1as timeout announce
Configures the number of announce intervals
expiries with no received announce message in
which case the master is considered to be no
longer transmitting.
IC
dot1as timeout sync
Configures the number of sync intervals
expiries with no received announce message in
which case the master is considered to be no
longer transmitting.
IC
Command Description Modea
Dell EMC Networking CLI 153
Data Center Commands
Data Center Bridging
dot1as pdelay-threshold
Configures the propagation delay threshold in
nanoseconds, above which an interface is not
considered capable of participating in the
802.1AS protocol.
IC
dot1as interval pdelay-loss
Configures the number of Pdelay_Req messages
for which a valid response has not been
received, above which a port is considered to
not be exchanging peer delay messages with its
neighbor.
IC
show dot1as
Displays the IEEE 802.1AS configuration for
an interface or globally.
PE
show dot1as statistics
Displays the IEEE 802.1AS statistics for an
interface.
PE
a. For the meaning of each Mode abbreviation, see
Mode Types
.
Command Description Modea
datacenter-bridging
Enables an Ethernet interface to enter
DataCenterBridging mode.
IC
lldp dcbx version
Configures the administrative version for the
Data Center Bridging Capability Exchange
(DCBX) protocol.
GC
lldp tlv-select dcbxp (dcb
enable)
Enables the LLDP to send DCBX TLVs, if
LLDP is enabled to transmit on the given
interface.
GC or
IC
lldp dcbx port-role
Configures the port role to manual, auto-
upstream, auto-downstream and configuration
source.
IC
show lldp tlv-select
Displays the Traffic Class to Traffic Class Group
mapping.
PE
Command Description Modea
Dell EMC Networking CLI 154
OpenFlow
show lldp dcbx
Displays the Traffic Class to Traffic Class Group
mapping.
PE
classofservice traffic-class-
group
Maps the internal Traffic Class to an internal
Traffic Class Group (TCG).
GC or
IC
traffic-class-group max-
bandwidth
Specifies the maximum transmission
bandwidth limit for each TCG as a percentage
of the interface rate.
GC or
IC
traffic-class-group min-
bandwidth
Specifies the minimum transmission bandwidth
guaranteed for each TCG before processing
frames from other TCGs on an interface.
GC or
IC
traffic-class-group strict
Activates the strict priority scheduler mode for
each specified TCG.
GC or
IC
traffic-class-group weight
Specifies the scheduling weight for each TCG. GC or
IC
show classofservice traffic-
class-group
Displays the Traffic Class to Traffic Class Group
mapping.
PE
show interfaces traffic
Displays traffic information. PE
show interfaces traffic-class-
group
Displays the Traffic Class to Traffic Class Group
mapping.
PE
a. For the meaning of each Mode abbreviation, see
Mode Types
.
Command Description Modea
controller
Configures a connection to an OpenFlow
controller
OFC
hardware profile openflow
Selects the forwarding mode for the OpenFlow
hybrid capability.
GC
ipv4 address
Assigns the IPv4 source address utilized for
controller connections.
OFC
mode
Configures the selection of interfaces used to
assign the IP address utilized for controller
connections.
OFC
Command Description Modea
Dell EMC Networking CLI 155
Priority Flow Control
Layer 3 Routing Commands
ARP (IPv4)
openflow
Enables OpenFlow on the switch (if disabled)
and enters into OpenFlow configuration mode.
GC
passive
Sets the switch to wait for the controller to
initiate the connection.
OFC
protocol-version
Selects the version of the protocol in which to
operate.
OFC
show openflow
Displays OpenFlow configuration and status. PE,
GC
a. For the meaning of each Mode abbreviation, see
Mode Types
.
Command Description Modea
a. For the meaning of each Mode abbreviation, see
Mode Types
.
Data Center Bridging
Capability Exchange
Commands
Enables Priority-Flow-Control (PFC) on an
interface.
DCB
priority-flow-control priority
Enables the priority group for lossless (no-drop)
or lossy (drop) behavior on the selected
interface.
DCB
clear priority-flow-control
statistics
Clears all or interface Priority-Flow-Control
statistics.
PE
show interfaces priority-
flow-control
Displays the global or interface priority flow
control status and statistics.
PE
Command Description Modea
arp
Creates an Address Resolution Protocol (ARP)
entry.
GC
Command Description Modea
Dell EMC Networking CLI 156
BFD
arp cachesize
Configures the maximum number of entries in
the ARP cache.
GC
arp dynamicrenew
Enables the ARP component to automatically
renew dynamic ARP entries when they age out.
GC
arp purge
Causes the specified IP address to be removed
from the ARP cache.
PE
arp resptime Configures the ARP request response timeout.
GC
arp retries
Configures the ARP count of maximum request
for retries.
GC
arp timeout
Configures the ARP entry age-out time. GC
clear arp-cache
Removes all ARP entries of type dynamic from
the ARP cache.
PE
clear arp-cache management
Removes all entries from the ARP cache learned
from the management port.
PE
ip local-proxy-arp
Enables proxying of ARP requests. IC
ip proxy-arp
Enables proxy ARP on a router interface. IC
show arp
Displays the Address Resolution Protocol (ARP)
cache.
PE
a. For the meaning of each Mode abbreviation, see
Mode Types
.
Command Description Modea
feature bfd
Enables BFD on the router. GC
bfd echo
Enables BFD echo mode on an interface. IC
bfd interval
Configures BFD session parameters for a VLAN
routing interface.
IC
bfd slow-timer
Configures the BFD periodic slow transmission
interval for BFD Control packets.
GC
ip ospf bfd
Enable sending of BFD events to OSPF on a
VLAN routing interface.
IC
Command Description Modea
Dell EMC Networking CLI 157
BGP
ipv6 ospf bfd
Enables sending of BFD events to OSPF on a
VLAN routing interface.
IC
neighbor fall-over bfd
Enables BFD support for a BGP neighbor. RBC
show bfd neighbor
Displays the neighbors for which BFD has
established adjacencies.
PE or
GC
a. For the meaning of each Mode abbreviation, see
Mode Types
.
Command Description Modea
router bgp
Enables BGP and identify the autonomous
system (AS) number for the router.
GC
address-family
Configures policy parameters within a peer
template to be applied to a specific address
family
PTC
address-family ipv4 vrf
address-family ipv6
Specifies IPv6 configuration parameters. BR
aggregate-address
Configures a summary address for BGP. BR or
IPAF
bgp aggregate-different-
meds (BGP Router
Configuration)
Controls the aggregation of routes with
different multi-exit discriminator (MED)
attributes.
BR
bgp aggregate-different-
meds (IPv6 Address Family
Configuration)
Allows IPv6 routes with different MEDs to be
aggregated.
IPAF
bgp always-compare-med
Compares MED values during the decision
process in paths received from different
autonomous systems.
BR
IPAF
bgp client-to-client
reflection (BGP Router
Configuration)
Enables client-to-client reflection. BR
bgp client-to-client
reflection (IPv6 Address
Family Configuration)
Enables client-to-client reflection. IPAF
Command Description Modea
Dell EMC Networking CLI 158
bgp cluster-id
Specifies the cluster ID of a route reflector. BR
bgp default local-preference
Enables the network operator to specify the
default local preference.
BR
bgp fast-external-fallover
Configures BGP to immediately reset the
adjacency with an external peer if the routing
interface to the peer goes down.
BR
bgp fast-internal-fallover
Configures BGP to immediately reset the
adjacency with an internal peer when there is a
loss of reachability to an internal peer.
BR
bgp listen
Creates an IPv4 listen range and associates it
with the specified peer template.
BR,
IPAF
bgp log-neighbor-changes
Enables logging of adjacency state changes. BR
bgp maxas-limit
Specifies a limit on the length of AS Paths that
BGP accepts from its neighbors.
BR
bgp router-id
Sets the BGP router ID. BR
clear ip bgp
Resets peering sessions with all of a subnet of
BGP peers.
PE
clear ip bgp counters
Resets all BGP counters to 0. PE
default-information
originate (BGP Router
Configuration)
Enables BGP to originate a default route. BR
default-information
originate (IPv6 Address
Family Configuration)
Allows BGP to originate an IPv6 default route. IPAF
default metric (BGP Router
Configuration)
Sets the value of the MED attribute on routes
redistributed into BGP when no metric has
been specified.
BR
default metric (IPv6 Address
Family Configuration)
Sets the metric of redistributed IPv6 routes
when a metric is not configured in the
redistribute command.
IPAF
distance
Sets the preference of BGP routes to specific
destinations.
IPAF
Command Description Modea
Dell EMC Networking CLI 159
distance bgp (BGP Router
Configuration)
Sets the preference of BGP routes. BR
distance bgp (IPv6 Address
Family Configuration)
Sets the preference of BGP routes. IPAF
distribute-list prefix in
Configures a filter that restricts the routes that
BGP accepts from all neighbors based on
destination prefix.
BR
IPAF
distribute-list prefix out
(BGP Router
Configuration)
Configures a filter that restricts the
advertisement of routes based on destination
prefix.
BR
distribute-list prefix out
(IPv6 Address Family
Configuration)
Applies an IPv6 prefix list to IPv6 routes
advertised via BGP.
IPAF
enable
Globally enables BGP. BR
ip as-path access-list
Creates an AS path access list. GC
ip bgp-community new-
format
Displays BGP standard communities in AA:NN
format.
GC
ip bgp fast-external-fallover
Configures fast external failover behavior for a
specific routing interface.
IC
ip community-list
Creates or configures a BGP community list. GC
ip extcommunity-list
Creates an extended community list to
configure VRF route filtering.
GC
match extcommunity
Matches BGP extended community list
attributes.
RM
maximum-paths (BGP
Router Configuration)
Specifies the maximum number of next hops
BGP may include in an Equal Cost Multipath
(ECMP) route derived from paths received
from neighbors outside the local autonomous
system.
BR
maximum-paths (IPv6
Address Family
Configuration)
Limits the number of ECMP next hops in IPv6
routes from external peers.
IPAF
Command Description Modea
Dell EMC Networking CLI 160
maximum-paths ibgp (BGP
Router Configuration)
Specifies the maximum number of next hops
BGP may include in an Equal Cost Multipath
(ECMP) route derived from paths received
from neighbors within the local autonomous
system.
BR
maximum-paths ibgp (IPv6
Address Family
Configuration)
Limits the number of ECMP next hops in IPv6
routes from internal peers.
IPAF
neighbor activate
Enables the exchange of IPv6 routes with a
neighbor.
IPAF,
IPAF4
neighbor advertisement-
interval (BGP Router
Configuration)
Configures the minimum time that must elapse
between advertisements of the same route to a
given neighbor.
BR
neighbor advertisement-
interval (IPv6 Address
Family Configuration)
Controls the time between sending Update
messages containing IPv6 routes.
IPAF
neighbor allowas-in
Configures BGP to accept prefixes even if the
local ASN is part of the AS_PATH.
BR
neighbor connect-retry-
interval
Configure the initial connection retry time for a
specific neighbor.
BR
neighbor default-originate
(BGP Router
Configuration)
Configures BGP to originate a default route to a
specific neighbor.
BR
neighbor default-originate
(IPv6 Address Family
Configuration)
Configures BGP to originate a default IPv6
route to a specific neighbor.
IPAF
neighbor description
Records a text description of a neighbor. BR
neighbor ebgp-multihop
Configures BGP to form neighborship with
external peers that are not directly connected.
BR,
IPAF
neighbor filter-list (BGP
Router Configuration)
Filters advertisements to or from a specific
neighbor according to the advertisement’s AS
Path.
BR
neighbor filter-list (IPv6
Address Family
Configuration)
Filters BGP to apply an AS path access list to
UPDATE messages received from or sent to a
specific neighbor.
IPAF
Command Description Modea
Dell EMC Networking CLI 161
neighbor inherit peer
Configures a BGP peer to inherit peer
configuration parameters from a peer template.
BR
neighbor local-as
Configures BGP to advertise the local-as instead
of the router’s own AS in the routes advertised
to the neighbor.
BR,
IPAF
neighbor maximum-prefix
(BGP Router
Configuration)
Configures the maximum number of IPv4
prefixes that BGP will accept from a specified
neighbor.
BR
neighbor maximum-prefix
(IPv6 Address Family
Configuration)
Specifies the maximum number of IPv6 prefixes
that BGP will accept from a given neighbor.
IPAF
neighbor next-hop-self
(BGP Router
Configuration)
Configures BGP to set the next hop attribute to
a local IP address when advertising a route to an
internal peer.
BR
neighbor next-hop-self (IPv6
Address Family
Configuration)
Configures BGP to use a local address as the
IPv6 next hop when advertising IPv6 routes to a
specific peer.
IPAF
neighbor password
Enables MD5 authentication of TCP segments
sent to and received from a neighbor, and to
configure an authentication key.
BR
neighbor prefix-list (BGP
Router Configuration)
Filters advertisements sent to a specific
neighbor based on the destination prefix of each
route.
BR
neighbor prefix-list (IPv6
Address Family
Configuration)
Specifies an IPv6 prefix list to filter routes
received from or advertised to a given peer.
IPAF
neighbor remote-as
Configures a neighbor and identify the
neighbor’s autonomous system.
BR
neighbor remove-private-as
Removes private AS numbers when advertising
IPv4 routes to an external peer.
BR
neighbor rfc5549-support
Enables advertisement of IPv4 routes over IPv6
next hops selectively to an external BGP IPv6
peer.
BR
neighbor route-map (BGP
Router Configuration)
Applies a route map to incoming or outgoing
routes for a specific neighbor.
BR
Command Description Modea
Dell EMC Networking CLI 162
neighbor route-map (IPv6
Address Family
Configuration)
Specifies a route map to be applied to inbound
or outbound IPv6 routes.
IPAF
neighbor route-reflector-
client (BGP Router
Configuration)
Configures an internal peer as an IPv4 route
reflector client.
BR
neighbor route-reflector-
client (IPv6 Address Family
Configuration)
Configures an internal peer as an IPv4 route
reflector client.
IPAF
neighbor send-community
(BGP Router
Configuration)
Configures the local router to send the BGP
communities attribute in UPDATE messages to
a specific neighbor.
BR
neighbor send-community
(IPv6 Address Family
Configuration)
Tells BGP to send the COMMUNITIES
attribute with routes advertised to the peer.
IPAF
neighbor shutdown
Administratively disables communications with
a specific BGP neighbor.
BR,
IPAF
neighbor timers
Overrides the global keepalive and hold timer
values as well as set the keepalive and hold
timers for a specific neighbor.
BR
neighbor update-source
Configures BGP to use a specific IP address as
the source address for the TCP connection with
a neighbor.
BR
network (BGP Router
Configuration)
Configures BGP to advertise an address prefix. BR
network (IPv6 Address
Family Configuration)
Identifies network IPv6 prefixes that BGP
originates in route advertisements to its
neighbors.
IPAF
redistribute (BGP)
Configures BGP to advertise routes learned by
means outside of BGP. BGP can redistribute
local (connected), static, OSPF, and RIP routes.
BR
redistribute (BGP IPv6)
Configures BGP to redistribute non-BGP routes
from the IPv6 routing table.
IPAF
Command Description Modea
Dell EMC Networking CLI 163
route-target
Creates a list of export, import, or both route
target (RT) extended communities for the
specified VRF instance.
PE
set extcommunity rt
Sets BGP extended community attributes for
the route target.
RMC
set extcommunity soo
Sets BGP extended community attributes for
the site of origin.
RMC
show bgp ipv6
Displays IPv6 routes in the BGP routing table. UE,
PE,
GC
show bgp ipv6 aggregate-
address
Displays the configured IPv6 aggregate
addresses and indicates if each address is
currently active.
PE
show bgp ipv6 community
Displays the IPv6 routes that belong to the
specified set of communities.
PE
show bgp ipv6 community-
list
Displays the IPv6 routes that match a specified
community list.
PE
show bgp ipv6 listen range
Displays information about IPv6 BGP listen
ranges.
PE
show bgp ipv6 neighbors
Displays neighbors with IPv4 or IPv6 peer
addresses that are enabled for the exchange of
IPv6 prefixes.
PE
show bgp ipv6 neighbors
advertised-routes
Displays IPv6 routes advertised to a specific
neighbor.
PE
show bgp ipv6 neighbors
policy
Displays the inbound and outbound IPv6
policies configured for a specific peer.
PE
show bgp ipv6 neighbors
received-routes
Displays a list of IPv6 routes received from a
specific neighbor.
PE
show bgp ipv6 statistics
Displays statistics for the IPv6 decision process. UE,
PE,
GC
show bgp ipv6 summary
Displays a summary of BGP configuration and
status.
UE,
PE,
GC
Command Description Modea
Dell EMC Networking CLI 164
show bgp ipv6 update-group
Reports the status of IPv6 outbound groups and
their members.
PE
show bgp ipv6 route-
reflection
Displays a summary of BGP route reflection. PE
show ip bgp
Displays BGP routes. UE
show ip bgp aggregate-
address
Lists the aggregate addresses that have been
configured and indicates whether each is
currently active.
PE
show ip bgp community
Displays a BGP community. PE
show ip bgp community-list
Lists the routes that are allowed by the specified
community list.
PE
show ip bgp extcommunity-
list
Displays all the permit and deny attributes of
the given extended community list.
PE,
GC
show ip bgp listen range
Displays information about IPv4 BGP listen
ranges.
PE
show ip bgp neighbors
Shows details about BGP neighbor
configuration and status.
UE
show ip bgp neighbors
advertised-routes
Displays the list of routes advertised to a
specific neighbor.
PE
show ip bgp neighbors
received-routes
Displays the list of routes received from a
specific neighbor.
PE
show ip bgp neighbors policy
Displays the inbound and outbound IPv4
policies configured for a specific peer.
PE
show ip bgp route-reflection
Displays all global configuration related to IPv4
route reflection, including the cluster ID and
whether client-to-client route reflection is
enabled, and lists all the neighbors that are
configured as route reflector clients.
PE
show ip bgp statistics
Displays recent decision process history. UE
show ip bgp summary
Displays a summary of BGP configuration and
status.
UE
show ip bgp template
Lists the routes that are allowed by the specified
community list.
PE
Command Description Modea
Dell EMC Networking CLI 165
BGP Routing Policy
show ip bgp traffic
Lists the routes that are allowed by the specified
community list.
UE
show ip bgp update-group
Reports the status of IPv4 outbound update
groups and their members.
PE
show ip bgp vpn4
Displays the VPNv4 address information from
the BGP table.
PE,
GC
template peer
Creates a BGP peer template and enters peer
template configuration mode.
BR
timers bgp
Configures the default keepalive and hold
timers that BGP uses for all neighbors unless
specifically overridden by the neighbor timers
command.
BR
a. For the meaning of each Mode abbreviation, see
Mode Types
.
Command Description Modea
ip as-path access-list
Create an AS path access list. GC
ip bgp-community new-
format
Displays BGP standard communities in AA:NN
format.
GC
ip community-list
Creates or configures a BGP community list. GC
ip prefix-list
Creates a prefix list or adds a prefix list entry. GC
ip prefix-list description
Applies a text description to a prefix list. GC
ipv6 prefix-list
Creates an IPv6 prefix list or add an IPv6 prefix
list entry.
GC
match as-path
Adds criteria that matches BGP autonomous
system paths against an AS path access list to a
route map.
RM
match community
Configures a route map to match based on a
BGP community list.
RM
match ip address prefix-list
Configures a route map to match based on a
destination prefix.
RM
Command Description Modea
Dell EMC Networking CLI 166
DHCP Server and Relay Agent (IPv4)
match ipv6 address prefix-
list
Configures a route map to match based on an
IPv6 destination prefix.
RM
show ip as-path-access-list
Displays the contents of AS path access lists. PE or
GC
show ip community-list
Displays the contents of AS path access lists. PE or
GC
show ip prefix-list
Displays the contents of IPv4 prefix lists. PE or
GC
show ipv6 prefix-list
Displays the contents of IPv6 prefix lists. PE or
GC
clear ip prefix-list
Resets the IPv4 prefix-list counters. PE
clear ipv6 prefix-list
Resets the IPv6 prefix-list counters. PE
clear ip community-list
Resets the IPv6 prefix-list counters. PE
set as-path
Prepends one or more AS numbers to the AS
path in a BGP route.
RC
set comm-list delete
Removes BGP communities from an inbound
or outbound UPDATE message.
RM
set community
Modifies the communities attribute of
matching routes.
RM
set ipv6 next-hop (BGP)
Sets the IPv6 next hop of a route. RM
set local-preference
Sets the local preference of specific BGP routes. RM
set metric
Sets the metric of a route. RM
a. For the meaning of each Mode abbreviation, see
Mode Types
.
Command Description Modea
ip dhcp pool
Defines a DHCP address pool that can be used
to supply addressing information to DHCP
client. This command puts the user into DHCP
Pool Configuration mode.
GC
Command Description Modea
Dell EMC Networking CLI 167
bootfile
Sets the name of the image for the DHCP
client to load.
DP
clear ip dhcp binding
Removes automatic DHCP server bindings. PE
clear ip dhcp conflict
Removes DHCP server address conflicts. PE
client-identifier
Identifies a a Microsoft® DHCP client to be
manually assigned an address.
DP
client-name
Specifies the host name of a DHCP client. DP
default-router
Sets the IPv4 address of one or more routers for
the DHCP client to use.
DP
dns-server (IP DHCP Pool
Config)
Sets the IPv4 DNS server address which is
provided to a DHCP client by the DHCP server.
DP
domain-name (IP DHCP
Pool Config)
Sets the DNS domain name which is provided
to a DHCP client by the DHCP server.
DP
hardware-address
Specifies the MAC address of a client to be
manually assigned an address.
DP
host
Specifies a manual binding for a DHCP client
host.
DP
ip dhcp bootp automatic
Enables automatic BOOTP address
assignments.
GC
ip dhcp conflict logging
Enables DHCP address conflict detection. GC
ip dhcp excluded-address
Excludes one or more DHCP addresses from
automatic assignment.
GC
ip dhcp ping packets
Configures the number of pings sent to detect if
an address is in use prior to assigning an address
from the DHCP pool.
GC
lease
Sets the period for which a dynamically
assigned DHCP address is valid.
DP
netbios-name-server
Configures the IPv4 address of the Windows®
Internet Naming Service (WINS) for a
Microsoft DHCP client.
DP
netbios-node-type
Sets the NetBIOS node type for a Microsoft
DHCP client.
DP
Command Description Modea
Dell EMC Networking CLI 168
DHCPv6
network
Defines a pool of IPv4 addresses for distributing
to clients.
DP
next-server
Sets the IPv4 address of the TFTP server to be
used during auto-install.
DP
option
Supplies arbitrary configuration information to
a DHCP client.
DP
service dhcp
Enables local IPv4 DHCP server on the switch. GC
sntp
Sets the IPv4 address of the NTP server to be
used for time synchronization of the client.
DP
show ip dhcp binding
Displays the configured DHCP bindings. PE
show ip dhcp conflict
Displays DHCP address conflicts for all relevant
interfaces or a specified interface.
PE
show ip dhcp global
configuration
Displays the DHCP global configuration. PE
show ip dhcp pool
Displays the configured DHCP pool or pools. UE or
PE
show ip dhcp server statistics
Displays the DHCP server binding and message
counters.
PE
a. For the meaning of each Mode abbreviation, see
Mode Types
.
Command Description Modea
clear ipv6 dhcp
Clears DHCPv6 statistics for all interfaces or for
a specific interface.
PE
dns-server (IPv6 DHCP Pool
Config)
Sets the IPv6 DNS server address which is
provided to a DHCPv6 client by the DHCPv6
server.
v6DP
domain-name (IPv6 DHCP
Pool Config)
Sets the DNS domain name which is provided
to a DHCPv6 client by the DHCPv6 server.
v6DP
ipv6 dhcp pool
Enters IPv6 DHCP Pool Configuration mode. GC
ipv6 dhcp relay
Configures an interface for DHCPv6 Relay
functionality.
IC
Command Description Modea
Dell EMC Networking CLI 169
DHCPv6 Snooping
ipv6 dhcp server
Configures DHCPv6 server functionality on an
interface.
IC
prefix-delegation
Defines Multiple IPv6 prefixes within a pool for
distributing to specific DHCPv6 Prefix
delegation clients.
v6DP
service dhcpv6
Enables DHCPv6 configuration on the router. GC
show ipv6 dhcp
Displays the DHCPv6 server name and status. PE
show ipv6 dhcp binding
Displays the configured DHCP pool. PE
show ipv6 dhcp interface
(User Exec)
Displays DHCPv6 information for all relevant
interfaces or a specified interface.
UE
show ipv6 dhcp interface
(Privileged Exec)
Displays DHCPv6 information for all relevant
interfaces or a specified interface.
PE
show ipv6 dhcp pool
Displays the configured DHCP pool. PE
show ipv6 dhcp statistics
Displays the DHCPv6 server name and status. UE
a. For the meaning of each Mode abbreviation, see
Mode Types
.
Command Description Modea
clear ipv6 dhcp snooping
binding
Clears all IPv6 DHCP snooping entries. UE or
PE
clear ipv6 dhcp snooping
statistics
Clears all IPv6 DHCP snooping statistics. UE or
PE
ipv6 dhcp snooping
Globally enables IPv6 DHCP snooping. GC
ipv6 dhcp snooping vlan
Enables IPv6 DHCP snooping on a set of
VLANs.
GC
ipv6 dhcp snooping binding
Configures a static IPv6 DHCP snooping
binding.
GC
ipv6 dhcp snooping database
Configures the persistent location of the DHCP
snooping database.
GC
ipv6 dhcp snooping database
write-delay
Configures the time period between successive
writes of the binding database.
GC
Command Description Modea
Dell EMC Networking CLI 170
ipv6 dhcp snooping limit
Configures an interface to disable itself if the
rate of received DHCP messages exceeds the
configured limit.
IC
ipv6 dhcp snooping log-
invalid
Configures the port to log invalid received
DHCP messages.
IC
ipv6 dhcp snooping trust
Configures the port as trusted. IC
ipv6 dhcp snooping verify
mac-address
Enables the additional verification of the source
MAC address with the client hardware address
in the received DHCP message.
GC
ipv6 verify binding
Configures a static IP source guard binding. GC
ipv6 verify source
Configures an interface to filter incoming
traffic from sources that are not present in the
DHCP binding database.
IC
show ipv6 dhcp snooping
Displays the IPv6 DHCP snooping
configuration.
UE or
PE
show ipv6 dhcp snooping
binding
Displays the IPv6 DHCP snooping
configuration.
UE or
PE
show ipv6 dhcp snooping
database
Displays IPv6 DHCP snooping configurations
related to database persistency.
UE or
PE
show ipv6 dhcp snooping
statistics
Displays IPv6 DHCP snooping filtration
statistics.
UE or
PE
show ipv6 source binding
Displays the IPv6 source guard configurations
on all ports, an individual port, or on a VLAN.
UE or
PE
show ipv6 verify
Displays the IPv6 Source Guard configuration
on all interfaces or the specified interface.
UE or
PE
show ipv6 verify source
Displays the Ipv6 source guard configurations
on all ports.
UE or
PE
a. For the meaning of each Mode abbreviation, see
Mode Types
.
Command Description Modea
Dell EMC Networking CLI 171
DVMRP
GMRP
Command Description Modea
a. For the meaning of each Mode abbreviation, see
Mode Types
.
router bgp
S
ets the administrative mode of DVMRP in the
router to active.
GC or
IC
ip dvmrp metric
Configures the metric for an interface. IC
show ip dvmrp
Displays the system-wide information for
DVMRP.
PE
show ip dvmrp interface
Displays the interface information for DVMRP
on the specified interface.
PE
show ip dvmrp neighbor
Displays the neighbor information for DVMRP. PE
show ip dvmrp nexthop
D
isplays the next hop information on
outgoing interfaces for routing multicast
datagrams.
PE
show ip dvmrp prune
Displays the table that lists the router’s
upstream prune information.
PE
show ip dvmrp route
Displays the multicast routing information for
DVMRP.
PE
Command Description Modea
a. For the meaning of each Mode abbreviation, see
Mode Types
.
gmrp enable
Enables GMRP globally or on a port. GC or
IC
clear gvrp statistics
Clears all the GMRO statistics information. PE
show gmrp configuration
Displays GMRP configuration. GC or
IC
Dell EMC Networking CLI 172
IGMP
Command Description Modea
ip igmp last-member-query-
count
Sets the number of Group-Specific Queries
sent before the router assumes that there are
no local members on the interface.
IC
ip igmp last-member-query-
interval
Configures the Maximum Response Time
inserted in Group-Specific Queries which are
sent in response to Leave Group messages.
IC
ip igmp mroute-proxy
Configures downstream IGMP proxy on the
selected VLAN interface associated with
multicast hosts.
IC
ip igmp query-interval
Configures the query interval for the specified
interface. The query interval determines how
fast IGMP Host-Query packets are transmitted
on this interface.
IC
ip igmp query-max-response-
time
Configures the maximum response time
interval for the specified interface.
IC
ip igmp robustness
Configures the robustness that allows tuning
of the interface.
IC
ip igmp startup-query-count
Sets the number of queries sent out on
startup — at intervals equal to the startup
query interval for the interface.
IC
ip igmp startup-query-
interval
Sets the interval between general queries sent
at startup on the interface.
IC
ip igmp version
Configures the version of IGMP for an
interface.
IC
show ip igmp
Displays system-wide IGMP information. PE
show ip igmp groups
Displays the registered multicast groups on the
interface.
PE
show ip igmp interface
Displays the IGMP information for the
specified interface.
PE
show ip igmp membership
Displays the list of interfaces that have
registered in the multicast group.
PE
Dell EMC Networking CLI 173
IGMP Proxy
IP Helper/DHCP Relay
show ip igmp interface stats
Displays the IGMP statistical information for
the interface.
PE
a. For the meaning of each Mode abbreviation, see
Mode Types
.
Command Description Modea
a. For the meaning of each Mode abbreviation, see
Mode Types
.
arp
Enables the IGMP Proxy on the router. IC
ip igmp proxy-service reset-
status
Resets the host interface status parameters of
the IGMP Proxy router.
IC
ip igmp proxy-service
unsolicit-rprt-interval
Sets the unsolicited report interval for the
IGMP Proxy router.
IC
show ip igmp proxy-service
Displays a summary of the host interface status
parameters.
PE
show ip igmp proxy-service
interface
Displays a detailed list of the host interface
status parameters.
PE
show ip igmp-proxy groups
Displays a table of information about multicast
groups that IGMP Proxy reported.
PE
show ip igmp proxy-service
groups detail
Displays complete information about multicast
groups that IGMP Proxy has reported.
PE
Command Description Modea
bootpdhcprelay
maxhopcount
Configures the maximum allowable relay agent
hops for BootP/DHCP Relay on the system.
GC
bootpdhcprelay
minwaittime
Configures the minimum wait time in seconds
for BootP/DHCP Relay on the system.
GC
clear ip helper statistics
Resets (to 0) the statistics displayed in show ip
helper statistics.
PE
Command Description Modea
Dell EMC Networking CLI 174
IP Routing
ip dhcp relay information
check
Enables DHCP Relay to check that the relay
agent information option in forwarded
BOOTREPLY messages is valid.
GC
ip dhcp relay information
check-reply
Enables DHCP Relay to check that the relay
agent information option in forwarded
BOOTREPLY messages is valid.
IC
ip dhcp relay information
option
Enables the circuit ID option and remote agent
ID mode for BootP/DHCP Relay on the system
(also called option 82).
GC
ip dhcp relay information
option-insert
Enables the circuit ID option and remote agent
ID mode for BootP/DHCP Relay on the circuit
ID option and remote agent ID mode for
BootP/DHCP Relay on the interface (also called
option 82).
GC
ip helper-address (global
configuration)
Configures the relay of certain UDP broadcast
packets received on any interface.
GC
ip helper-address (interface
configuration)
Configures the relay of certain UDP broadcast
packets received on a specific interface.
IC
ip helper enable
Enables relay of UDP packets. GC
show ip helper-address
Displays the IP helper address configuration. PE
show ip dhcp relay
Displays the BootP/DHCP Relay information. UE or
PE
show ip helper statistics
Displays the number of DHCP and other UDP
packets processed and relayed by the UDP relay
agent.
PE
a. For the meaning of each Mode abbreviation, see
Mode Types
.
Command Description Modea
encapsulation
Configures the link layer encapsulation type for
the packet.
IC
ip icmp echo-reply
Configures an IP address on an interface. IC
Command Description Modea
Dell EMC Networking CLI 175
ip netdirbcast
E
nables the forwarding of network-directed
broadcasts.
IC
ip policy route-map
Applies a route map on an interface. IC
ip redirects
Enables the generation of ICMP Redirect
messages.
IC
ip route
Configures a static route. Use the no form of
the command to delete the static route.
GC
ip route default
Configures the default route. Use the no form
of the command to delete the default route.
GC
ip route distance
Sets the default distance (preference) for static
routes.
GC
ip routing
Globally enables IPv4 routing on the router. GC
ip unnumbered
Identifies an interface as an unnumbered
interface and specifies the numbered interface
providing the borrowed address.
IC
ip unnumbered gratuitous-
arp accept
Enables installation of a static interface route to
the unnumbered peer upon receiving a
gratuitous ARP.
IC
ip unreachables
Enables the generation of ICMP Destination
Unreachable messages.
IC
match ip address
Specify IP address match criteria for a route
map.
RM
match length
Configures packet length matching criteria for a
route map.
RM
match mac-list
Configures MAC ACL match criteria for a route
map.
RM
route-map
Creates a policy based route map. GC
set interface null0
Routes packets to interface null 0. RM
set ip default next-hop
Sets a list of default next-hop IP addresses
to be used if no explicit route for the packet’s
destination address appears in the routing table.
RM
Command Description Modea
Dell EMC Networking CLI 176
IPv6 Routing
set ip next-hop
Specifies the adjacent next-hop router in the
path toward the destination to which the
packets should be forwarded.
RM
set ip precedence
Sets the IP precedence bits in the IP packet
header.
RM
show ip brief
Displays all the summary information of the IP. PE
Maximum Next
Hops.............................. 16
Displays all pertinent information about the IP
interface.
PE
show ip policy
Displays the route maps used for policy based
routing on the router interfaces.
PE
show ip protocols
Displays the parameters and current state of the
active routing protocols.
PE
show ip route
Displays the routing table. PE
show ip route static
Displays the configured routes, whether or not
they are reachable.
PE
show ip route preferences
Displays detailed information about the route
preferences.
PE
show ip route summary
Shows the number of all routes, including best
and non-best routes.
PE
show ip traffic
Displays IP statistical information. UE or
PE
show ip vlan
Displays the VLAN routing information for all
VLANs with routing enabled.
PE
show route-map
Displays the route maps. PE
show routing heap summary
Displays a summary of the memory allocation
from the routing heap.
PE
a. For the meaning of each Mode abbreviation, see
Mode Types
.
Command Description Modea
arp
Clears all entries in the IPv6 neighbor table
or an entry on a specific interface.
PE
Command Description Modea
Dell EMC Networking CLI 177
clear ipv6 statistics
Clears IPv6 statistics for all interfaces or for a
specific interface, including loopback and
tunnel interfaces.
PE
ipv6 address
Configures an IPv6 address on an interface
(including tunnel and loopback interfaces).
IC
ipv6 enable
Enables IPv6 routing on an interface
(including tunnel and loopback interfaces)
that has not been configured with an explicit
IPv6 address.
IC
ipv6 hop-limit
Configures the hop limit used in IPv6 PDUs
originated by the router.
GC
ipv6 host
Defines static host name-to-IPv6 address
mapping in the host cache.
GC
ipv6 mld last-member-
query-count
Sets the number of listener-specific queries
sent before the router assumes that there are
no local members on the interface.
IC (VC)
ipv6 mld last-member-
query-interval
Sets the last member query interval for the
MLD interface, which is the value of the
maximum response time parameter in the
group specific queries sent out of this
interface.
IC (VC)
ipv6 mld host-proxy
Enables MLD Proxy on the router. IC
ipv6 mld host-proxy reset-
status
Resets the host interface status parameters of
the MLD Proxy router.
IC
ipv6 mld host-proxy
unsolicit-rprt-interval
Sets the unsolicited report interval for the
MLD Proxy router.
IC
ipv6 mld query-interval
Sets the MLD router's query interval for the
interface.
IC
ipv6 mld query-max-
response-time
Sets MLD querier's maximum response time
for the interface.
IC
ipv6 nd dad attempts
Sets the number of duplicate address
detection probes transmitted while doing
neighbor discovery.
IC
Command Description Modea
Dell EMC Networking CLI 178
ipv6 nd managed-config-
flag
Sets the managed address configuration flag
in router advertisements.
IC
ipv6 nd ns-interval
Sets the interval between router
advertisements for advertised neighbor
solicitations.
IC
ipv6 nd nud max-
multicast-solicits
Configures the maximum number of
multicast neighbor solicitations sent during
neighbor resolution or during NUD
(neighbor unreachability detection).
GC
ipv6 nd nud max-unicast-
solicits
Configures the maximum number of unicast
neighbor solicitations sent during neighbor
resolution or during NUD (neighbor
unreachability detection).
GC
ipv6 nd nud retry
Configures the exponential backoff multiple
to be used in the calculation of the next
timeout value for Neighbor Solicitation
transmission during NUD (neighbor
unreachabililty detection) following the
exponential backoff algorithm.
GC
ipv6 nd other-config-flag
Sets the other stateful configuration flag in
router advertisements sent from the
interface.
IC
ipv6 nd prefix
Sets the IPv6 prefixes to include in the router
advertisement.
IC
ipv6 nd raguard attach-
policy
Enables RA Guard policy on an interface. IC
ipv6 nd ra-interval
Sets the transmission interval between router
advertisements.
IC
ipv6 nd ra-lifetime
Sets the value that is placed in the Router
Lifetime field of the router advertisements
sent from the interface.
IC
ipv6 nd reachable-time
Sets the router advertisement time to
consider a neighbor reachable after neighbor
discovery confirmation.
IC
Command Description Modea
Dell EMC Networking CLI 179
ipv6 nd suppress-ra
Suppresses router advertisement
transmission on an interface.
IC
ipv6 route
Configures an IPv6 static route GC
ip route distance
Sets the default distance (preference) for
static routes.
GC
ipv6 unicast-routing
Enables forwarding of IPv6 unicast
datagrams.
GC
ipv6 unreachables
Enables the generation of ICMPv6
Destination Unreachable messages.
IC
show ipv6 brief
Displays the IPv6 status of forwarding mode
and IPv6 unicast routing mode.
PE
show ipv6 interface
Shows the usability status of IPv6 interfaces. PE
show ipv6 mld groups
Displays information about multicast groups
that MLD reported.
PE
show ipv6 mld interface
Displays MLD related information for an
interface.
PE
show ipv6 mld host-proxy
Displays a summary of the host interface
status parameters.
PE
show ipv6 mld host-proxy
groups
Displays information about multicast groups
that the MLD Proxy reported.
PE
show ipv6 mld host-proxy
groups detail
Displays information about multicast groups
that MLD Proxy reported.
PE
show ipv6 mld host-proxy
interface
Displays a detailed list of the host interface
status parameters.
PE
show ipv6 mld traffic
Displays MLD statistical information for the
router.
PE
show ipv6 nd raguard
policy
Displays the RA Guard policy on all interfaces
for which it is enabled.
PE or GC
show ipv6 neighbors
Displays information about IPv6 neighbors. PE
show ipv6 protocols
Displays information about the configured
IPv6 routing protocols.
PE or GC
show ipv6 route
Displays the IPv6 routing table. PE
Command Description Modea
Dell EMC Networking CLI 180
Loopback Interface
Multicast
show ipv6 route
preferences
Shows the preference value associated with
the type of route.
PE
show ipv6 route summary
Displays a summary of the routing table. PE
show ipv6 snooping
counters
Displays the RA guard dropped packet
counters.
PE
GC
show ipv6 traffic
Shows traffic and statistics for IPv6 and
ICMPv6.
UE
show ipv6 vlan
Displays IPv6 VLAN routing interface
addresses.
PE
traceroute ipv6
Discovers the routes that packets actually
take when traveling to their destination
through the network on a hop-by-hop basis.
PE
a. For the meaning of each Mode abbreviation, see
Mode Types
.
Command Description Modea
a. For the meaning of each Mode abbreviation, see
Mode Types
.
arp
Enters the Interface Loopback configuration
mode.
GC
show interfaces loopback
Displays information about configured
loopback interfaces.
PE
Command Description Modea
arp
Adds an administrative scope multicast
boundary.
IC
ip mroute
Creates a static multicast route for a source
range.
GC
ip multicast-routing
Sets the administrative mode of the IP
multicast forwarder in the router to active.
GC
ip multicast ttl-threshold
Applies a ttlvalue to a routing interface. IC
Command Description Modea
Dell EMC Networking CLI 181
ip pim
Administratively configures PIM mode for IP
multicast routing on a VLAN interface.
IC
ip pim bsr-border
Administratively disables bootstrap router
(BSR) messages from being sent or received
through an interface.
IC
ip pim bsr-candidate
Configures the router to advertise itself as a
bootstrap router (BSR).
GC
ip pim dense-mode
Administratively configures PIM dense mode
for IP multicast routing.
GC
ip pim dr-priority
Administratively configures the advertised
designated router (DR) priority value.
IC
ip pim hello-interval
Administratively configures the PIM Hello
messages on the specified interface.
IC
ip pim join-prune-interval
Administratively configures the frequency of
join/prune messages on the specified interface.
IC
ip pim rp-address
Defines the address of a PIM RP for a specific
multicast group range.
GC
ip pim rp-candidate
Configures the router to advertise itself to the
bootstrap router (BSR) as a PIM candidate
rendezvous point (RP) for a specific multicast
group range.
IC
ip pim sparse-mode
Administratively configures PIM sparse mode
for IP multicast routing.
GC
ip pim ssm
Administratively configures PIM Source
Specific Multicast (SSM) range of addresses for
IP multicast routing.
GC
show ip multicast
Displays the system-wide multicast
information.
PE
show ip pim boundary
Displays the system-wide multicast
information.
PE
show ip multicast interface
Displays the multicast information for the
specified interface.
PE
show ip mroute
Displays a summary or all the details of the
multicast table.
PE
Command Description Modea
Dell EMC Networking CLI 182
IPv6 Multicast
show ip mroute group
Displays the multicast configuration settings of
entries in the multicast mroute table.
PE
show ip mroute source
Displays the multicast configuration settings of
entries in the multicast mroute table.
PE
show ip mroute static
Displays all the static routes configured in the
static mcast table.
PE
show ip pim
Displays information about the interfaces
enabled for PIM.
UE or
PE
show ip pim bsr-router
Displays the bootstrap router (BSR)
information.
PE
show ip pim interface
Displays PIM interface status parameters. If no
interface is specified, the command displays the
status parameters of all PIM-enabled interfaces.
UE or
PE
show ip pim neighbor
Displays PIM neighbors discovered by PIMv2
Hello messages. If no interface is specified, the
command displays the neighbors discovered on
all PIM-enabled interfaces.
UE or
PE
show ip pim rp-hash
Displays the rendezvous point (RP) selected for
the specified group address.
UE or
PE
show ip pim rp mapping
Displays the mappings for the PIM group to the
active rendezvous points (RPs).
UE or
PE
show ip pim statistics
Displays the count of PIM sparse mode received
control packets per VLAN.
PE or
GC
a. For the meaning of each Mode abbreviation, see
Mode Types
.
Command Description Modea
clear ipv6 mroute
Selectively clears dynamic IPv6 multicast
entries from the cache.
PE
ipv6 pim (VLAN Interface
config)
Administratively enables PIM-SM multicast
routing mode on a particular IPv6 router
interface.
IC
Command Description Modea
Dell EMC Networking CLI 183
ipv6 pim bsr-border
Prevents bootstrap router (BSR) messages from
being sent or received through an interface.
IC
ipv6 pim bsr-candidate
Configures the router to announce its
candidacy as a bootstrap router (BSR).
GC
ipv6 pim dense-mode
Administratively configures PIM dense mode
for IPv6 multicast routing.
GC
ipv6 pim dr-priority
Sets the priority value for which a router is
elected as the designated router (DR).
IC
ipv6 pim hello-interval
Administratively configures the PIM-SM Hello
Interval for the specified interface.
IC
ipv6 pim join-prune-interval
Administratively configures the interface
join/prune interval for the PIM-SM router.
IC
ipv6 pim register-threshold
Configures the Register Threshold rate for the
RP router to switch to the shortest path.
GC
ipv6 pim rp-address
Statically configures the Rendezvous Point (RP)
address for one or more multicast groups.
GC
ipv6 pim rp-candidate
Configures the router to advertise itself as a
PIM candidate rendezvous point (RP) to the
bootstrap router (BSR).
GC
ipv6 pim sparse-mode
Administratively configures PIM sparse mode
for multicast routing.
GC
ipv6 pim ssm
Defines the Source Specific Multicast (SSM)
range of multicast addresses.
GC
show ipv6 pim
Displays global status of IPv6 PIMSM and its
IPv6 routing interfaces.
PE or
GC
show ipv6 pim bsr-router
Display the bootstrap router (BSR)
information.
UE,
PE, or
GC
show ip mroute group
Displays the multicast configuration settings PE
show ip mroute source
Displays the multicast configuration settings PE
show ipv6 pim interface
Displays interface config parameters. PE or
GC
Command Description Modea
Dell EMC Networking CLI 184
OSPF
show ipv6 pim neighbor
Displays IPv6 PIMSM neighbors learned on the
routing interfaces.
PE or
GC
show ipv6 pim rp-hash
Displays which rendezvous point (RP) is being
selected for a specified group.
PE or
GC
show ipv6 pim rp mapping
Displays all group-to-RP mappings of which the
router is aware (either configured or learned
from the bootstrap router (BSR).
PE or
GC
a. For the meaning of each Mode abbreviation, see
Mode Types
.
Command Description Modea
area default-cost (Router
OSPF)
Configures the advertised default cost for the
stub area.
ROSPF
area nssa (Router OSPF)
Configures the specified area ID to function as an
NSSA.
ROSPF
area nssa default-info-
originate (Router OSPF
Config)
Configures the metric value and type for the
default route advertised into the NSSA.
ROSPF
area nssa no-redistribute
Configures the NSSA Area Border router (ABR)
so that learned external routes are not
redistributed to the NSSA.
ROSPF
area nssa no-summary
Configures the NSSA so that summary LSAs are
not advertised into the NSSA.
ROSPF
area nssa translator-role
Configures the translator role of the NSSA. ROSPF
area nssa translator-stab-
intv
Configures the translator stability interval of the
NSSA.
ROSPF
area range (Router OSPF)
Creates a specified area range for a specified
NSSA.
ROSPF
area stub
Creates a stub area for the specified area ID. ROSPF
area stub no-summary
Prevents Summary LSAs from being advertised
into the NSSA.
ROSPF
Command Description Modea
Dell EMC Networking CLI 185
area virtual-link
Creates the OSPF virtual interface for the
specified area-id and neighbor router.
ROSPF
area virtual-link
authentication
Configures the authentication type and key for
the OSPF virtual interface identified by the area
ID and neighbor ID.
ROSPF
area virtual-link dead-
interval
Configures the dead interval for the OSPF virtual
interface on the virtual interface identified by
area-id and neighbor router.
ROSPF
area virtual-link hello-
interval
Configures the hello interval for the OSPF virtual
interface on the virtual interface identified by the
area ID and neighbor ID.
ROSPF
area virtual-link
retransmit-interval
Configures the retransmit interval for the OSPF
virtual interface on the virtual interface identified
by the area ID and neighbor ID.
ROSPF
area virtual-link transmit-
delay
Configures the transmit delay for the OSPF
virtual interface on the virtual interface identified
by the area ID and neighbor ID.
ROSPF
auto-cost
Allows user to change the reference bandwidth
used in computing link cost.
ROSPF
bandwidth
Allows user to change the bandwidth used in
computing link cost.
IC
bfd
Enables processing of BFD events by OSPF on all
interfaces enabled for BFD.
ROSPF,
ROSV3
capability opaque
Enables Opaque Capability on the router. RC
clear ip ospf
Resets specific OSPF states. PE
compatible rfc1583
Enables OSPF 1583 compatibility. ROSPF
default-information
originate (Router OSPF
Configuration)
Controls the advertisement of default routes. ROSPF
default-metric
Sets a default for the metric of distributed routes. ROSPF
distance ospf
Sets the route preference value of OSPF in the
router.
ROSPF
Command Description Modea
Dell EMC Networking CLI 186
distribute-list out
Specifies the access list to filter routes received
from the source protocol.
ROSPF
enable
Resets the default administrative mode of OSPF
in the router (active).
ROSPF
exit-overflow-interval
Configures the exit overflow interval for OSPF. ROSPF
external-lsdb-limit
Configures the external LSDB limit for OSPF. ROSPF
ip ospf area
Enables OSPFv2 and sets the area ID of an
interface.
IC
ip ospf authentication
Sets the OSPF Authentication Type and Key for
the specified interface.
IC
ip ospf cost
Configures the cost on an OSPF interface. IC
ip ospf database-filter all
out
Prevents the flooding of OSPF LSAs on an
interface.
IC
ip ospf dead-interval
l Sets the OSPF dead interval for the specified
interface.
IC
ip ospf hello-interval
Sets the OSPF hello interval for the specified
interface.
IC
ip ospf mtu-ignore
Disables OSPF maximum transmission unit
(MTU) mismatch detection.
IC
ip ospf network
Configure OSPF to treat an interface as a point-
to-point, rather than broadcast interface.
IC
ip ospf priority
Sets the OSPF priority for the specified router
interface.
IC
ip ospf retransmit-interval
Sets the OSPF retransmit Interval for the
specified interface.
IC
ip ospf transmit-delay
Sets the OSPF Transit Delay for the specified
interface.
IC
log adjacency-changes
Enables logging of OSPFv2 neighbor state
changes.
ROSPF
max-metric router-lsa
Configures OSPF to enable stub router mode. ROSPF
maximum-paths
Sets the number of paths that OSPF can report
for a given destination.
ROSPF
Command Description Modea
Dell EMC Networking CLI 187
network area
Enables OSPFv2 on an interface and sets its area
ID if the IP address of an interface is covered by
this network command.
ROSPF
nsf
Enables OSPF graceful restart. ROSPF
nsf helper
Allow OSPF to act as a helpful neighbor for a
restarting router.
ROSPF
nsf helper strict-lsa-
checking
Set an OSPF helpful neighbor exit helper mode
whenever a topology change occurs.
ROSPF
nsf restart-interval
Configures the length of the grace period on the
restarting router.
ROSPF
passive-interface
Sets the interface or tunnel as passive. IC
passive-interface default
Enables the global passive mode by default for all
interfaces.
ROSPF
passive-interface
Sets the interface or tunnel as passive. ROSPF
redistribute (BGP)
Configures OSPF protocol to allow redistribution
of routes from the specified source
protocol/routers.
ROSPF
router-id
Sets a 4-digit dotted-decimal number uniquely
identifying the router OSPF ID.
ROSPF
router ospf
Enters Router OSPF mode. GC
show ip ospf
Displays information relevant to the OSPF
router.
PE
show ip ospf abr
Displays the internal OSPF routing table entries
to Area Border Routers (ABR).
PE
show ip ospf area
Displays information about the identified OSPF
area.
PE
show ip ospf asbr
Displays the internal OSPF routing table entries
to Autonomous System Boundary Routes
(ASBR).
PE
show ip ospf database
Displays information about the link state
database when OSPF is enabled.
PE
show ip ospf database
database-summary
Displays the number of each type of LSA in the
database for each area and for the router.
PE
Command Description Modea
Dell EMC Networking CLI 188
OSPFv3
show ip ospf interface
Displays the information for the IFO object or
virtual interface tables.
PE
show ip ospf interface
brief
Displays brief information for the IFO object or
virtual interface tables.
PE
show ip ospf interface
stats
Displays the statistics for a specific interface. PE
show ip ospf lsa-group
Displays the number of self-originated LSAs
within each LSA group.
PE, GC
show ip ospf neighbor
Displays information about OSPF neighbors. PE
show ip ospf range
Displays information about the area ranges for
the specified area-id.
PE
show ip ospf statistics
Displays information about recent Shortest Path
First (SPF) calculations.
PE
show ip ospf stub table
Displays the OSPF stub table. PE
show ip ospf virtual-links
Displays the OSPF Virtual Interface information
for a specific area and neighbor.
PE
show ip ospf virtual-links
brief
Displays the OSPF Virtual Interface information
for all areas in the system.
PE
timers pacing flood
Adjusts the rate at which OSPFv2 sends LS
Update packets
OG
timers pacing lsa-group
Tunes how OSPF groups LSAs for periodic
refresh.
OG
timers spf
Configures the SPF delay and hold time. ROSPF
a. For the meaning of each Mode abbreviation, see
Mode Types
.
Command Description Modea
area default-cost (Router
OSPFv3)
Configures the monetary default cost for the stub
area.
ROSV3
area nssa (Router
OSPFv3)
Configures the specified areaid to function as an
NSSA.
ROSV3
Command Description Modea
Dell EMC Networking CLI 189
area nssa default-info-
originate (Router
OSPFv3 Config)
Configures the metric value and type for the
default route advertised into the NSSA.
ROSV3
area nssa no-redistribute
Configures the NSSA ABR so that learned
external routes will not be redistributed to the
NSSA.
ROSV3
area nssa no-summary
Configures the NSSA so that summary LSAs are
not advertised into the NSSA.
ROSV3
area nssa translator-role
Configures the translator role of the NSSA. ROSV3
area nssa translator-stab-
intv
Configures the translator stability interval of the
NSSA.
ROSV3
area range (Router
OSPFv3)
Creates an area range for a specified NSSA. ROSV3
area stub
Creates a stub area for the specified area ID. ROSV3
area stub no-summary
Disables the import of Summary LSAs for the
stub area identified by areaid.
ROSV3
area virtual-link
Creates the OSPF virtual interface for the
specified areaid and neighbor.
ROSV3
area virtual-link dead-
interval
Configures the dead interval for the OSPF virtual
interface on the virtual interface identified by
areaid and neighbor.
ROSV3
area virtual-link hello-
interval
Configures the hello interval for the OSPF virtual
interface on the virtual interface identified by
areaid and neighbor.
ROSV3
area virtual-link
retransmit-interval
Configures the retransmit interval for the OSPF
virtual interface on the virtual interface identified
by areaid and neighbor.
ROSV3
area virtual-link transmit-
delay
Configures the transmit delay for the OSPF
virtual interface on the virtual interface identified
by areaid and neighbor.
ROSV3
default-information
originate (Router
OSPFv3 Configuration)
Controls the advertisement of default routes. ROSV3
default-metric
Sets a default for the metric of distributed routes. ROSV3
Command Description Modea
Dell EMC Networking CLI 190
distance ospf
Sets the route preference value of OSPF in the
router.
ROSV3
enable
Resets the default administrative mode of OSPF
in the router (active).
ROSV3
exit-overflow-interval
Configures the exit overflow interval for OSPF. ROSV3
external-lsdb-limit
Configures the external LSDB limit for OSPF. ROSV3
arp
Enables OSPF on a router interface or loopback
interface.
IC
ipv6 ospf area
Sets the OSPF area to which the specified router
interface belongs.
IC
ipv6 ospf cost
Configures the cost on an OSPF interface. IC
ipv6 ospf dead-interval
Sets the OSPF dead interval for the specified
interface.
IC
ipv6 ospf hello-interval
Sets the OSPF hello interval for the specified
interface.
IC
ipv6 ospf mtu-ignore
Disables OSPF maximum transmission unit
(MTU) mismatch detection.
IC
ipv6 ospf network
Changes the default OSPF network type for the
interface.
IC
ipv6 ospf priority
Sets the OSPF priority for the specified router
interface.
IC
ipv6 ospf retransmit-
interval
Sets the OSPF retransmit interval for the
specified interface.
IC
ipv6 ospf transmit-delay
Sets the OSPF Transmit Delay for the specified
interface.
IC
ipv6 router ospf
Enters Router OSPFv3 Configuration mode. GC
maximum-paths
Sets the number of paths that OSPF can report
for a given destination.
ROSV3
nsf
Enables OSPF graceful restart. ROSV3
nsf helper
Allows OSPF to act as a helpful neighbor for a
restarting router.
ROSV3
Command Description Modea
Dell EMC Networking CLI 191
nsf helper strict-lsa-
checking
Requires that an OSPF helpful neighbor exit
helper mode whenever a topology change occurs.
ROSV3
nsf restart-interval
Configures the length of the grace period on the
restarting router.
ROSV3
passive-interface
Sets the interface or tunnel as passive. IC
passive-interface default
Enables the global passive mode by default for all
interfaces.
ROSV3
redistribute (OSPFv3)
Configures the OSPFv3 protocol to allow
redistribution of routes from the specified source
protocol/routers.
ROSV3
router-id
Sets a 4-digit dotted-decimal number uniquely
identifying the Router OSPF ID.
ROSV3
show ipv6 ospf
Displays information relevant to the OSPF
router.
PE
show ipv6 ospf abr
Displays the internal OSPFv3 routes to reach
Area Border Routers (ABR).
PE
show ipv6 ospf area
Displays information about the area. PE
show ipv6 ospf asbr
Displays the internal OSPFv3 routes to reach
Autonomous System Boundary Routes (ASBR).
PE
show ipv6 ospf border-
routers
Displays internal OSPFv3 routers to reach Area
Border Routers (ABR) and Autonomous System
Boundary Routers (ASBR).
UE or
PE
show ipv6 ospf database
Displays information about the link state
database when OSPFv3 is enabled.
PE
show ipv6 ospf database
database-summary
Displays the number of each type of LSA in the
database and the total number of LSAs in the
database.
PE
show ipv6 ospf interface
Displays the information for the IFO object or
virtual interface tables.
PE
show ipv6 ospf interface
brief
Displays brief information for the IFO object or
virtual interface tables.
PE
show ipv6 ospf interface
stats
Displays the statistics for a specific interface. UE
Command Description Modea
Dell EMC Networking CLI 192
Router Discovery Protocol
show ipv6 ospf interface
vlan
Displays OSPFv3 configuration and status
information for a specific VLAN.
PE
show ipv6 ospf neighbor
Displays information about OSPF neighbors. PE
show ipv6 ospf range
Displays information about the area ranges for
the specified area identifier.
PE
show ipv6 ospf stub table
Displays the OSPF stub table. PE
show ipv6 ospf virtual-
links
Displays the OSPF Virtual Interface information
for a specific area and neighbor.
PE
show ipv6 ospf virtual-
link brief
Displays the OSPFV3 Virtual Interface
information for all areas in the system.
PE
a. For the meaning of each Mode abbreviation, see
Mode Types
.
Command Description Modea
a. For the meaning of each Mode abbreviation, see
Mode Types
.
encapsulation
Enables Router Discovery on an interface. IC
ip irdp holdtime
Configures the value, in seconds, of the hold-
time field of the router advertisement sent from
this interface.
IC
ip irdp maxadvertinterval
Configures the maximum time, in seconds,
allowed between sending router advertisements
from the interface.
IC
ip irdp minadvertinterval
Configures the minimum time, in seconds,
allowed between sending router advertisements
from the interface.
IC
ip irdp multicast
Sends router advertisements as IP multicast
packets.
IC
ip irdp preference
Configures the preference of the address as a
default router address relative to other router
addresses on the same subnet.
IC
show ip irdp
Displays the router discovery information for all
interfaces, or for a specified interface.
PE
Command Description Modea
Dell EMC Networking CLI 193
Routing Information Protocol
Command Description Modea
auto-summary
Enables the RIP auto-summarization mode. RIP
default-information
originate (Router RIP
Configuration)
Controls the advertisement of default routes. RIP
default-metric
Sets a default for the metric of distributed
routes.
RIP
distance rip
Sets the route preference value of RIP in the
router.
RIP
distribute-list out
Specifies the access list to filter routes received
from the source protocol.
RIP
enable
Resets the default administrative mode of RIP
in the router (active).
RIP
hostroutesaccept
Enables the RIP hostroutesaccept mode. RIP
ip rip
Enables RIP on a router interface. IC
ip rip authentication
Sets the RIP Version 2 Authentication Type and
Key for the specified interface.
IC
ip rip receive version
Configures the interface to allow RIP control
packets of the specified version(s) to be
received.
IC
ip rip send version
Configures the interface to allow RIP control
packets of the specified version to be sent.
IC
redistribute (RIP)
Configures OSPF protocol to allow
redistribution of routes from the specified
source protocol/routers.
PIP
router rip
Enters Router RIP mode. GC
show ip rip
Displays information relevant to the RIP router. PE
show ip rip interface
Displays information related to a particular RIP
interface.
PE
show ip rip interface brief
Displays general information for each RIP
interface.
PE
split-horizon
Sets the RIP split horizon mode. RIP
Dell EMC Networking CLI 194
Tunnel Interface
Virtual Router
a. For the meaning of each Mode abbreviation, see
Mode Types
.
Command Description Modea
a. For the meaning of each Mode abbreviation, see
Mode Types
.
interface tunnel
Enables the interface configuration mode for a
tunnel.
GC
show interfaces tunnel
Displays the parameters related to tunnel such
as tunnel mode, tunnel source address and
tunnel destination address.
PE
tunnel destination
Specifies the destination transport address of
the tunnel.
IC
tunnel mode ipv6ip
Specifies the mode of the tunnel. IC
tunnel source
Specifies the source transport address of the
tunnel, either explicitly or by reference to an
interface.
IC
Command Description Modea
a. For the meaning of each Mode abbreviation, see
Mode Types
.
description
Assigns descriptive text to the VRF instance. VR
ip vrf
Creates a virtual router with a specified name
and enters Virtual Router Configuration mode.
GC
ip vrf forwarding
Associates an interface with a VRF instance. IC or
IR
maximum routes
Reserves the number of routes allowed and sets
the maximum limit on the number of routes for
a virtual router instance in the total routing
table space for the router.
VR
show ip vrf
Shows the interfaces associated with a VRF
instance.
PE
Dell EMC Networking CLI 195
Virtual Router Redundancy
Command Description Modea
ip vrrp
Enables the administrative mode of Virtual
Router Redundancy Protocol (VRRP) for the
router.
GC
vrrp accept-mode
Enables the VRRP Master to accept ping
packets sent to one of the virtual router’s IP
addresses.
IC
vrrp authentication
Sets the authentication details value for the
virtual router configured on a specified
interface.
IC
vrrp description
Assigns a description to the VRRP group. IC
vrrp ip
Sets the virtual router IP address value for an
interface.
IC
vrrp mode
Enables the virtual router configured on an
interface. Enabling the status field starts a
virtual router.
IC
vrrp preempt
Sets the preemption mode value for the virtual
router configured on a specified interface.
IC
vrrp priority
Sets the priority value for the virtual router
configured on a specified interface.
IC
vrrp timers advertise
Sets the frequency, in seconds, that an interface
on the specified virtual router sends a virtual
router advertisement.
IC
vrrp timers learn
Configures the router, when it is acting as
backup virtual router for a VRRR group, to learn
the advertisement interval used by the master
virtual router.
IC
vrrp track interface
Alters the priority of the VRRP router based on
the availability of its interfaces.
IC
vrrp track ip route
Tracks route reachability. IC
show vrrp
Displays the global VRRP configuration and
status as well as the brief or detailed status of
one or all VRRP groups.
UE or
PE
Dell EMC Networking CLI 196
Switch Management Commands
Application Deployment
Auto-Install
show vrrp interface
Displays all configuration information and
VRRP router statistics of a virtual router
configured on a specific interface.
UE or
PE
a. For the meaning of each Mode abbreviation, see
Mode Types
.
Command Description Modea
a. For the meaning of each Mode abbreviation, see
Mode Types
.
application install
Installs or removes a Dell-supplied application. GC
application start
Schedules a Dell-supplied application for
immediate execution on the stack master.
GC
application stop
Stops a Dell-supplied application if the
application is executing on the stack master.
GC
show application
Displays installed applications and optionally
displays application files.
GC
Command Description Modea
boot auto-copy-sw
Enables or disables Stack Firmware
Synchronization.
GC
boot auto-copy-sw allow-
downgrade
Enables downgrading the firmware version on
the stack member if the firmware version on the
manager is older than the firmware version on
the member.
GC
boot host auto-reboot
Enables rebooting the device (no administrative
intervention) when the auto-image is
successfully downloaded.
GC
boot host auto-save
Enables/disables automatically saving the
downloaded configuration on the switch.
GC
Command Description Modea
Dell EMC Networking CLI 197
CLI Macro
Clock
boot host dhcp
Enables/disables Auto Config on the switch. GC
boot host retry-count
Set the number of attempts to download a
configuration.
GC
show auto-copy-sw
Displays Stack Firmware Synchronization
configuration status.
PE
show boot
Displays the current status of the Auto Config
process.
PE
a. For the meaning of each Mode abbreviation, see
Mode Types
.
Command Description Modea
a. For the meaning of each Mode abbreviation, see
Mode Types
.
macro name
Creates a user-defined macro. GC
macro global apply
Use to apply a macro. GC
macro global trace
Applies and traces a macro. GC
macro global description
Appends a line to the global macro description. GC
macro apply
Use to apply a macro. IC
macro trace
Applies and traces a macro. IC
macro description
Appends a line to the macro description. IC
show parser macro
Displays information about defined macros. PE
Command Description Modea
show sntp configuration
Displays the SNTP configuration. PE
show sntp server
Displays the preconfigured SNTP servers. PE
show sntp status
Displays the SNTP status. PE
sntp authenticate
Set to require authentication for received NTP
traffic from servers.
GC
sntp authentication-key
Defines an authentication key for SNTP. GC
Command Description Modea
Dell EMC Networking CLI 198
Command Line Configuration Scripting
sntp broadcast client enable
Enables SNTP Broadcast clients. GC
sntp client poll timer
Defines polling time for the SNTP client. GC
sntp server
Configures the SNTP server to use SNTP to
request and accept NTP traffic from it.
GC
sntp source-interface
Selects the interface from which to use the IP
address in the source IP address field of
transmitted SNTP packets.
GC
sntp trusted-key
Authenticates the identity of a system to which
Simple Network Time Protocol (SNTP) will
synchronize.
GC
sntp unicast client enable
Enables clients to use Simple Network Time
Protocol (SNTP) predefined Unicast clients.
GC
clock timezone hours-offset
Sets the offset to Coordinated Universal Time. GC
no clock timezone
Resets the time zone settings. GC
clock summer-time
recurring
Sets the summertime offset to UTC recursively
every year.
GC
clock summer-time date
Sets the summertime offset to UTC. GC
no clock summer-time
Resets the summertime configuration. GC
show clock
Displays the time and date from the system
clock.
PE
a. For the meaning of each Mode abbreviation, see
Mode Types
.
Command Description Modea
There are no user guidelines
for this command.
Applies commands in the script to the switch. PE
script delete
Deletes a specific script. PE
script list
Lists all scripts present in the switch. PE
script show
Displays the contents of a script file. PE
script validate
Validates a script file. PE
Command Description Modea
Dell EMC Networking CLI 199
DHCP Client
a. For the meaning of each Mode abbreviation, see
Mode Types
.
Configuration and Image Files
Command Description Modea
boot system
Specifies the system image that the switch loads
at startup.
PE
clear config
Restores switch to default configuration. PE
copy
Copies files from a source to a destination. PE
delete
Deletes a file from a flash memory. PE
dir
Prints the contents of the flash file system. PE
erase
Erases the startup configuration, the backup
configuration, or the backup image.
PE
filedescr
Adds a description to a file. PE
rename
Renames the file present in flash. PE
show backup-config
Displays contents of a backup configuration
file.
PE
show bootvar
Displays the active system image file that the
switch loads at startup.
UE
show running-config
Displays the contents of the currently running
configuration file.
PE
show startup-config
Displays the startup configuration file contents. PE
write
Copies the running configuration image to the
startup configuration.
PE
a. For the meaning of each Mode abbreviation, see
Mode Types
.
Command Description Modea
release dhcp
Forces the DHCPv4 client to release a leased
address.
PE
renew dhcp
Forces the DHCP client to immediately renew
an IPv4 address lane.
PE
Dell EMC Networking CLI 200
HiveAgent
Line
show dhcp lease
Displays IPv4 addresses leased from a DHCP
server.
PE
a. For the meaning of each Mode abbreviation, see
Mode Types
.
Command Description Modea
a. For the meaning of each Mode abbreviation, see
Mode Types
.
eula-consent
Accepts or declines the end-user license
agreement (EULA) for the hive agent
GC
hiveagent
Accesses the HiveAgent configuration mode. GC
server
Configures a HiveAgent server (HiveManager
NG) and enter HiveAgent server configuration
mode.
HAC
enable
Enables a HiveAgent server. HAC
proxy-ip-address
Configures a proxy server to be used to contact
the HiveManager NG.
HAC
url
Configures the URL to reach on HiveManager
NG.
HAC
show hiveagent status
Displays information on the HiveAgent
configuration.
PE,
GC
show eula-consent hiveagent
Reviews the EULA details. PE,
GC
Command Description Modea
accounting
Applies an accounting method to a line config. LC
authorization
Applies a command authorization method to a
line config.
LC
enable authentication
Specifies the authentication method list when
accessing a higher privilege level from a remote
telnet or console.
LC
Command Description Modea
Dell EMC Networking CLI 201
PHY Diagnostics
exec-banner
Enables exec banner on the console, telnet or
SSH connection.
LC
exec-timeout
Configures the interval that the system waits for
user input before Privileged Exec mode
timeout.
LC
history
Enables the command history function. LC
history size
Changes the command history buffer size for a
particular line.
LC
line
Identifies a specific line for configuration and
enters the line configuration command mode.
GC
login authentication
Specifies the login authentication method list
for a remote telnet or console.
LC
login-banner
Enables login banner on the console, telnet, or
SSH connection.
LC
nsf
Enables display of the message of the day
banner on the console, telnet, or SSH
connection.
LC
password (Line
Configuration)
Specifies a password on a line. LC
show line
Displays line parameters. UE
speed
Sets the serial port BAUD rate. LC
terminal length
Sets the terminal length. PE
a. For the meaning of each Mode abbreviation, see
Mode Types
.
Command Description Modea
show copper-ports tdr
Displays the last TDR (Time Domain
Reflectometry) tests on specified ports.
PE
show fiber-ports optical-
transceiver
Displays the optical transceiver diagnostics. PE
Command Description Modea
Dell EMC Networking CLI 202
Power Over Ethernet (PoE)
test copper-port tdr
Diagnoses with TDR (Time Domain
Reflectometry) technology the quality and
characteristics of a copper cable attached to a
port.
PE
a. For the meaning of each Mode abbreviation, see
Mode Types
.
Command Description Modea
a. For the meaning of each Mode abbreviation, see
Mode Types
.
power inline
Enables/disables the ability of the port to
deliver power.
IC
(Ethernet)
power inline detection
Configures the detection type that tells
which types of PD’s will be detected and
powered by the switch.
IC
power inline four-pair
forced
Forces 4-pair power feed on an interface. IC
power inline limit
Configure the type of power limit. IC
power inline management
Sets the power management type. GC
power inline powered-
device
Adds a comment or description of the
powered device type.
IC
(Ethernet)
power inline priority
Configures the port priority level for the
delivery of power to an attached device.
IC
(Ethernet)
power inline reset
Use to reset the port. IC
power inline usage-
threshold
Configures the system power usage
threshold level at which lower priority
ports are disconnected.
GC
clear power inline statistics
Clears the PoE statistics. PE
show power inline
Reports current PoE configuration and
status.
PE
show power inline
firmware-version
Displays the version of the PoE controller
firmware present on the switch file system.
PE
Command Description Modea
Dell EMC Networking CLI 203
RMON
Serviceability Tracing
Command Description Modea
a. For the meaning of each Mode abbreviation, see
Mode Types
.
rmon alarm
Configures alarm conditions. GC
rmon collection history
Enables a Remote Monitoring (RMON) MIB
history statistics group on an interface.
IC
rmon event
Configures an RMON event. GC
rmon hcalarm
Configures high capacity alarms. GC
show rmon alarm
Displays alarm configurations. UE
show rmon alarms
Displays the alarms summary table. UE
and
PE
show rmon collection history
Displays
the requested group of statistics.
UE
show rmon events
Displays the RMON event table. UE
show rmon hcalarm
Displays the high capacity alarms. PE
show rmon history
Displays RMON Ethernet Statistics history. UE
show rmon log
Displays the RMON logging table. UE
show rmon statistics
Displays RMON Ethernet Statistics. UE
Command Description Modea
debug aaa accounting
Enables debugging for accounting. PE
debug arp
Enables tracing of ARP packets. PE
debug authentication
interface
Enables Authentication Manager debug traces
for the interface.
PE
debug auto-voip
Enables Auto VOIP debug messages. PE
debug bfd
Enables the display of BFD events or packets. PE
debug cfm
Enables CFM debugging. PE
debug clear
Disables all debug traces. PE
Dell EMC Networking CLI 204
debug console
Enables the display of debug trace output on
the login session in which it is executed.
PE
debug crashlog
Displays the crash log contents on the console. PE or
GC
debug dhcp packet
Displays debug information about DHCPv4
client activities and traces DHCP v4 packets to
and from the local DHCPv4 client.
PE
debug dot1ag
Enable the tracing of CFM components for
events and CFM PDUs based on the type of
packet for reception and transmission.
PE
debug dot1x
Enables dot1x packet tracing. PE
debug igmpsnooping
Enables tracing of IGMP Snooping packets
transmitted and/or received by the switch.
PE
debug ip acl
Enables debug of IP Protocol packets matching
the ACL criteria.
PE
debug ip bgp
Enables debug tracing of BGP events. PE
debug ip dvmrp
Traces DVMRP packet reception and
transmission.
PE
debug ip igmp
Traces IGMP packet reception and
transmission.
PE
debug ip mcache
Traces MDATA packet reception and
transmission.
PE
debug ip pimdm packet
Traces PIMDM packet reception and
transmission.
PE
debug ip pimsm packet
Traces PIMSM packet reception and
transmission.
PE
debug ipv6 dhcp
Displays debug information about DHCPv6
client activities and to trace DHCPv6 packets to
and from the local DHCPv6 client.
PE
debug ipv6 mcache
Traces MDATAv6 packet reception and
transmission.
PE
debug ipv6 mld
Traces MLD packet reception and transmission. PE
Command Description Modea
Dell EMC Networking CLI 205
debug ipv6 pimdm
Traces PIMDMv6 packet reception and
transmission.
PE
debug ipv6 pimsm
Traces PIMSMv6 packet reception and
transmission.
PE
debug isdp
Traces ISDP packet reception and transmission. PE
debug lacp
Traces of LACP packets received and
transmitted by the switch.
PE
debug mldsnooping
Traces MLD snooping packet reception and
transmission.
PE
debug ospf
Enables tracing of OSPF packets received and
transmitted by the switch.
PE
debug ospfv3
Enables tracing of OSPFv3 packets received and
transmitted by the switch.
PE
debug ping
Enables tracing of ICMP echo requests and
responses.
PE
debug rip
Enables tracing of RIP requests and responses. PE
debug sflow
Enables sFlow debug packet trace. PE
debug spanning-tree
Traces spanning tree BPDU packet reception
and transmission.
PE
debug spanning-tree
Traces spanning tree BPDU packet reception
and transmission.
PE
debug udld
Enables the display of UDLD packets or event
processing.
PE
debug vpc
Enables debug traces for the specified protocols GC
debug vrrp
Enables VRRP debug protocol messages. PE
exception core-file
Configures the core dump file name. GC
exception dump
Configures the core dump location. GC
exception protocol
Enables full core dumps. GC
exception switch-chip-
register
Enables the dumping of the switch chip
registers in case of an exception.
GC
Command Description Modea
Dell EMC Networking CLI 206
sFlow
ip http timeout-policy
Configures the timeout policy for closing HTTP
and HTTPS sessions to the local HTTP server.
GC
show debugging
Displays packet tracing configurations. PE
show supported mibs
Displays the HTTP server status and
configuration.
PE,
GC
show supported mibs
Displays the implemented SNMP MIBs. PE,
GC
snapshot bgp
Dumps a set of BGP debug information to
capture the current state of BGP.
S
write core
Generates a core file on demand and either,
reboots the switch or tests the core file
configuration.
PE
a. For the meaning of each Mode abbreviation, see
Mode Types
.
Command Description Modea
sflow destination
Configures sFlow collector parameters (owner
string, receiver timeout, ip address, and port).
GC
sflow polling
Enables a new sflow poller instance for the data
source if rcvr_idx is valid.
GC
sflow polling (Interface
Mode)
Enable a new sflow poller instance for this data
source if rcvr_idx is valid.
IC
sflow sampling
Enables a new sflow sampler instance for this
data source if rcvr_idx is valid.
GC
sflow sampling (Interface
Mode)
Enables a new sflow sampler instance for this
data source if rcvr_idx is valid.
IC
sflow source-interface
Selects the interface from which to use the IP
address inserted in the source IP address field of
transmitted sFlow packets.
GC
show sflow agent
Displays the sflow agent information. PE
show sflow destination
Displays all the configuration information
related to the sFlow receivers.
PE
Command Description Modea
Dell EMC Networking CLI 207
SNMP
show sflow polling
Displays the sFlow polling instances created on
the switch.
PE
show sflow sampling
Displays the sFlow sampling instances created
on the switch.
PE
show sflow source-interface
Displays the assigned sFlow source interface. PE or
GC
a. For the meaning of each Mode abbreviation, see
Mode Types
.
Command Description Modea
show snmp
Displays the SNMP status. PE
show snmp engineid
Displays the SNMP engine ID. PE
show snmp filters
Displays the configuration of filters. PE
show snmp group
Displays the configuration of groups. PE
show snmp user
Displays the configuration of users. PE
show snmp views
Displays the configuration of views. PE
show trapflags
Displays SNMP traps globally or displays
specific SNMP traps.
PE
snmp-server community
Sets up the community access string to permit
access to SNMP protocol.
GC
snmp-server community-
group
Maps SNMP v1 and v2 security models to the
group name.
GC
snmp-server contact
Set
s up a system contact (sysContact) string.
GC
snmp-server enable traps
Enables SNMP traps globally or enables specific
SNMP traps.
GC
snmp-server engineID local
Specifies the Simple Network Management
Protocol (SNMP) engine ID on the local switch.
GC
snmp-server filter
Creates or updates an SNMP server filter entry. GC
snmp-server group
Configures a new SNMP group or a table that
maps SNMP users to SNMP views.
GC
snmp-server host
Specifies the recipient of SNMP notifications. GC
Command Description Modea
Dell EMC Networking CLI 208
Support Assist
snmp-server location
Sets
the system location string.
GC
snmp-server user
C
onfigures a new SNMP Version 3 user.
GC
snmp-server view
Creates or updates a Simple Network
Management Protocol (SNMP) server view
entry.
GC
snmp-server v3-host
Specifies the recipient of Simple Network
Management Protocol Version 3 (SNMPv3)
notifications.
GC
snmp-server source-interface
Selects the interface from which to use the IP
address in the source IP address field of
transmitted SNMP traps and informs.
GC
a. For the meaning of each Mode abbreviation, see
Mode Types
.
Command Description Modea
eula-consent
Accepts or rejects the end-user license
agreement (EULA) for the SupportAssist server.
GC
contact-company
Configures the contact information to be sent
to the SupportAssist server.
SAC
contact-person
Configures the contact information to be sent
to the SupportAssist server.
SAC
enable
Enables a SupportAssist server. SAC
proxy-ip-address
Configures a proxy server to be used to contact
the SupportAssist servers.
SAC
server
Configures a SupportAssist server and enter
SupportAssist server configuration mode.
SAC
show eula-consent support-
assist
Reviews the EULA details whenever desired. PE
show support-assist status
Displays information on the SupportAssist
feature status
PE,
GC
Command Description Modea
Dell EMC Networking CLI 209
Syslog
support-assist
Enables support-assist configuration mode if
the EULA has been accepted.
GC
url
Configures the URL to reach on the
SupportAssist remote server.
SAC
a. For the meaning of each Mode abbreviation, see
Mode Types
.
Command Description Modea
clear logging
Clears messages from the in memory logging
buffer.
PE
clear logging file
Clears messages from the logging file. PE
description (Logging)
Describes the SYSLOG server. L
level
Specifies the level of SYSLOG messages sent to
the server.
L
logging cli-command
Enables CLI command logging. GC
logging
Configures a SYSLOG server GC
logging audit
Enables switch auditing. GC
logging buffered
Enables logging to the in-memory log. GC
logging console
Enables logging to the console. GC
logging facility
Configures the facility to be used in SYSLOG
messages.
GC
logging file
Enables logging to the persistent (on flash) log. GC
logging monitor
Enables logging messages to telnet and SSH
sessions with the default severity level.
GC
logging on
Enables error messages logging. GC
logging protocol
Logs messages in RFC5424 of RFC 3164
format.
GC
logging snmp
Enables SNMP Set command logging. GC
logging source-interface
Selects the interface from which to use the IP
address in the source IP address field of
transmitted SYSLOG packets.
GC
Command Description Modea
Dell EMC Networking CLI 210
System Management
logging traps
Sets the lowest severity level at which SNMP
traps are logged.
GC
logging web-session
Enables web session logging. GC
port
Specifies the port number on which the
SYSLOG server listens for messages.
L
show logging
Displays the state of logging and the messages
stored in the internal buffer.
PE
show logging file
Displays the state of logging and the messages
stored in the logging file.
PE
show syslog-servers
Displays the SYSLOG server settings. PE
terminal monitor
Enables the display of logging messages over a
telnet of SSH session.
PE
a. For the meaning of each Mode abbreviation, see
Mode Types
.
Command Description Modea
asset-tag
Specifies the switch asset-tag. GC
banner exec
Sets the message that is displayed after a
successful login.
GC
banner login
Sets the message that is displayed just before
the login prompt.
GC
banner motd
Specifies message-of-the-day banner. GC
banner motd
acknowledge
Acknowledges message-of-the-day banner. GC
buffers
Configures the rising and falling thresholds for
the issuance of the message buffer SNMP trap
and notification via a SYSLOG message.
GC
clear checkpoint
statistics
Clears the statistics for the checkpointing
process.
GC
clear counters stack-
ports
Clears the statistics for all stack-ports. PE
Command Description Modea
Dell EMC Networking CLI 211
connect
Connects to the serial console of a different
stack member.
PE
cut-through mode
Enables cut-through mode on the switch (if
supported).
GC
exit
Disconnects the serial connection to the remote
unit.
UE
hardware profile
portmode
Configures a 40G port in 4x10G mode or
1x40G mode.
IC
hostname
Specifies or modifies the switch host name. GC
initiate failover
Forces failover of management unit. GC
load-interval
Loads the interface utilization measurement
interval.
IC
locate
Locates a switch by LED blinking. PE
logout
Disconnects the serial connection to a remote
unit on a stack member.
UE
member
Preconfigures a stack member. SG
memory free low-
watermark
Configures the notification of a low memory
condition on the switch for the issuance of the
CPU overload SNMP trap and notification via a
SYSLOG message.
GC
nsf
Specifies non-stop forwarding. GC
ping
Sends ICMP echo request packets to another
node on the network.
UE
process cpu threshold
Configures the rising and falling thresholds for
the issuance of the CPU overload SNMP trap
and notification via a SYSLOG message.
GC
quit
Disconnects the serial connection to the remote
unit on a stack member.
UE
reload
Reloads the operating system. PE
set description
Associates a text description with a switch in
the stack.
SG
slot
Configures a slot in the system. GC
Command Description Modea
Dell EMC Networking CLI 212
show banner
Displays banner information. PE
show buffers
Displays the system allocated buffers. UE or PE
show checkpoint
statistics
Displays the statistics for the checkpointing
process.
PE
show cut-through mode
Show the cut-through mode on the switch. PE
show hardware profile
Displays the hardware profile information for
the 40G ports.
PE
show idprom interface
Displays the optics EEPRM contents in a user-
readable format.
UE or PE
show interfaces
Displays the traffic statistics for one or multiple
interfaces.
UE
show interfaces
advanced firmware
Displays the firmware revision of the PHY for a
port.
PE
show interfaces
Displays the static and dynamic parameters for
the optics.
UE or PE
show interfaces
utilization
Displays the interface utilization. PE
show memory cpu
Checks the total and available RAM space on
the switch.
PE
show nsf
Shows non-stop forwarding status. PE
show power-usage-
history
Shows the history of unit power consumption
for the unit specified in the command and total
stack power consumption.
PE
show process app-list
Displays the system applications. PE or GC
show process app-
resource-list
Lists the configured and in-use resources for
each application known to the Process Manager.
PE or GC
show process cpu
Checks the CPU utilization for each process
currently running on the switch.
PE
show process proc-list
Lists the configured and in-use resources for
each application known to the Process Manager.
PE or GC
show sessions
Displays a list of the open console sessions. PE
Command Description Modea
Dell EMC Networking CLI 213
show slot
Displays information about all the slots in the
system or for a specific slot.
UE
show supported cardtype
Displays information about all card types
supported in the system.
UE
show supported
switchtype
Displays information about all supported switch
types.
UE
show switch
Displays information about the switch status. UE
show system
Displays system information. UE
show system fan
Explicitly displays the fan status. UE or PE
show system id
Displays the service ID information. UE
show system power
Displays information about the system level
power consumption.
UE or PE
show system
temperature
Displays information about the system
temperature and fan status.
UE or PE
show tech-support
Displays system and configuration information
(for debugging/calls to technical support).
PE
show users
Displays information about the active users,
including which profiles have been assigned to
local user accounts and which profiles are active
for logged-in users.
PE
show version
Displays the system version information. UE
stack
Sets the mode to Stack Configuration mode. GC
stack-port
Sets the mode to Stack Configuration mode to
configure Stack ports as either Stacking ports or
as Ethernet ports.
GC
stack-port shutdown
Enables or disable the stack port
administratively.
SC
standby
Configures the standby in the stack. SG
switch renumber
Changes the identifier for a switch in the stack. GC
telnet
Logs into a host that supports Telnet. PE
traceroute
Discovers the IP routes that packets actually
take when traveling to their destinations.
PE
Command Description Modea
Dell EMC Networking CLI 214
Telnet Server
Time Ranges
traceroute ipv6
Discovers the IP routes that packets actually
take when traveling to their destinations.
PE
update bootcode
Updates the boot code on one or more switches. PE
a. For the meaning of each Mode abbreviation, see
Mode Types
.
Command Description Modea
a. For the meaning of each Mode abbreviation, see
Mode Types
.
ip telnet server disable
Enables/disables the Telnet service on the
switch.
GC
ip telnet port
Configures the Telnet TCP port number on the
switch.
GC
show ip telnet
Displays the status of the Telnet server and the
Telnet TCP port number.
PE
Command Description Modea
a. For the meaning of each Mode abbreviation, see
Mode Types
.
time-range [name]
Creates a time range identified by name,
consisting of one absolute time entry and/or one
or more periodic time entries.
GC
absolute
Adds an absolute time entry to a time range. TRC
periodic
Adds a periodic time entry to a time range. TRC
show time-range
Displays a time range and all the
absolute/periodic time entries that are defined
for the time range.
PE
Command Description Modea
Dell EMC Networking CLI 215
USB Flash Drive
User Interface
Web Server
Command Description Modea
a. For the meaning of each Mode abbreviation, see
Mode Types
.
unmount usb
Makes the USB flash device inactive. PE
show usb
Displays the USB flash device details. PE
dir usb
Displays the USB device contents and memory
statistics.
PE
Command Description Modea
a. For the meaning of each Mode abbreviation, see
Mode Types
.
configure terminal
Enters Global Configuration mode. PE
do
Executes commands available in Privileged
Exec mode with command line completion.
All
except
PE
and
UE
enable
Enters the privileged Exec mode. UE
end
Gets the CLI user control back to the privileged
execution mode or user execution mode.
Any
exit
Exits any configuration mode to the previously
highest mode in the CLI mode hierarchy.
(All)
quit
|
exit
|
logout
Closes an active terminal session by logging off
the switch.
UE
Command Description Modea
common-name
Specifies the common-name for the device. CC
country
Specifies the country. CC
crypto certificate generate
Generates a HTTPS certificate. GC
Dell EMC Networking CLI 216
crypto certificate import
Imports a certificate signed by the Certification
Authority for HTTPS.
GC
crypto certificate request
Generates and displays a certificate request for
HTTPS.
PE
duration
Specifies the duration in days. CC
ip http port
Specifies the TCP port for use by a web browser
to configure the switch.
GC
ip http server
Enables the switch to be configured from a
browser.
GC
ip http secure-certificate
Configures the active certificate for HTTPS. GC
ip http secure-port
Configures a TCP port for use by a secure web
browser to configure the switch.
GC
ip http secure-server
Enables the switch to be configured, monitored,
or modified securely from a browser.
GC
key-generate
Specifies the key-generate. CC
location
Specifies the location or city name. CC
no crypto certificate
Deletes a certificate from the switch. GC
organization-unit
Specifies the organization-unit or department
name.
CC
show crypto certificate
mycertificate
Displays the SSL certificates of your switch. PE
show ip http server status
Displays the HTTP server status information. PE
show ip http server secure
status
Displays the HTTP secure server status
information.
UE or
PE
state
Specifies the state or province name. CC
a. For the meaning of each Mode abbreviation, see
Mode Types
.
Command Description Modea
Using the CLI 217
2
Using the CLI
Dell EMC Networking N1100-ON/N1500/N2000/N2100-
ON/N3000/N3100-ON/N4000 Series Switches
Introduction
This section describes the basics of entering and editing the Dell EMC
Networking N1100-ON, N1500, N2000, N2100-ON, N3000, N3100-ON, and
N4000 Series Command Line Interface (CLI) commands and defines the
command hierarchy. It also explains how to activate the CLI and implement
its major functions.
This section covers the following topics:
•Entering and Editing CLI Commands
•CLI Command Modes
•Starting the CLI
•Using CLI Functions and Tools
Entering and Editing CLI Commands
A CLI command is a series of keywords and arguments. The total number of
characters that may be entered in a single command is limited to 1536
characters. Keywords identify a command and arguments specify
configuration parameters. For example, in the command show interfaces
status gigabitethernet 1/0/5, show, interfaces and status are keywords;
gigabitethernet is an argument that specifies the interface type, and 1/0/5 is
an argument that specifies the unit/slot/port.
When working with the CLI, the command options are not displayed. The
command is not selected by a menu but is entered manually. To see what
commands are available in each mode or within an Interface Configuration,
the CLI provides a method of displaying the available commands, the
command syntax requirements and in some instances parameters required to
complete the command. The standard command to request context-sensitive
help is the <?> key.
Using the CLI 218
Two instances where the help information can be displayed are:
•Keyword lookup — The <?> key is entered in place of a command. A list
of all valid commands and corresponding help messages is displayed.
•Partial keyword lookup — A command is incomplete and the <?> key is
entered in place of a parameter. The matched parameters for this
command are displayed.
The following features and conventions are applicable to CLI command entry
and editing:
•History Buffer
•Negating Commands
•Show Command
•Command Completion
•Short Form Commands
•Keyboard Shortcuts
•Command line parameters are entered by the user to choose an individual
value or range of values for the specific command. Command line
parameters are not syntax or range checked until the carriage return is
entered. In some cases, the user may need to enter special characters, most
often in a string parameter such as a password or a label. Special characters
are one of the following characters (`! $ % ^ & * ( ) _ - + = { [ } ] : ; @ '
" ~ # | \ < , > . / ) or a blank. In these cases, it may be necessary to
enclose the entire string in double or single quotes for the command line
parser to properly interpret the parameter.Parameters
•Command Scripting
•CLI Command Notation Conventions
•Interface Naming Conventions
History Buffer
Every time a command is entered in the CLI, it is recorded in an internally
managed Command History buffer. Commands are stored in the buffer,
which operates on a First In First Out (FIFO) basis. These commands can be
recalled, reviewed, modified, and reissued. This buffer is not preserved after
switch resets.
Using the CLI 219
Table 2-1. History Buffer
By default, the history buffer system is enabled, but it can be disabled at any
time. The standard number of 10 stored commands can be increased to 216.
By configuring 0, the effect is the same as disabling the history buffer system.
For information about the command syntax for configuring the command
history buffer, see the
history size
command in the Line command mode
section of this guide.
Negating Commands
For many commands, the prefix keyword no is entered to cancel the effect of
a command or reset the configuration to the default value. Nearly all
configuration commands have this capability. This guide describes the
negation effect for all commands to which it applies.
Show Command
The show command executes in the User Executive (Exec), Privileged
Executive (Exec), Global Configuration mode, Interface Configuration mode
and all configuration submodes with command completion. Output from
show commands is paginated. Use the terminal length command to set the
number of lines displayed in a page. When the paging prompt appears, press
the space bar to display the next page of output or the enter key to display the
next line of output.
Example:
console>en
console#configure
console(config)#interface Gi1/0/1
Keyword Source or Destination
Up-arrow key
<Ctrl>+<P>
Recalls commands in the history buffer, beginning with the
most recent command. Repeats the key sequence to recall
successively older commands.
Down-arrow key
<Ctrl>+<N>
Returns to more recent commands in the history buffer after
recalling commands with the up-arrow key. Repeating the key
sequence recalls more recent commands in succession.
Using the CLI 220
console(config-if-Gi1/0/1)#show interface status
Port Name Duplex Speed Neg Link Flow
State Status Control
--------- ------------------------- --------- ------------- --------- --------- ------------
Gi1/0/1 N/A Unknown Auto Down Inactive
Gi1/0/2 N/A Unknown Auto Down Inactive
Gi1/0/3 N/A Unknown Auto Down Inactive
Gi1/0/4 N/A Unknown Auto Down Inactive
Gi1/0/5 N/A Unknown Auto Down Inactive
Gi1/0/6 N/A Unknown Auto Down Inactive
Command Completion
CLI can complete partially entered commands when the user presses the
<tab> or <space> key. If a command entered is not complete, is not valid,
or if some parameters of the command are not valid or missing, an error
message is displayed to assist in entering the correct command. By pressing
the <tab> key, an incomplete command is changed into a complete
command. If the characters already entered are not enough for the system to
identify a single matching command, the <?>key displays the available
commands matching the characters already entered.
Short Form Commands
The CLI supports the short forms of all commands. As long as it is possible to
recognize the entered command unambiguously, the CLI accepts the short
form of the command as if the user typed the full command.
Keyboard Shortcuts
The CLI has a range of keyboard shortcuts to assist in editing the CLI
commands. The help command, when used in the User Exec and Privileged
Exec modes, displays the keyboard short cuts.
Table 2-2 contains the CLI shortcuts displayed by the help command.
Using the CLI 221
Table 2-2. CLI Shortcuts
Parameters
Command line parameters are entered by the user to choose an individual
value or range of values for the specific command. Command line parameters
are not syntax or range checked until the carriage return is entered. In some
cases, the user may need to enter special characters, most often in a string
parameter such as a password or a label. Special characters are one of the
following characters (`! $ % ^ & * ( ) _ - + = { [ } ] : ; @ ' " ~ # | \ < , > . /
Keyboard Key Description
<Delete, Backspace> Delete previous character
<Ctrl>+<A> Go to beginning of line
<Ctrl>+<E> Go to end of line
<Ctrl>+<F> Go forward one character
<Ctrl>+<B> Go backward one character
<Ctrl>+<D> Delete current character
<Ctrl>+<U,X> Delete to beginning of line
<Ctrl>+<K> Delete to the end of the line.
<Ctrl>+<W> Delete previous word
<Ctrl>+<T> Transpose previous character
<Ctrl>+<P> Go to previous line history buffer
<Ctrl>+<R> Rewrites or pastes the line
<Ctrl>+<N> Go to next line in history buffer
<Ctrl>+<Y> Print last deleted character
<Ctrl>+<Q> Pauses screen output.
<Ctrl>+<S> Resumes screen output.
<Ctrl>+<Z> Return to root command prompt
<Tab, SPACE> Command-line completion
end Return to the root command prompt
exit Go to next lower command prompt
<?> List choices
Using the CLI 222
) or a blank. In these cases, it may be necessary to enclose the entire string in
double or single quotes for the command line parser to properly interpret the
parameter.
Command Scripting
The CLI can be used as a programmable management interface. To facilitate
this function, any characters entered after the <!> character are treated as a
comment and ignored by the CLI. Also, the CLI allows the user to disable
session timeouts.
CLI Command Notation Conventions
When entering commands there are certain command-entry notations which
apply to all commands. Table 2-3 describes these conventions as they are used
in syntax definitions.
Using the CLI 223
Table 2-3. CLI Command Notation Conventions
Interface Naming Conventions
The conventions for naming interfaces in CLI commands are as follows:
Ethernet Interfaces
Individual physical interfaces (Gigabit Ethernet, Ten Gigabit Ethernet, and
Forty Gigabit Ethernet) are identified in the CLI by the variable
unit/slot/port, where:
• <Interface Type> Unit#/Slot#/Port# — Identifies a specific interface by
the interface type tag followed by the Unit# followed by a / symbol, then
the Slot# followed by a / symbol, and then the Port#.
For example,
gi2/0/10 identifies the Gigabit interface 10 in slot 0 within the second
unit on a non-blade switch. Table 2-4 below lists the supported interface
type tags.
• Unit # — The unit number is greater than 1 only in a stacking solution
where a number of switches are stacked to form a virtual switch. In this
case, the Unit# indicates the logical position of the switch in a stack. The
range is 1–12. The unit value is 1 for standalone switches.
Convention Description
[ ]In a command line, square brackets indicate an optional entry.
{ }In a command line inclusive brackets indicate a selection of
compulsory parameters separated by the | character. One option
must be selected. For example: flowcontrol {auto | on | off}
means that for the flowcontrol command either auto, on or off
must be selected.
Italic Indicates a variable.
<Enter> Any individual key on the keyboard.
<Ctrl>+<F4> Any combination of keys pressed simultaneously on the keyboard.
Screen Display Indicates system messages and prompts appearing on the
console.
all Indicates a literal parameter, entered into the command as it is.
Using the CLI 224
• Slot# — The slot number is an integer number assigned to a particular
slot. Front panel ports have a slot number of 0. Rear panel ports are
numbered from 1 and can be identified by the lexan on the rear panel. Use
the show slot command to retrieve information for a particular slot.
•Port # — The port number is an integer number assigned to the physical
port on the switch and corresponds to the lexan printed next to the port on
the front or back panel. Ports are numbered from 1 to the maximum
number of ports available on the switch unit, typically 24 or 48.
Logical interfaces are identified by one of the keywords: loopback, port-
channel, tunnel or vlan followed an integer index identifying the specific
logical interface.
Within this document, the tag interface–id refers to a logical or Ethernet
interface identifier that follows the naming convention above. If the
command is restricted to a subset of the interfaces, then the subset is
described in the command description. Ethernet interfaces are
Gigabitethernet, Tengigabitethernet, and Fortygigabitethernet. NBASE-T
interfaces running at 2.5 and 5 Gigabit speeds are identified as
Gigabitethernet.
Using the CLI 225
Table 2-4. Interface Identifiers
When listed in command line output, Gigabit Ethernet interfaces are
preceded by the characters Gi, ten-Gigabit Ethernet interfaces are preceded
by Te, and forty-Gigabit Ethernet interfaces are preceded by Fo, as shown in
the examples below.
Stacking Interfaces
Stacking interfaces are represented in the CLI with the same unit/slot/port
form as Ethernet interfaces. The fixed stacking interfaces on the
N2000/N2100-ON/N3000 switches always use the TwentyGigabitStacking or
Tw notation and on the N1100-ON/N1500/N4000 switches, are referred to
using Ethernet notation.
Loopback Interfaces
Loopback interfaces are represented in the CLI by the keyword loopback
followed by the variable loopback-id, which can assume values from 0–7.
Port Channel Interfaces
Port-channel (or LAG) interfaces are represented in the CLI by the keyword
port-channel followed by the variable port-channel-number.
Interface Type Long Form Short Form Interface Identifier
Gigabit Ethernet Gigabitethernet Gi unit/slot/port
10-Gigabit
Ethernet
Tengigabitethernet Te unit/slot/port
21-Gigabit
Stacking
Twentygigabitstacking Tw unit/slot/port
40-Gigabit
Ethernet
Fortygigabitethernet Fo unit/slot/port
Loopback Loopback Lo loopback-id (0-7)
Port Channel Port-channel Po port-channel-number
(1-128) N1500 (1–64)
Tunnel Tunnel Tu tunnel-id (0-7)
Vlan VLAN Vl vlan-id (1-4093)
Using the CLI 226
When listed in command line output, port channel interfaces are preceded by
the characters Po.
Tunnel Interfaces
Tunnel interfaces are represented in the CLI by the keyword tunnel followed
by the variable tunnel-id, which can assume values from 0–7.
VLAN Routing Interfaces
VLAN interfaces are represented in the CLI by the keywords interface vlan
followed by the variable vlan-id, which can can assume values from 1-4093. A
VLAN routing interface will typically have an IP address assigned, either via
DHCP or a static assignment or, in the case of IPv6, auto assignment of a link
local address.
Operating on Multiple Interfaces (Ranges)
The CLI allows the user to operate on multiple interfaces in one operation.
The guidelines are as follows for range operation:
• The range key word is used to identify that an interface range specifier
follows.
– An interface range specifier consists of an interface identifier followed
by an optional range parameter. The interface type may be a physical
interface or a logical interface (port channel or VLAN) as described in
the Interface Naming Conventions section.
• The range parameter may be written in the following manner:
(#-#) — a range from a particular interface to another higher-numbered
interface (inclusive). For example, 1/0/1-10 indicates that the operation
applies to the physical interfaces 1 to 10 in slot 0 on unit 1. The number to
the left of the hyphen must always be less than or equal to the number to
the right of the hyphen, e.g. interface range Gi1/0/10-1 is not valid.
(#, #, #) — a list of interfaces. For example, (1/0/1, 1/0/1,1/0/3, 1/0/5)
indicates that the operation applies to the physical interfaces 1, 3, and 5 on
unit 1. The interfaces may or may not be consecutive, nor must the
interfaces be of the same type.
Using the CLI 227
(#, #-#, #) — ranges and non-consecutive interfaces listed together. For
example, (1/0/1, 1/0/3-5, 1/0/7) indicates that the operation applies to the
physical interfaces 1, 3, 4, 5, and 7 on unit 1.
NOTE: Each physical interface must be a fully qualified interface identifier in
the format unit/slot/port. See
Interface Naming Conventions
.
• Port channels and VLANs are supported in ranges.
• No spaces are allowed anywhere in a range parameter, e.g. Gi1/0/1 -2 is not
accepted, nor is Gi1/0/2, Gi1/0/4. Use Gi1/0/1-2 and Gi/1/0/2,Gi1/0/4
respectively.
• When operating on a range of interfaces, the CLI implementation hides
the parameters that may not be configured in a range (for example,
parameters that must be uniquely configured for each instance).
• The CLI uses best effort when operating on a list of objects. If the user
requests an operation on a list of objects, the CLI attempts to execute the
operation on as many objects in the list as possible even if failure occurs for
some of the items in the list. The CLI provides the user with a detailed list
of all failures, listing the objects and the reasons for the failures.
Some parameters must be configured individually for each port or interface.
Examples
Example 1 shows the various forms of interface notation that can be entered
in the CLI. Examples 2 and 3 show various forms of CLI output using
shorthand interface notation.
Example #1
gigabitethernet 1/0/1
gigabitethernet1/0/1 (there is no space)
gi 1/0/1
gi1/0/1 (there is no space)
port-channel 1
vlan 5
tunnel 7
loopback 3
Example #2
console(config-if-Gi1/0/23)#show vlan
VLAN Name Ports Type
----- --------------- ------------- --------------
Using the CLI 228
1 default Po1-128, Default
Gi1/0/1-24,
Te1/0/1-2
RSPAN Vlan
---------------------------------------------------------------------
None
console(config-if-Gi1/0/23)#show slot 2/0
Slot.............................. 2/0
Slot Status....................... Empty
Admin State....................... Enable
Power State....................... Enable
Configured Card:
Model Identifier............... Dell Networking N3024F
Card Description............... Dell 24 Port 10G Fiber
Pluggable......................... No
Example #3
console(config-if-Gi1/0/23)#show slot
Admin Power Configured Card
Slot Status State State Model ID Pluggable
----- ------ ------- ------- -------------------------------- ---------
1/0 Full Enable Enable Dell Networking N3024F No
1/1 Empty Disable Disable Yes
2/0 Empty Enable Enable Dell Networking N3024F No
2/1 Empty Enable Enable Yes
3/0 Empty Enable Enable Dell Networking N3048 No
3/1 Empty Enable Enable Yes
console(config-if-Gi1/0/23)#show slot 1/0
Slot.............................. 1/0
Slot Status....................... Full
Admin State....................... Enable
Power State....................... Enable
Inserted Card:
Model Identifier............... Dell Networking N3024F
Card Description............... Dell 24 Port 10G Fiber
Configured Card:
Model Identifier............... Dell Networking N3024F
Card Description............... Dell 24 Port 10G Fiber
Pluggable......................... No
Using the CLI 229
Addresses
MAC Addresses
MAC addresses are specified in 3 groups of four upper or lower case
hexadecimal characters separated by periods with no spaces, e.g.
0011.2233.FFee or by eight pairs of upper or lower case hexadecimal
characters separated by colons, e.g. 00:11:22:33:FF:ee. Leadings zeros must be
specified in all cases.
IPv4 Addresses
IPv4 addresses are specified by four groups of decimal integers in the range 0-
255, i.e. dotted quad notation. Leading zeros are not required. Example IPv4
addresses are 1.2.3.4 or 255.255.255.255.
The net mask, if specified, consists of four decimal digits in dotted quad
notation, e.g. 255.255.252.0 or a decimal prefix length preceded by a forward
slash and indicating the number of left justified 1 bits in the net mask. The
net mask is always separated from an IPv4 address by one or more spaces.
Examples:
1.2.3.0 /24 is equivalent to 1.2.3.0 255.255.255.0
IPv6 Addresses
IPv6 addresses may be expressed in up to eight blocks of four upper or lower
case hexadecimal characters. For simplification, the leading zeros of each 16
bit block may be omitted. One sequence of 16 bit blocks - containing only
zeros - may be replaced by a double colon”::”, but not more than one at a
time. Example IPv6 addresses are:
Dropped zeros: 3ffe:ffff:100:f101:0:0:0:1 becomes 3ffe:ffff:100:f101::1
Local Host: 0000:0000:0000:0000:0000:0000:0000:0001 becomes ::1
Any host: 0000:0000:0000:0000:0000:0000:0000:0000 becomes ::
The prefix length, if specified, ranges from 1 to 128 and is specified by a
forward slash and a decimal number indicating the significant bits of the
address, e.g. 3ffe:ffff:100:f101:0:0:0:/64. No spaces are allowed between the
last address digit and the forward slash.
Using the CLI 230
CLI Command Modes
Since the set of CLI commands is very large, the CLI is structured as a
command-tree hierarchy, where related command sets are assigned to
command modes for easier access. At each level, only the commands related
to that level are available to the user and only those commands are shown in
the context sensitive help for that level.
In this guide, commands are organized into multiple categories:
• Layer 2 Switching commands
• Security commands
• Audio Visual Bridging commands
• Data Center Technology commands
• Layer 3 Routing commands
• Switch Management commands
Layer 2 Switching describes the commands used for filtering and forwarding
of packets within a VLAN based upon learned MAC addresses.
Security describes the commands used to configure switch administrator and
end user network access.
Audio Visual Bridging describes the commands utilized to configure IEEE
802.1BA systems.
Data Center Technology describes the commands used to configure ANSI
T11 FC-BB-5 and OpenFlow capabilities.
Layer 3 Routing describes the commands used to forward packets within and
across VLANs based upon the IP addresses as well as management of the
routing protocols necessary to enable the distribution of routes.
Switch Management describes commands used to manage the switch.
Commands that cause specific actions to be taken immediately by the system
and do not directly affect the system configurations are defined at the top of
the command tree. For example, commands for rebooting the system or for
downloading or backing up the system configuration files are placed at the
top of the hierarchy tree.
Commands that result in configuration changes to the switch are grouped in
a Global Configuration sub tree.
Using the CLI 231
There are levels beneath the Global Configuration mode for further grouping
of commands. The system prompt reflects these sub-Configuration modes.
All the parameters are provided with reasonable defaults where possible.
When starting a session, the initial mode is the User Exec mode (privilege
level 0). Only a limited subset of commands is available in this mode. This
level is reserved for tasks that do not change the configuration. To enter the
next level, Privileged Exec mode (privilege level 1) may be required if
configured by the administrator.
Privileged Exec mode provides access to commands that can not be executed
in the User Exec mode and permits access to Global Configuration mode.
Global Configuration mode manages switch configuration on a global level.
For specific configurations, command modes exist at a sublevel.
Entering a <?> at the system prompt displays a list of commands available
for that particular command mode. A specific command is used to navigate
from one command mode to another. The standard order to access the modes
is as follows: User Exec mode, Privileged Exec mode, Global Configuration
mode, and Interface Configuration and other specific configuration modes.
User Exec Mode
After logging into the switch, the user is automatically in the User Exec
command mode unless the user is defined as a privileged user. In general, the
User Exec commands allow the user to perform basic tests, and list system
information.
The user-level prompt consists of the switch host name followed by the angle
bracket (>).
console>
The default host name is Console unless it has been changed using the
hostname command in Global Configuration mode.
Privileged Exec Mode
Because many of the privileged commands set operating parameters,
privileged access may be password-protected to prevent unauthorized use.
The password is not displayed on the screen and is case sensitive.
Privileged users enter into the Privileged Exec mode from User Exec mode,
where the following prompt is displayed.
Using the CLI 232
console#
Global Configuration Mode
Global Configuration commands allow the operator to change the
configuration of the switch. The Privileged Exec mode command configure
(or configure terminal) is used to enter Global Configuration mode.
console(config)#
The following are the Global Configuration submodes:
•SNMP v3 Host Configuration — Configures the parameters for the
SNMP v3 server host.
•SNMP Community Configuration — Configures the parameters for the
SNMP server community.
•MST — The Global Configuration mode command spanning-tree mst
configuration is used to enter into the Multiple Spanning Tree
configuration mode.
•Line Interface — Contains commands to configure the management
connections. These include commands such as line speed and time-out
settings. The Global Configuration mode command line is used to enter
the Line Interface mode.
•Router OSPF Configuration — Global configuration mode command
router ospf is used to enter into the Router OSPF Configuration mode.
•Router RIP Configuration — Global configuration mode command
router rip is used to enter into the Router RIP Configuration mode.
•Router OSPFv3 Configuration — Global configuration mode command
ipv6 router ospf is used to enter into the Router OSPFv3 Configuration
mode.
•Router BGP Configuration — Global configuration mode command
router bgp is used to enter into the Router BGP Configuration mode.
•IPv6 DHCP Pool Mode — Global configuration mode command ipv6
dhcp pool is used to enter into the IPv6 DHCP Pool mode.
•Management Access List — Contains commands to define management
access administration lists. The Global Configuration mode command
management access-list is used to enter the Management Access List
configuration mode.
Using the CLI 233
•Policy-map — Use the policy-map command to access the QoS policy
map configuration mode to configure the QoS policy map.
•Policy Class — Use the class command to access the QoS Policy-class
mode to attach or remove a diffserv class from a policy and to configure
the QoS policy class.
•Class-Map — This mode consists of class creation/deletion and matching
commands. The class matching commands specify layer 2, layer 3 and
general match criteria. Use the class-map class-map-name commands to
access the QoS Class Map Configuration mode to configure QoS class
maps.
•Stack — Use the stack command to access the Stack Configuration Mode.
•SSH Public Key-chain — Contains commands to manually specify other
switch SSH public keys. The Global Configuration mode command crypto
key pub-key chain ssh is used to enter the SSH Public Key-chain
configuration mode.
•SSH Public Key-string — Contains commands to manually specify the
SSH Public-key of a remote SSH Client.
•MAC Access-List — Configures conditions required to allow traffic based
on MAC addresses. The Global Configuration mode command mac
access-list is used to enter the MAC Access-List configuration mode.
•TACACS — Configures the parameters for the TACACS server.
•Radius — Configures the parameters for the RADIUS server.
•SNMP Host Configuration — Configures the parameters for the SNMP
server host. Only IPv4 hosts are supported.
•Crypto Certificate Request — Configures the parameters for crypto
certificate request.
•Crypto Certificate Generation — Configures the parameters for crypto
certificate generate.
•Logging — Configures the parameters for SYSLOG servers.
•VLAN— Creates a VLAN and configures non-L3 parameters on a VLAN.
•Virtual Router Configuration— Configures parameters for a virtual
routing instance.
Using the CLI 234
Pre-configuration
Nearly all switch features support a pre-configuration capability, even when a
feature is not enabled or the required hardware is not present.
Pre-configured capabilities become active only when enabled (typically via an
admin mode control) or when the required hardware is present (or both). For
example, a port can be pre-configured with both trunk and access mode
information. The trunk mode information is applied only when the port is
placed into trunk mode and the access mode information is only applied
when the port is placed into access mode. Likewise, OSPF routing can be
configured in the switch without being enabled on any port.
Interface Configuration Modes
Interface configuration modes are used to modify specific interface
operations. The following are the Interface Configuration and other specific
configuration modes:
•Ethernet — Contains commands to manage Ethernet port configuration.
The Global Configuration mode command interface interface-id enters
the Interface Configuration mode to configure an Ethernet interface.
•Port Channel — Contains commands to configure port-channels, i.e.,
assigning ports to a port-channel. Most of these commands are the same as
the commands in the Ethernet interface mode and are used to manage the
member ports as a single entity. The Global Configuration mode
command interface port-channel port-channel-number is used to enter
the Port Channel mode.
•Tunnel — Contains commands to manage tunnel interfaces. The Global
Configuration mode command interface tunnel enters the Tunnel
Configuration mode to configure an tunnel type interface.
•Loopback — Contains commands to manage loopback interfaces. The
Global Configuration mode command interface loopback enters the
Loopback Configuration mode to configure an loopback type interface.
•Out-of-band—Contains commands to manage the out-of-band interface,
if present. The Global Configuration mode command interface out-of-
band enters the Out-of-band Interface mode to configure the out-of-band
interface.
Using the CLI 235
•Interface VLAN— Enables routing on a VLAN and configures routing/L3
parameters on a VLAN.
Identifying the Switch and Command Mode from the System Prompt
The system prompt provides the user with the name of the switch
(hostname) and identifies the command mode. The following is a formal
description of the system command prompt:
[device name][([command mode-[object]])][# | >]
[device name] — is the name of the managed switch, which is typically the
user-configured hostname established by the hostname command.
[command mode] — is the current configuration mode and is omitted for the
top configuration levels.
[object] — indicates specific object or range of objects within the
configuration mode.
For example, if the current configuration mode is config-if and the object
being operated on is Gigabit Ethernet 1 on unit 1, the prompt displays the
object type and unit (for example, Gi1/0/1).
[# | >] — The # sign is used to indicate that the system is in the Privileged
Exec mode. The > symbol indicates that the system is in the User Exec
mode, which is a read-only mode in which the system does not allow
configuration.
Navigating CLI Command Modes
Table 2-5 describes how to navigate through the CLI Command Mode
hierarchy.
Table 2-5. Navigating CLI Command Modes
Command Mode Access Method Command Prompt Exit or Access
Previous Mode
User Exec The user is
automatically in
User Exec mode
unless the user is
defined as a
privileged user.
console> logout
Using the CLI 236
Privileged Exec Use the enable
command to enter
into this mode. This
mode is password
protected.
console# Use the exit
command, or
press
<Ctrl>+<Z>
to return to the
User Exec mode.
Global
Configuration
From Privileged
Exec mode, use the
configure
command.
console(config)# Use the exit
command, or
press
<Ctrl>+<Z>
to return to the
Privileged Exec
mode.
Line Interface From Global
Configuration
mode, use the line
command.
console(config-line)# To exit to Global
Configuration
mode, use the
exit command,
or press
<Ctrl>+<Z>
to Privileged
Exec mode.
BGP Router
Configuration
From Global
Configuration
mode, use the
router bgp
command.
console(config-router)# To exit to Global
Configuration
mode, use the
exit command,
or press
<Ctrl>+<Z>
to Privileged
Exec mode.
Table 2-5. Navigating CLI Command Modes (continued)
Command Mode Access Method Command Prompt Exit or Access
Previous Mode
Using the CLI 237
IPv6 Address
Family
Configuration
From BGP Router
Configuration
mode, use the
address-family ipv6
command.
console (config-router-af)# To exit to BGP
Router
Configuration
mode, use the
exit command,
or press
<Ctrl>+<Z>
to Privileged
Exec mode.
Management
Access-List
From Global
Configuration
mode, use the
management
access-list
command.
console(config-macal)# To exit to Global
Configuration
mode, use the
exit command,
or press
<Ctrl>+<Z>
to Privileged
Exec mode.
Policy-Class-Map From Global
Configuration
mode, use the
policy-map class
command.
console(config-policy-map)# To exit to Global
Configuration
mode, use the
exit command,
or press
<Ctrl>+<Z>
to Privileged
Exec mode.
Class-Map From Global
Configuration
mode, use the class-
map command.
console(config-classmap)# To exit to Global
Configuration
mode, use the
exit command,
or press
<Ctrl>+<Z>
to Privileged
Exec mode.
Table 2-5. Navigating CLI Command Modes (continued)
Command Mode Access Method Command Prompt Exit or Access
Previous Mode
Using the CLI 238
MAC Access List From Global
Configuration
mode, use the mac
access-list
command.
console(config-mac-access-
list)#
To exit to Global
Configuration
mode, use the
exit command,
or press
<Ctrl>+<Z>
to Privileged
Exec mode.
SSH Public Key-
Chain
From Global
Configuration
mode, use the
crypto key pubkey-
chain ssh
command.
console(config-pubkey-
chain)#
To exit to Global
Configuration
mode, use the
exit command,
or press
<Ctrl>+<Z>
to Privileged
Exec mode.
SSH Public Key
String
From the SSH
Public Key- Chain
mode, use the user-
key <user name >
{rsa | dsa}
command.
console(config-pubkey-key)# To return to the
SSH Public key-
chain mode, use
the exit
command, or
press
<Ctrl>+<Z>
to Privileged
Exec mode.
TACACS From Global
Configuration
mode, use the
tacacs-server host
command.
console(tacacs)# To exit to Global
Configuration
mode, use the
exit command,
or press
<Ctrl>+<Z>
to Privileged
Exec mode.
Table 2-5. Navigating CLI Command Modes (continued)
Command Mode Access Method Command Prompt Exit or Access
Previous Mode
Using the CLI 239
Radius From Global
Configuration
mode, use the
radius-server host
command.
console(Config-auth-
radius)#
To exit to Global
Configuration
mode, use the
exit command,
or press
<Ctrl>+<Z>
to Privileged
Exec mode.
Radius Dynamic
Authorization
From Global
Configuration, use
the aaa server radius
dynamic-author
command.
console(config-radius-da)# To exit to Global
Configuration
mode, use the
exit command,
or press
<Ctrl>+<Z>
to Privileged
Exec mode.
SNMP Host
Configuration
From Global
Configuration
mode, use the
snmp-server
command.
console(config-snmp)# To exit to Global
Configuration
mode, use the
exit command,
or press
<Ctrl>+<Z>
to Privileged
Exec mode.
SNMP v3 Host
Configuration
From Global
Configuration
mode, use the
snmp-server v3-host
command.
console(config-snmp)# To exit to Global
Configuration
mode, use the
exit command,
or press
<Ctrl>+<Z>
to Privileged
Exec mode.
Table 2-5. Navigating CLI Command Modes (continued)
Command Mode Access Method Command Prompt Exit or Access
Previous Mode
Using the CLI 240
SNMP
Community
Configuration
From Global
Configuration
mode, use the
snmp-server
community
command.
console(config-snmp)# To exit to Global
Configuration
mode, use the
exit command,
or press
<Ctrl>+<Z>
to Privileged
Exec mode
Crypto
Certificate
Generation
From Global
Configuration
mode, use the
crypto certificate
number generate
command.
console(config-crypto-cert)# To exit to Global
Configuration
mode, use the
exit command,
or press
<Ctrl>+<Z>
to Privileged
Exec mode.
Crypto
Certificate
Request
From Privileged
Exec mode, use the
crypto certificate
number request
command.
console(config-crypto-cert)# To exit to
Privileged Exec
mode, use the
exit command,
or press
<Ctrl>+<Z>.
Stack From Global
Configuration
mode, use the stack
command.
console(config-stack)# To exit to Global
Configuration
mode, use the
exit command,
or press
<Ctrl>+<Z>
to Privileged
Exec mode.
Table 2-5. Navigating CLI Command Modes (continued)
Command Mode Access Method Command Prompt Exit or Access
Previous Mode
Using the CLI 241
Logging From Global
Configuration
mode, use the
logging command.
console(config-logging)# To exit to Global
Configuration
mode, use the
exit command,
or press
<Ctrl>+<Z>
to Privileged
Exec mode.
MST From Global
Configuration
mode, use the
spanning-tree mst
configuration
command.
console(config-mst)# To exit to Global
Configuration
mode, use the
exit command,
or press
<Ctrl>+<Z>
to Privileged
Exec mode.
VLAN Config From Global
Configuration
mode, use the vlan
command.
console(config-vlan)# To exit to Global
Configuration
mode, use the
exit command,
or press
<Ctrl>+<Z>
to Privileged
Exec mode.
Router OSPF
Config
From Global
Configuration
mode, use the
router ospf
command.
console(config-router)# To exit to Global
Configuration
mode, use the
exit command,
or press
<Ctrl>+<Z>
to Privileged
Exec mode
Table 2-5. Navigating CLI Command Modes (continued)
Command Mode Access Method Command Prompt Exit or Access
Previous Mode
Using the CLI 242
Virtual Router
Config
From Global
Configuration
mode, use the ip vrf
command.
console(config-vrf-
XXX)#where XXX is the VRF
name.
To exit to Global
Configuration
mode, use the
exit command,
or press
<Ctrl>+<Z>
to Privileged
Exec mode
Router RIP
Config
From Global
Configuration
mode, use the
router rip
command.
console(config-router)# To exit to Global
Configuration
mode, use the
exit command,
or press
<Ctrl>+<Z>
to Privileged
Exec mode
Router OSPFv3
Config
From Global
Configuration
mode, use the ipv6
router ospf
command.
console(config-rtr)# To exit to Global
Configuration
mode, use the
exit command,
or press
<Ctrl>+<Z>
to Privileged
Exec mode
IPv6 DHCP Pool
Mode
From Global
Configuration
mode, use the ipv6
dhcp pool
command.
console(config-dhcp6s-
pool)#
To exit to Global
Configuration
mode, use the
exit command,
or press
<Ctrl>+<Z>
to Privileged
Exec mode
Interface Configuration Modes
Table 2-5. Navigating CLI Command Modes (continued)
Command Mode Access Method Command Prompt Exit or Access
Previous Mode
Using the CLI 243
Gigabit Ethernet From Global
Configuration
mode, use the
interface
gigabitethernet
command. Or, use
the abbreviation
interface gi.
console (config-if-
Giunit/slot/port#
To exit to Global
Configuration
mode, use the
exit command,
or press
<Ctrl>+<Z>
to Privileged
Exec mode.
10 Gigabit
Ethernet
From Global
Configuration
mode, use the
interface
tengigabitethernet
command. Or, use
the abbreviation
interface te.
console (config-if-
Teunit/slot/port#
To exit to Global
Configuration
mode, use the
exit command,
or press
<Ctrl>+<Z>
to Privileged
Exec mode.
40 Gigabit
Ethernet
From Global
Configuration
mode, use the
interface
fortygigabitetherne
t command. Or, use
the abbreviation
interface fo.
console (config-if-
Founit/slot/port#
To exit to Global
Configuration
mode, use the
exit command,
or press
<Ctrl>+<Z>
to Privileged
Exec mode.
Port Channel From Global
Configuration
mode, use the
interface port-
channel command.
Or, use the
abbreviation
interface po.
console (config-if-poport-
channel-number)#
To exit to Global
Configuration
mode, use the
exit command,
or
<Ctrl>+<Z>
to Privileged
Exec mode.
Table 2-5. Navigating CLI Command Modes (continued)
Command Mode Access Method Command Prompt Exit or Access
Previous Mode
Using the CLI 244
Starting the CLI
To begin running the CLI, perform the following steps:
NOTE: This procedure is for use on the console line only.
NOTE: The Easy Setup Wizard may appear if the switch has no user configuration
saved. Follow the procedure in the Getting Started Guide to configure the switch
using the Easy Setup Wizard.
1
Start the switch and wait until the startup procedure is complete and the
User Exec mode is entered. The prompt console> is displayed.
2
Configure the switch and complete any required tasks.
VLAN From Global
Configuration
mode, use the
interface vlan
command.
console(config-if-vlanvlan-
id)#
To exit to Global
Configuration
mode, use the
exit command,
or press
<Ctrl>+<Z>
to Privileged
Exec mode.
Tunnel From Global
Configuration
mode, use the
interface tunnel
command. Or, use
the abbreviation
interface tu.
console(config-tunneltunnel-
id)#
To exit to Global
Configuration
mode, use the
exit command,
or press
<Ctrl>+<Z>
to Privileged
Exec mode.
Loopback From Global
configuration mode,
use the interface
loopback
command. Or, use
the abbreviation
interface lo.
console(config-
loopbackloopback-id)#
To exit to Global
Configuration
mode, use the
exit command,
or press
<Ctrl>+<Z>
to Privileged
Exec mode.
Table 2-5. Navigating CLI Command Modes (continued)
Command Mode Access Method Command Prompt Exit or Access
Previous Mode
Using the CLI 245
3
When finished, exit the session with the quit or exit command.
The switch can be managed over a direct connection to the switch console
port or through a Telnet connection. If access is through a Telnet connection,
the switch must have a defined IP address, corresponding management access
granted, and a connection to the network.
Using CLI Functions and Tools
The CLI has been designed to manage the switch’s configuration file system
and to manage switch security. A number of resident tools exist to support
these and other functions.
Configuration Management
All managed systems have software images and databases that must be
configured, backed up and restored. Two software images may be stored on
the system, but only one of them is active. The other one is a backup image.
The same is true for configuration files, which store the configuration
parameters for the switch. The system has three configuration files. One file is
a memory-only file and is the current configuration file for the switch. The
second file is the one that is loaded by the system when it reboots. There is
one backup configuration file. The system also provides methods to back up
these files to a remote system.
File System Commands
All files are stored in a file system. The commands shown in Table 2-6 are
used to perform operations on these files.
Table 2-6. File System Commands
Command Description
delete file Deletes file.
filedescr file description Adds a description to a file (up to 128
characters can be used).
copy source destination Copies a file from source file to destination
file.
Using the CLI 246
Copying Files
The copy command not only provides a method for copying files within the
file system, but also to and from remote servers. With the copy command and
URLs to identify files, the user can back up images to local or remote systems
or restore images from local or remote systems.
To use the copy command, the user specifies the source file and the
destination file. For example, copy tftp://remotehost/pub/backupfile backup-
config copies a file from the remote TFTP server to a local backup
configuration file. In this case, if the local configuration file does not exist,
then it is created by the command. If it does exist, it is overwritten. If there is
not enough space on the local file system to accommodate the file, an error is
flagged.
Refer to the
copy
command description in the Layer 2 commands section of
the guide for command details.
Referencing External/Internal File systems
Configuration or software images are copied to or retrieved from remote
systems using the TFTP or FTP protocols.
• tftp://server-name/path/filename — identifies a file on a remote TFTP
server identified by the server-name. Trivial file transfer protocol is a
simplified FTP and uses a UDP port instead of TCP and does not have
password protection.
• <ftp://{user@ipaddress | hostname}/filepath/filename> — Identifies a
file on a remote FTP server identified by the server-name. The File
Transfer Protocol (FTP) is a standardized protocol used to transfer files
over the network using TCP. FTP is optionally secured with a clear-text
user name and password.
Special System Files
The following special filenames are used to refer to special virtual system files,
which are under control of the system and may not be removed or added.
These file names are reserved and may not be used as user-defined files.
When the user copies a local source file into one of these special files and the
source file has an attached file description, it also is copied as the file
description for the special file.
•backup-config — This file refers to the backup configuration file.
Using the CLI 247
•running-config — This file refers to the configuration file currently active
in the system. It is possible to copy the running-config image to a backup-
config file or to the startup-config file.
•startup-config — This file refers to the special configuration image stored
in flash memory which is loaded when the system next reboots. The user
may copy a particular configuration file (remote or local) to this special file
name and reboot the system to force it to use a particular configuration.
•active & backup — These files refer to software images. The active image
will be loaded when the system next reboots. Either the active or backup
can be chosen for the next reboot using the command boot system.
The CLI prevents the user from accidentally copying a configuration image
onto a software image and vice versa.
Management Interface Security
This section describes the minimum set of management interface security
measures implemented by the CLI. Management interface security consists
of user account management, user access control and remote network/host
access controls.
CLI through Telnet, SSH, Serial Interfaces
The CLI is accessible through a local serial interface/console port, the out-of-
band interface, or in-band interfaces. Since the console port requires a
physical connection for access, it is used if all else fails. The console port
interface is the only interface from which the user may access the Easy Setup
Wizard. It is the only interface that the user can access if the remote
authentication servers are down and the user has not configured the system to
revert to local managed accounts.
The following rules and specifications apply to these interfaces:
• The CLI is accessible from remote telnet through the IP address for the
switch. IP addresses are assigned separately for the out-of-band interface
and the in-band ports.
• The CLI is accessible from a secure shell interface.
• The administrator generates keys for SSH locally via the CLI.
Using the CLI 248
• The serial session defaults to 9600 BAUD, eight data bits, one stop bit, no
parity and no flow control
(115200 for the N1100-ON, N2100-ON, and
N3100-ON)
.
User Accounts Management
The CLI provides authentication for users either through remote
authentication servers supporting TACACS+ or Radius or through a set of
locally managed user accounts. The setup wizard asks the user to create the
initial administrator account and password at the time the system is booted.
The following rules and specifications apply:
• The administrator may create additional
administrator
accounts.
• User accounts have an associated privilege level, a user name, and a user
password.
• The administrator is able to delete the administrator accounts.
• The password is saved internally in encrypted format and never appears in
clear text anywhere on the CLI.
• The CLI supports TACACS+ and Radius authentication servers.
• The CLI allows the administrator to configure primary and secondary
authentication servers. If the primary authentication server fails to respond
within a configurable period, the CLI automatically tries the secondary
authentication server.
• The administrator can specify whether the CLI should revert to using local
accounts when the remote authentication servers do not respond or if the
CLI simply fails the login attempt because the authentication servers are
down. This capability applies only when the administrator is logged in
through a telnet or an SSH session.
• The CLI always allows the administrator to log in to a local serial port even
if the remote authentication server(s) are down. In this case, CLI reverts to
using the locally configured accounts to allow the administrator to log in.
User Access Control
In addition to authenticating an
administrator
, the CLI also assigns the
administrator
access to one of two security levels. Privilege level 1 has read-
only access. This level allows the
administrator
to read information but not
Using the CLI 249
configure the switch. The access to this level cannot be modified. Level 15 is
the special access level assigned to the superuser of the switch. This level has
full access to all functions within the switch.
If the account is created and maintained locally, each account is given an
access level at the time of account creation. If the administrator is
authenticated through remote authentication servers, the authentication
server is configured to pass the access level to the CLI when the account is
authenticated. When RADIUS is used, the Vendor-Specific Option field
returns the access level. Two vendor specific options are supported. These are
CISCO-AV-Pairs(Shell:priv-lvl=x) and Dell Radius VSA (user-group=x).
TACACS+ provides the appropriate level of access.
The following rules and specifications apply:
• The
administrator
determines whether remote authentication servers or
locally defined authentication accounts are used.
• If authentication servers are used, the
administrator
can identify at least
two remote servers (the user may choose to configure only one server) and
what protocol to use with the server, TACACS+ or Radius. One of the
servers is primary and the other is the secondary server (the user is not
required to specify a secondary server). If the primary server fails to
respond in a configurable time period, the CLI automatically attempts to
authenticate the user with the secondary server.
• The
administrator
is able to specify what happens when both primary and
secondary servers fail to respond. In this case, the user is able to indicate
that the CLI should either use the local user accounts or reject all requests.
• Even if the
administrator
configures the CLI to fail login when the remote
authentication servers are down, the CLI allows access via the serial
interface authenticated by locally managed account data. The default for
serial port access is no login or password required.
SYSLOG
The switch supports sending logging messages to a remote SYSLOG server.
The administrator configures a remote log server to which SYSLOG messages
are sent.
The following rules apply:
• The administrator configures a remote SYSLOG server to which system
logging messages are sent.
Using the CLI 250
• Log messages are implementation-dependent but may contain debug
messages, security or fault events.
• The switch maintains at most the last 1000 system events in the in-
memory log.
Security Logs
The system log records security events including the following:
• User login.
• User logout.
• Denied login attempts.
• User attempt to exceed security access level.
• Denied attempts by external management system to access the system.
The security log record contains the following information:
• The login name, if available, or the protocol being accessed if the event is
related to a remote management system.
• The IP address from which the user is connecting or the IP address of the
remote management system.
• A description of the security event.
• A timestamp of the event
If a SYSLOG server is configured and available, the switch sends security
records to the configured servers.
Management ACL
In addition to user access control, the system also supports filtering of
management protocol packets addressed to the switch over the in-band ports.
This capability allows individual hosts or subnets to access the switch using
specific management protocols.
The administrator defines a management profile, which identifies
management protocols such as the following:
• Telnet.
• SSH and the keying information to use for SSH.
• HTTP.
Using the CLI 251
• HTTPS and the security certificate to be used.
• SNMPv1/v2c and the read and read/write community strings to be used.
• SNMPv3 and the security information for used this protocol.
For each of these management profiles, the administrator defines the list of
hosts or subnets from which the management profiles may be used. The
management ACL capability only applies to in-band ports and may not be
configured on the out-of-band management port.
Other CLI Tools and Capabilities
The CLI has several other capabilities associated with its primary functions.
Terminal Paging
The terminal width and length for CLI displays is 79 characters and 25 lines,
respectively. The length setting is used to control the number of lines the CLI
will display before it pauses. For example, the CLI pauses at 24 lines and
prompts the user with the --More-- or (q)uit prompt on the 25th line. The
CLI waits for the user to press either <q> or <Enter> or any other key. If
the user presses any key other than <Enter> or <q>, the CLI shows the next
page. A <q> key stops the display and returns to the CLI prompt. The
<Enter> key advances the display by one line. Use the terminal length
command to change the number of lines displayed in a page. A terminal
length of 0 disables pagination. This option is not recommended for serial
console speeds of less than 115200.
Boot Message
The boot message is a system message that is not user-configurable and is
displayed when the system is booting.
To start the normal booting process, select item 1 in the Boot Menu. The
following is a sample log for booting information.
Select startup option within 5 seconds, else Operational Code will start
automatically...
Operational Code Startup -- Main Menu
1 - Start Operational Code
2 - Display Boot Menu
Select (1, 2)#
active = /dev/mtd7
Using the CLI 252
Extracting Operational Code from .stk file...done.
Loading Operational Code...done.
Decompressing Operational Code...done.
Scanning devshell symbols file...
47544 symbols, loading...
Done.
PCI unit 0: Dev 0xb842, Rev 0x02, Chip BCM56842_A0, Driver BCM56840_B0
SOC unit 0 attached to PCI device BCM56842_A0
Adding BCM transport pointers
Configuring CPUTRANS TX
Configuring CPUTRANS RX
<186> Aug 26 08:18:23 0.0.0.0-1 General[72162340]: bootos.c(166) 4 %%
Event(0xaaaaaaaa) started!
(Unit 1 - Waiting to select management unit)>
Applying Global configuration, please wait ...
Applying Interface configuration, please wait ...
Boot Utility Menu
If a user is connected through the serial interface during the boot sequence,
the operator is presented with the option to enter the Boot Utility Menu
during the boot sequence. Selecting item 2 displays the menu and may be
typed only during the initial boot up sequence.
Select startup option within 5 seconds, else Operational Code will start
automatically...
Operational Code Startup -- Main Menu
1 - Start Operational Code
2 - Display Boot Menu
Select (1, 2)# 2
Enter the Boot Menu password:calvin
Boot Menu Rev: 6.0
Operational Code -- Boot Main Menu
1 - Start Operational Code
2 - Select Baud Rate
3 - Retrieve Logs
4 - Load New Operational Code
5 - Display Operational Code Details
9 - Reboot
10 - Restore Configuration to Factory Defaults
Using the CLI 253
11 - Activate Backup Image
12 - Start Password Recovery
Enter Choice# 4
Creating tmpfs filesystem on /mnt/download for download...done.
Current Active Image# /dev/mtd7
Which Image to Update Active (/dev/mtd7) OR Back-Up (/dev/mtd6)? Select
(A/B): B
You selected to update Back-Up Image /dev/mtd6...
Select Mode of Transfer (Press T/X/Y/Z for TFTP/XMODEM/YMODEM/ZMODEM) []:T
Please ensure TFTP server is running to begin Transfer...
Enter Server IP []:10.27.9.99
Enter Host IP []:10.27.22.99
Enter Host Subnet Mask [255.255.255.0]:255.255.252.0
Enter Gateway IP []:10.27.20.1
Enter Filename []:jmclendo/N4000v6.0.0.8.stk
Do you want to continue? Press(Y/N): y
Bringing up eth0 interface...done.
Adding default gateway 10.27.20.1 to the Routing Table...done.
Bringing down eth0 interface...done.
Erasing /dev/mtd6!!!
Erasing 128 Kibyte @ 17e0000 -- 99 % complete.
Updating code file...
Code Update Instructions Found!
Critical components modified on Back-Up Partition -- Please activate Back-Up
Image to load the same on Reboot
Do you wish to activate Back-Up Image? (Y/N):
Cleaning tmpfs filesystem on /mnt/download...done.
Enter Choice# 5
active = /dev/mtd7
Extracting Operational Code from .stk file...done.
Loading Operational Code...done.
Decompressing Operational Code...done.
Product Details:-
Operational Code Image File Name - N4000v6.0.0.8
Rel 6, Ver 0, Maint Lev 0, Bld No 8
Timestamp - Thu Aug 22 13:09:33 EDT 2013
Number of components - 1
Device 776
ImageFlags 1
L7_MODULE_LIST=linux-kernel-bde.ko linux-user-bde.ko
Enter Choice# 10
Are sure you want to Erase Current Configuration? (Y/N): y
Erasing Current Configuration...done.
Using the CLI 254
Boot Menu Rev: 6.0
Operational Code -- Boot Main Menu
1 - Start Operational Code
2 - Select Baud Rate
3 - Retrieve Logs
4 - Load New Operational Code
5 - Display Operational Code Details
9 - Reboot
10 - Restore Configuration to Factory Defaults
11 - Activate Backup Image
12 - Start Password Recovery
Enter Choice# 11
Current Active Image# /dev/mtd7
Checking for valid back-up image at /dev/mtd6...done.
Activating Back-Up Image /dev/mtd6...done.
Code Update Instructions Found!
Back-Up Image on /dev/mtd6 Activated -- System Reboot Recommended!
Reboot? (Y/N):
Enter Choice# 12
Starting Operational Code for Password Recovery...
active = /dev/mtd6
Extracting Operational Code from .stk file...done.
Loading Operational Code...done.
Decompressing Operational Code...done.
4 START_OPR_CODE_PASSWD_RECOVERY MODE
Uncompressing apps.lzma
SyncDB Running...
DMA pool size: 16777216
PCI unit 0: Dev 0xb842, Rev 0x02, Chip BCM56842_A1, Driver BCM56840_B0
SOC unit 0 attached to PCI device BCM56842_A1
hpc - No stack ports. Starting in stand-alone mode.
<186> Jul 12 02:40:46 0.0.0.0-1 General[63446620]: bootos.c(179) 11 %%
Event(0xaaaaaaaa) started!
(Unit 1 - Waiting to select management unit)>
Applying Global configuration, please wait ...
Welcome to Dell Easy Setup Wizard
The setup wizard guides you through the initial switch configuration, and
gets you up and running as quickly as possible. You can skip the setup
Using the CLI 255
wizard, and enter CLI mode to manually configure the switch. You must
respond to the next question to run the setup wizard within 60 seconds,
otherwise the system will continue with normal operation using the default
system configuration. Note: You can exit the setup wizard at any point
by entering [ctrl+z].
Would you like to run the setup wizard (you must answer this question within
60 seconds)? [Y/N] n
Thank you for using the Dell Easy Setup Wizard. You will now enter CLI mode.
Applying Interface configuration, please wait ...
Booting without a Startup Configuration
When the system boots without a startup configuration (which is not the
same as an empty startup-config) and no EULA Accept file exists on the stack
master, the following prompt occurs:
(Unit 1 - Waiting to select management unit)>
Applying Global configuration, please wait...
SupportAssist EULA
I accept the terms of the license agreement. You can reject the license
agreement by configuring this command 'eula-consent support-assist reject’.
By installing SupportAssist, you allow Dell to save your contact
information(e.g. name, phone number and/or email address) which would be used
to provide technical support for your Dell products and services. Dell may
use the information for providing recommendations to improve your IT
infrastructure. SupportAssist also collects and stores machine diagnostic
information, which may include but is not limited to configuration
information, user supplied contact information, names of data volumes, IP
addresses, access control lists, diagnostics & performance information,
network configuration information, host/server configuration& performance
information and related data (Collected Data) and transmits this information
to Dell. By downloading SupportAssist and agreeing to be bound by the set
terms and the Dell end user license agreement, available at:
www.dell.com/aeula, you agree to allow Dell to provide remote monitoring
services of your IT environment and you give Dell the right to collect the
Collected Data in accordance with Dells Privacy Policy, available at:
www.dell.com/privacypolicycountryspecific, in order to enable the
performance of all of the various functions of SupportAssist during your
entitlement to receive related repair services from Dell,. You further agree
to allow Dell to transmit and store the Collected Data from SupportAssist in
accordance with these terms. You agree that the provision of SupportAssist
may involve international transfers of data from you to Dell and/or to Dells
affiliates, subcontractors or business partners. When making such transfers,
Dell shall ensure appropriate protection is in place to safeguard the
Collected Data being transferred in connection with SupportAssist. If you are
downloading SupportAssist on behalf of a company or other legal entity, you
are further certifying to Dell that you have appropriate authority to provide
this consent on behalf of that entity. If you do not consent to the
collection, transmission and/or use of the Collected Data, you may not
download, install or otherwise use SupportAssist.
Using the CLI 256
AeroHive HiveManager NG EULA
This switch includes a feature that enables it to work with HiveManager (an
optional management suite), by sending the switch’s service tag number to
HiveManager to authenticate your entitlement to use HiveManager. If you wish
to disable this feature, you should run command “eula-consent hiveagent
reject” immediately upon powering up the switch for the first time, or at any
time thereafter.
Welcome to Dell Easy Setup Wizard
The setup wizard guides you through the initial switch configuration, and
gets you up and running as quickly as possible. You can skip the setup
wizard, and enter CLI mode to manually configure the switch. You must
respond to the next question to run the setup wizard within 60 seconds,
otherwise the system will continue with normal operation using the default
system configuration. Note: You can exit the setup wizard at any point
by entering [ctrl+z].
Would you like to run the setup wizard (you must answer this question within
60 seconds)? (y/n)
Regardless of if the administrator runs or does not run the Easy Setup wizard
and if the SupportAssist application is installed:
eula-consent support-assist accept
is entered into the running-config if the SupportAssist EULA Accept file
exists on the stack master and contains the ‘EULA: Accepted’ text.
Regardless of whether the administrator runs or does not run the Easy Setup
wizard and if the HiveAgent is installed:
eula-consent hiveagent accept
is entered into the running-config if the HiveAgent EULA Accept file exists
on the stack master and contains the ‘EULA: Accepted’ text.
The Easy Setup Wizard also prompts the user to configure a proxy server as
follows:
Step 5:
Would you like to configure the address of an HTTPS proxy server used by the
SupportAssist agent? [Y/N] y
Enter the IPv4 or IPv6 address of the proxy server:192.168.0.3
Enter the port number used by HTTPS [443]:
Enter the user name required to access the proxy server:
Enter the password required to access the proxy server:
This is the configuration information that has been collected:
User Account setup = admin
Using the CLI 257
Password = ********
Out-of-band IP address = DHCP
VLAN1 Router Interface IP = 0.0.0.0 0.0.0.0
Proxy Server Address: 192.168.0.3
Proxy Server Port: 443
Proxy Server User Name:
Proxy Server Password:
Monitoring Traps from CLI
It is possible to connect to the CLI session and monitor the events or faults
that are being sent as traps from the system. This feature is equivalent to the
alarm-monitoring window in a typical network management system. The user
enables display of events or monitor traps from the CLI by entering the
command logging console. Traps generated by the system are dumped to all
CLI sessions that have requested monitoring mode to be enabled. The no
logging console command disables trap monitoring for the session. By
default, console logging is enabled. Use the terminal monitor command to
observe logging messages when connected via telnet or SSH.
Viewing System Messages
System messages autonomously display information regarding occurrences
that may affect switch operations. By default, system messages are not
displayed on CLI sessions connected via telnet or SSH. Use the terminal
monitor command to enable the autonomous display of system messages
when connecting to the switch via telnet or SSH. System messages are always
displayed on the serial console.
Using the CLI 258
Layer 2 Switching Commands 259
3
Layer 2 Switching Commands
The sections that follow describe commands that conform to the OSI model
data link layer (Layer 2). Layer 2 commands provide a logical organization for
transmitting data bits on a particular medium. This layer defines the framing,
addressing, and checksum functions for Ethernet packets.
This section of the document contains the following Layer 2 topics:
ACL Commands Ethernet
Configuration
Commands
IPv6 Access List
Commands
MLAG Commands
MAC Address Table
Commands
Ethernet CFM
Commands
IPv6 Access List
Commands
Port Channel
Commands
Auto-VoIP
Commands
Green Ethernet
Commands
IPv6 MLD
Snooping
Commands
Port Monitor
Commands
CDP
Interoperability
Commands
GMRP Commands IPv6 MLD
Snooping Querier
Commands
QoS Commands
–
GVRP Commands IP Source Guard
Commands
Spanning Tree
Commands
DHCP Layer 2
Relay Commands
IGMP Snooping
Commands
iSCSI
Optimization
Commands
UDLD Commands
DHCP Snooping
Commands
IGMP Snooping
Querier Commands
Link Dependency
Commands
VLAN Commands
DHCPv6 Snooping
Commands
Interface Error
Disable and Auto
Recovery
LLDP Commands Voice VLAN
Commands
Dynamic ARP
Inspection
Commands
–
Loop Protection
–
Layer 2 Switching Commands 260
ACL Commands
Dell EMC Networking N1100-ON/N1500/N2000/N2100-
ON/N3000/N3100-ON/N4000 Series Switches
Access to a switch or router can be made more secure through the use of
Access Control Lists (ACLs) to control the type of traffic allowed into or out
of specific ports. An ACL consists of a series of rules, each of which describes
the type of traffic to be processed and the actions to take for packets that
meet the classification criteria. Rules within an ACL are evaluated
sequentially until a match is found, if any. An implicit deny-all rule is added
after the end of the last configured access group. ACLs can help ensure that
only authorized users have access to specific resources while blocking out any
unwarranted attempts to reach network resources.
ACLs may be used to restrict contents of routing updates, decide which types
of traffic are forwarded or blocked and, above all, provide security for the
network. ACLs are normally used in firewall routers that are positioned
between the internal network and an external network, such as the Internet.
They can also be used on a router positioned between two parts of the
network to control the traffic entering or exiting a specific part of the internal
network.
The Dell EMC Networking ACL feature allows classification of packets based
upon Layer 2 through Layer 4 header information. An Ethernet IPv6 packet is
distinguished from an IPv4 packet by its unique EtherType value; thus, all
IPv4 and IPv6 classifiers implicitly include the EtherType field.
Multiple ACLs per interface are supported. The ACLs can be a combination
of Layer 2 and/or Layer 3/4 ACLs. ACL assignment is appropriate for both
Ethernet ports and LAGs. ACLs can also be time based. The maximum
number of ACLs and rules supported depends on the resources consumed by
other processes and configured features running on the switch.
ACL Logging
Access list rules are monitored in hardware to either permit or deny traffic
matching a particular classification pattern, but the network administrator
currently has no insight as to which rules are being hit. Dell EMC Networking
platforms have the ability to count the number of hits for a particular
Layer 2 Switching Commands 261
classifier rule. The ACL logging feature allows these hardware hit counts to be
collected on a per-rule basis and reported periodically to the network
administrator using the system logging facility and an SNMP trap.
The Dell EMC Networking ACL syntax supports a log parameter that enables
hardware hit count collection and reporting. A five minute logging interval is
used, at which time trap log entries are written for each ACL logging rule that
accumulated a nonzero hit count during that interval. The logging interval is
not user configurable.
How to Build ACLs
This section describes how to build ACLs that are less likely to exhibit false
matches.
Administrators are cautioned to specify ACL access-list, permit and deny rule
criteria as fully as is possible in order to avoid false matches. As an example,
rules that specify a TCP or UDP port value should also specify the TCP or
UDP protocol and the IPv4 or IPv6 Ether type. Rules that specify an IP
protocol should also specify the Ether type value for the frame. In general, any
rule that specifies matching on an upper layer protocol field should also
include matching constraints for each of the lower layer protocols. For
example, a rule to match packets directed to the well-known UDP port
number 22 (SSH) should also include matching constraints on the IP
protocol field (protocol = 0x11 or UDP) and the Ether type field (Ether type
= 0x0800 or IPv4). In Table 3-1 is a list of commonly used Ether types and, in
Table 3-2 commonly used IP protocol numbers.
Layer 2 Switching Commands 262
Table 3-1. Common Ethertypes
EtherType Protocol
0x0800 Internet Protocol version 4 (IPv4)
0x0806 Address Resolution Protocol (ARP)
0x0842 Wake-on LAN Packet
0x8035 Reverse Address Resolution Protocol (RARP)
0x8100 VLAN tagged frame (IEEE 802.1Q)
0x86DD Internet Protocol version 6 (IPv6)
0x8808 MAC Control
0x8809 Slow Protocols (IEEE 802.3)
0x8870 Jumbo frames
0x888E EAP over LAN (EAPOL – 802.1x)
0x88CC Link Layer Discovery Protocol
0x8906 Fibre Channel over Ethernet
0x8914 FCoE Initialization Protocol
0x9100 Q in Q
Table 3-2. Common IP Protocol Numbers
IP Protocol Numbers Protocol
0x00 IPv6 Hop-by-hop option
0x01 ICMP
0x02 IGMP
0x06 TCP
0x08 EGP
0x09 IGP
0x11 UDP
Layer 2 Switching Commands 263
Commands in this Section
This section explains the following commands:
ip access-list
Use the ip access-list command in Global Configuration mode to create an
Access Control List (ACL) that is identified by the parameter list-name and
to enter IPv4-Access-List configuration mode. If parameterized with the
name of an existing access list, additional match clauses are added to the end
of the access list.
ip access-list list-name [extended]
no ip access-list list-name
•
list-name
—Access-list name up to 31 characters in length.
Default Configuration
This command has no default configuration.
Command Mode
Global Configuration mode
User Guidelines
Access lists use the extended access list format. Multiple permit and deny
clauses and actions may be specified without requiring the access list name to
be entered each time. Permit and deny clauses are entered in order from the
first match clause when in Access List Configuration mode.
ip access-list mac access-list extended rename
deny | permit (IP ACL) remark
deny | permit (Mac-Access-List-
Configuration)
service-acl input
ip access-group show service-acl interface
mac access-group show ip access-lists
mac access-list extended show mac access-lists
Layer 2 Switching Commands 264
ACL names are global. An IPv6 access list cannot have the same name as an
IPv4 access list. Access list names can consist of any printable character
except a question mark. Names can be up to 31 characters in length. ACLs
referenced in a route map may not be edited. Instead, create a new ACL with
the desired changes and refer to the new ACL in the route map.
deny | permit (IP ACL)
Use this command in Ipv4-Access-List Configuration mode to create a new
rule for the current IP access list. Each rule is appended to the list of
configured rules for the list if no sequence number is specified. Use the no
form of the command to delete an existing permit/deny clause.
Syntax
[sequence-number]deny | permit (IP ACL)
[sequence-number]{deny | permit} {ipv4-protocol | 0-255 | every} {srcip
srcmask | any | host srcip} [{range {portkey | startport} {portkey |
endport}} | {eq | neq | lt | gt} {portkey | 0-65535} ] {dstip dstmask | any |
host dstip} [{range {portkey | startport} {portkey | endport}} | {eq | neq |
lt | gt} {portkey | 0-65535}] [flag [+fin | -fin] [+syn | -syn] [+rst | -rst]
[+psh | -psh] [+ack | -ack] [+urg | -urg] [established]] [icmp-type icmp-
type [icmp-code icmp-code] | icmp-message icmp-message] [igmp-type
igmp-type] [fragments] [precedence precedence | tos tos [tosmask] | dscp
dscp]}} [time-range time-range-name] [log] [assign-queue queue-id]
[{mirror | redirect} interface-id] [rate-limit rate burst-size]
no <sequence-number>
•
[sequence-number]
—Identifies the order of application of the
permit/deny statement. If no sequence number is assigned, permit/deny
statements are assigned a sequence number beginning at 1000 and
incrementing by 10. Statements are applied in hardware beginning with
the lowest sequence number. Sequence numbers only have applicability
within an access group, i.e. the ordering applies within the access-group
scope. The range for sequence numbers is 1– 2147483647.
•{deny | permit}–Specifies whether the IP ACL rule permits or denies the
matching traffic.
•
{ipv4-protocol | number| every}—
Specifies the protocol to match for
the IP ACL rule.
Layer 2 Switching Commands 265
– IPv4 protocols: eigrp, gre, icmp, igmp, ip, ipinip, ospf, tcp, udp, pim,
arp, sctp
–number: a protocol number in decimal, for example, 8 for EGP
–every: Match any protocol (don’t care)
•
srcip srcmask | any | host srcip
—Specifies a source IP address and
netmask to match for the IP ACL rule.
– Specifying “any” implies specifying srcip as “0.0.0.0” and srcmask as
“255.255.255.255” for IPv4.
– Specifying “host A.B.C.D” implies srcip as “A.B.C.D” and srcmask as
“0.0.0.0”.
•
[{{eq | neq | lt | gt} {portkey | number} | range startport endport}]
—
Specifies the layer 4 source or destination port match condition for the
TCP/UDP ACL rule. When the protocol is SCTP, TCP or UDP, a source or
destination port number, which ranges from 0-65535, or a portkey, which
can be one of the following keywords: domain, echo, ftp, ftp-data, http,
smtp, snmp, telnet, tftp, www, bgp, pop2, pop3, ntp, rip, time, who may be
entered. Each of these keywords translates into its equivalent destination
port number.
– When “range” is specified, IP ACL rule matches only if the layer 4
port number falls within the specified port range. The startport and
endport parameters identify the first and last ports that are part of the
port range. They have values from 0 to 65535. The ending port must
have a value equal or greater than the starting port. The starting port,
ending port, and all ports in between will be part of the layer 4 port
range.
– When “eq” is specified, IP ACL rule matches only if the layer 4 port
number is equal to the specified port number or portkey.
– When “lt” is specified, IP ACL rule matches if the layer 4 destination
port number is less than the specified port number or portkey. It is
equivalent to specifying the range as 0 to <specified port number –
1>.
– When “gt” is specified, IP ACL rule matches if the layer 4 destination
port number is greater than the specified port number or portkey. It is
equivalent to specifying the range as <specified port number + 1> to
65535.
Layer 2 Switching Commands 266
– When “neq” is specified, IP ACL rule matches only if the layer 4
destination port number is not equal to the specified port number or
portkey.
– IPv4 TCP/UDP port names: domain, echo, ftp, ftp-data, http, smtp,
snmp, telnet, tftp, www, bgp, pop2, pop3, ntp, rip, time, who
• dstip dstmask | any | host dstip—Specifies a destination IP address and
netmask for match condition of the IP ACL rule.
– Specifying “any” implies specifying dstip as “0.0.0.0” and dstmask as
“255.255.255.255”.
– Specifying “host A.B.C.D” implies dstip as “A.B.C.D” and dstmask as
“0.0.0.0”.
•
[precedence precedence | tos tos [tosmask] | dscp dscp]—
Specifies the
TOS for an IP/TCP/UDP ACL rule depending on a match of precedence
or DSCP values using the parameters dscp, precedence, or tos tosmask.
•flag [+fin | -fin] [+syn | -syn] [+rst | -rst] [+psh | -psh] [+ack | -ack]
[+urg | -urg] [established]—Specifies that the IP/TCP/UDP ACL rule
matches on the TCP flags.
–Ack – Acknowledgment bit
–Fin – Finished bit
–Psh – push bit
–Rst – reset bit
–Syn – Synchronize bit
–Urg – Urgent bit
– When “+<tcpflagname>” is specified, a match occurs if specified
<tcpflagname> flag is set in the TCP header.
– When “-<tcpflagname>” is specified, a match occurs if specified
<tcpflagname> flag is *NOT* set in the TCP header.
– When “established” is specified, a match occurs if either the RST or
ACK bits are set in the TCP header.
– This option is visible only if protocol is “tcp”.
•
[icmp-type icmp-type [icmp-code icmp-code] | icmp-message icmp-
message] —
Specifies a match condition for ICMP packets.
Layer 2 Switching Commands 267
– When icmp-type is specified, IP ACL rule matches on the specified
ICMP message type, a number from 0 to 255.
– When icmp-code is specified, IP ACL rule matches on the specified
ICMP message code, a number from 0 to 255.
– Specifying icmp-message implies both icmp-type and icmp-code are
specified.
– ICMP message is decoded into corresponding ICMP type and ICMP
code within that ICMP type. This option is visible only if the protocol
is “icmp”.
– IPv4 ICMP message types: echo echo-reply host-redirect mobile-
redirect net-redirect net-unreachable redirect packet-too-big port-
unreachable source-quench router-solicitation router-advertisement
time-exceeded ttl-exceeded unreachable
•igmp-type igmp-type—When igmp-type is specified, IP ACL rule matches
on the specified IGMP message type (i.e., a number from 0 to 255).
•
fragments—
Specifies the rule matches packets that are non-initial
fragments (fragment bit asserted). Not valid for rules that match L4
information such as TCP port number since that information is carried in
the initial packet.
•
log—
Specifies that this rule is to be logged if the permit/deny rule has
been matched one or more times since the expiry of the last logging
interval. The logging interval is 5 minutes.
•time-range time-range-name—Allows imposing time limitation on the
ACL rule as defined by the parameter time-range-name. (See Time
Ranges Commands for more information.) If a time range with the
specified name does not exist and the ACL containing this ACL rule is
applied to an interface or bound to a VLAN, then the ACL rule is applied
immediately. If a time range with specified name exists and the ACL
containing this ACL rule is applied to an interface or bound to a VLAN,
then the ACL rule is applied when the time-range with specified name
becomes active. The ACL rule is removed when the time-range with
specified name becomes inactive.
Layer 2 Switching Commands 268
•assign-queue queue-id—Specifies the assign-queue, which is the queue
identifier to which packets matching this rule are assigned. The queue ID
is the internal queue number (traffic class), not the CoS value. Use the
show classofservice command to display the assignment of CoS and DSCP
values to internal queue numbers.
•
{mirror | redirect} interface-id
—Specifies the mirror or redirect Ethernet
interface to which packets matching this rule are copied or forwarded,
respectively.
•
rate-limit rate burst-size
—Specifies the allowed rate of traffic as per the
configured rate in Kbps, and burst-size in kbytes. Rate limits only apply to
permit rules.
– Rate – the committed rate in kilobits per second
– Burst-size – the committed burst size in Kilobytes.
Default Configuration
No ACLs are configured by default. An implicit deny all condition is added by
the system after the last MAC or IP/IPv6 access group if no route-map is
configured on the interface.
Command Mode
Ipv4-Access-List Configuration mode
User Guidelines
Administrators are cautioned to specify permit and deny rule matches as fully
as is possible in order to avoid false matches. Rules that specify an IP port
value should also specify the protocol (TCP or UDP) and relevant IP
addresses or subnets. In general, any rule that specifies matching on an upper
layer protocol field should also include matching constraints for lower layer
protocol fields. For example, a rule to match packets directed to the well-
known UDP port number 22 (SSH) should also include constraints on the IP
protocol field (UDP). IPv4 and IPv6 ACLs implicitly include the EtherType
in the match criteria. Below is a list of commonly used EtherTypes:
Ethertype Protocol
0x0800 Internet Protocol version 4 (IPv4)
Layer 2 Switching Commands 269
In order to provide the greatest amount of flexibility in configuring ACLs, the
permit/deny syntax allows combinations of matching criteria that may not
make sense when applied in practice.
Port ranges are not supported for ACLs configured in egress (out) access-
groups. This means that only the eq operator is supported in an egress (out)
ACL.
The protocol type must be sctp, tcp or udp to specify a port range.
The fragment keyword is not supported for ACLs configured in egress (out)
IPv4 access-groups.
The rate-limit command is not supported for ACLs configured in egress (out)
IPv4 access-groups on the N4000 switches. Rate limits are only valid for
permit rules.
Any – is equivalent to 0.0.0.0 255.255.255.255 for IPv4 access lists
Host – indicates specified address with mask equal to 255.255.255.255 and
address 0.0.0.0 for IPv4.
0x0806 Address Resolution Protocol (ARP)
0x0842 Wake-on LAN Packet
0x8035 Reverse Address Resolution Protocol (RARP)
0x8100 VLAN tagged frame (IEEE 802.1Q)
0x86DD Internet Protocol version 6 (IPv6)
0x8808 MAC Control
0x8809 Slow Protocols (IEEE 802.3)
0x8870 Jumbo frames
0x888E EAP over LAN (EAPOL – IEEE 802.1x)
0x88CC Link Layer Discovery Protocol
0x8906 Fibre Channel over Ethernet
0x8914 FCoE Initialization Protocol
0x9100 Q in Q
Ethertype Protocol
Layer 2 Switching Commands 270
The command accepts the optional time-range parameter. The time-range
parameter allows imposing a time limitation on the IP ACL rule as defined by
the parameter time-range-name. If a time range with the specified name does
not exist, and the IP ACL containing this ACL rule is applied to an interface
or bound to a VLAN, then the ACL rule is applied immediately. If a time
range with the specified name exists, and the IP ACL containing this ACL
rule is applied to an interface or bound to a VLAN, then the ACL rule is
applied when the time-range with a specified name becomes active. The ACL
rule is removed when the time-range with a specified name becomes inactive.
An implicit deny all condition is added by the system after the last MAC or
IP/IPv6 access group if no route-map is configured on the interface.
Every permit/deny rule that does not have a rate-limit parameter is assigned a
counter. If counter resources become exhausted, a warning is issued and the
rule is applied to the hardware without the counter.
If a permit|deny clause is entered with the same sequence number as an
existing rule, an error is displayed and the existing rule is not updated with
the new information.
Command History
Updated in 6.3.0.1 firmware. Description updated in the 6.4 release.
Example
console(config)#ip access-list ipv4
console(config-ip-acl)#100 deny ip any any precedence 3
deny | permit (Mac-Access-List-Configuration)
Use the deny command in Mac-Access-List Configuration mode to deny
traffic if the conditions defined in the deny statement are matched. Use the
permit command in Mac-Access-List Configuration mode to allow traffic if
the conditions defined in the permit statement are matched.
Use this command in Mac-Access-List Configuration mode to create a new
rule for the current MAC access list. Each rule is appended to the list of
configured rules for the list, if no sequence number is specified.
The command is enhanced to accept the optional time-range parameter. The
time-range parameter allows imposing a time limitation on the MAC ACL
rule as defined by the parameter time-range-name. If a time range with the
Layer 2 Switching Commands 271
specified name does not exist, and the MAC ACL containing this ACL rule is
applied to an interface or bound to a VLAN, then the ACL rule is applied
immediately. If a time range with the specified name exists, and the MAC
ACL containing this ACL rule is applied to an interface or bound to a VLAN,
then the ACL rule is applied when the time-range with a specified name
becomes active. The ACL rule is removed when the time-range with a
specified name becomes inactive.
Use the no form of the command to delete an existing permit/deny clause.
Syntax
[sequence-number] deny | permit (MAC access-list configuration)
[sequence-number] {deny | permit} {{any | srcmac srcmacmask} {any |
bpdu |dstmac dstmacmask}} [ethertypekey | [0x0600-0xFFFF] [vlan {eq 0-
4095}] [secondary-vlan {eq 0-4095}] [cos 0-7] [log] [time-range time-range-
name] [assign-queue queue-id] [{mirror | redirect} interface-id] [rate-limit
rate burst-size]
no sequence-number
• sequence-number—Identifies the order of application of the permit/deny
statement. If no sequence number is assigned, permit/deny statements are
assigned a sequence number beginning at 1000 and incrementing by 10.
Statements are applied in hardware beginning with the lowest sequence
number. Sequence numbers only have applicability within an access group,
i.e. the ordering applies within the access-group scope. The range for
sequence numbers is 1– 2147483647.
•
srcmac
—Valid source MAC address in format xxxx.xxxx.xxxx.
•
srcmacmask
—Valid MAC address bit mask for the source MAC address in
format xxxx.xxxx.xxxx.
•
any
—Packets sent to or received from any MAC address.
•
dstmac
—Valid destination MAC address in format xxxx.xxxx.xxxx.
•
destmacmask
—Valid MAC address bit mask for the destination MAC
address in format xxxx.xxxx.xxxx.
•
bpdu
—Bridge protocol data unit
•
ethertypekey
—Either a keyword or valid four-digit hexadecimal number.
(Range: Supported values are appletalk, arp, ibmsna, ipv4, ipv6, ipx,
mplsmcast, mplsucast, Netbios, novell, pppoe, rarp.)
Layer 2 Switching Commands 272
•
0x0600-0xFFFF
—Specify custom EtherType value (hexadecimal range
0x0600-0xFFFF).
•
vlan eq
—VLAN identifier. (Range 0-4095). This matches the outer VLAN
of a single or double-tagged packet. It does not match untagged packets.
•
secondary-vlan eq
—VLAN identifier. (Range 0-4095). This matches the
inner VLAN of a double-tagged packet. It does not match single or
untagged packets.
•
cos
—
Class of service. (Range 0-7)
•
log
—
Specifies that this rule is to
be logged if the permit/deny rule has
been matched one or more times since the expiry of the last logging
interval. The logging interval is 5 minutes
.
• time-range-name—Use the time-range parameter to impose a time
limitation on the MAC ACL rule as defined by the parameter.
•assign-queue—
Specifies particular hardware queue for handling traffic
that matches the rule.
•
queue-id
—
0-6, where n is number of user configurable queues available
for that hardware platform. The queue ID is the internal queue number
(traffic class), not the CoS value. Use the show classofservice command
to display the assignment of CoS and DSCP values to internal queue
numbers.
•
mirror
—
Copies the traffic matching this rule to the specified interface.
•
redirect
—
Forwards traffic matching this rule to the specified Ethernet
interface.
•
interface-id
—
An Ethernet interface identifier, for example gi1/0/12.
•rate-limit rate burst-size—Specifies the allowed rate of traffic per the
configured rate in Kbps and burst-size in kbytes. Rate limits only apply to
permit rules.
– Rate— The committed rate in kilobits per second
– Burst-size—The committed burst size in Kilobytes.
Default Configuration
An implicit deny all condition is added by the system after the last MAC or
IP/IPv6 access group if no route-map is configured on the interface.
Layer 2 Switching Commands 273
Command Mode
Mac-Access-List Configuration mode
User Guidelines
The assign-queue and redirect parameters are only valid for permit
commands.
An implicit deny all condition is added by the system after the last MAC or
IP/IPv6 access group if no route-map is configured on the interface.
Every permit/deny rule that does not have a rate-limit parameter is assigned a
counter. If counter resources become exhausted, a warning is issued and the
rule is applied to the hardware without the counter.
If a permit|deny clause is entered with the same sequence number as an
existing rule, an error is displayed and the existing rule is not updated with
the new information.
Command History
Updated in 6.3.0.1 firmware. Secondary VLAN option added in 6.3.5 release.
Example
The following example configures a MAC ACL to deny traffic from MAC
address 0806.c200.0000.
console(config)#mac access-list extended DELL123
console(config-mac-access-list)#500 deny 0806.c200.0000 0000.0000.0000 any
ip access-group
Use the ip access-group command in Global and Interface Configuration
modes to apply an IP-based ACL on an interface or a group of interfaces.
Use the no ip access-group command to disable an IP-based ACL on an
interface or a group of interfaces.
Syntax
ip access-group name [in | out | control-plane] [seqnum]
no ip access-group name [in | out | control-plane]
Layer 2 Switching Commands 274
• name — Access list name. (Range: Valid IP access-list name up to 31
characters in length)
•in — The access list is applied to ingress packets.
•out—The access list is applied to egress packets.
•control-plane—The access list is applied to egress control plane packets
only. This is only available in Global Configuration mode.
• seqnum — Precedence for this interface and direction. A lower sequence
number has higher precedence. Range: 1 – 4294967295. Default is 1.
Default Configuration
This command has no default configuration.
Command Mode
Global Configuration and Interface Configuration (Ethernet, VLAN, or Port
Channel) modes
User Guidelines
The Global Configuration mode command configures the ACL on all
physical and LAG interfaces, whereas the interface mode command does so
for the interface.
Dell EMC Networking switches support configuration of multiple access
groups. Packets are matched against group entries, from lowest sequence
number to highest. Configuring an access-group, using the same sequence
number as an existing entry, replaces the original group entry.
If the access-list specified in the command does not exist, an error is given.
The ACLs in the access-group are configured in hardware when the interface
becomes active. Resource contention issues will only become apparent at that
time. It is recommended that ACLs be configured on an active interface as a
check prior to deployment in the network.
The optional control-plane keyword allows application of an ACL on the CPU
port. Control-plane match actions occur in the egress direction. System level
rules are applied on ingress, after application of any user defined ingress rules,
therefore, it is not possible to rate limit packets matching the system defined
rules with an ACL having a control-plane target. Use the rate-limit cpu
command to reduce the effects of low priority traffic on the switch CPU.
Layer 2 Switching Commands 275
An implicit deny-all rule is added after the end of the last access group in each
direction (in or out).
Examples
console(config)#ip access-list aclname
console(config-ip-acl)#exit
console(config)#ip access-group aclname in
console(config)#no ip access-group aclname in
console(config)#ip access-list aclname1
console(config-ip-acl)#exit
console(config)#ip access-group aclname1 out
console(config)#interface te1/0/1
console(config-if-Te1/0/1)#ip access-group aclname out 2
console(config-if-Te1/0/1)#no ip access-group aclname out
Command History
Example and description updated in the 6.4 release.
mac access-group
Use the mac access-group command in Global Configuration or Interface
Configuration mode to attach a specific MAC Access Control List (ACL) to
an interface.
Syntax
mac access-group name [in | out | control-plane] [sequence]
no mac access-group name [in | out | control-plane]
• name — Name of the existing MAC access list. (Range: 1-31 characters)
•[in | out | control-plane]— The packet direction. in applies the access-
list to ingress packets. out applies the access-list to egress packets. control-
plane applies the access-list to ingress control plane packets. control-plane
is only valid in Global Configuration mode.
• sequence — Order of access list relative to other access lists already
assigned to this interface and direction. (Range: 1-4294967295)
Default Configuration
No ACLs are configured by default.
Layer 2 Switching Commands 276
Command Mode
Global Configuration mode or Interface Configuration (Ethernet, VLAN or
Port Channel) mode
User Guidelines
If the access-list specified in the command does not exist, an error is given.
The ACLs in the access-group are configured in hardware when the interface
becomes active. Resource contention issues will only become apparent at that
time. It is recommended that ACLs be configured on an active interface as a
check prior to deployment in the network.
An optional sequence number may be specified to indicate the order of this
access-list relative to the other access-lists already assigned to this interface
and direction. A lower number indicates higher precedence order. If a
sequence number already is in use for this interface and direction, the
specified access-list replaces the currently attached access list using that
sequence number. If the sequence number is not specified for this command,
a sequence number is selected that is one greater than the highest sequence
number currently in use for this interface and direction.
The optional control-plane keyword allows the application of an egress MAC
ACL on the CPU port.
This command specified in Interface Configuration mode only affects a
single interface.
Example
This example rate limits IPv4 multicast traffic ingressing the front panel ports
to 8 Kbps and a maximum burst of 4 kilobytes.
console(config)# mac access-list extended ipv4-multicast
console(config-mac-access-list)#permit 01:00:5e:00:00:00 00:00:00:ff:ff:ff
any rate-limit 8 4
console(config-mac-access-list)#permit any any
console(config-mac-access-list)#exit
console(config)#mac access-group ipv4-multicast in
Layer 2 Switching Commands 277
mac access-list extended
Use the mac access-list extended command in Global Configuration mode to
create the MAC Access Control List (ACL) identified by the name parameter
and enter MAC Access-list Configuration mode.
Syntax
mac access-list extended name
no mac access-list extended name
• name — Name of the access list. (Range: 1-31 characters)
Default Configuration
This command has no default configuration.
Command Mode
Global Configuration mode
User Guidelines
Use this command to create a mac access control list. The CLI mode is
changed to Mac-Access-List Configuration when this command is
successfully executed.
Example
The following example creates MAC ACL and enters MAC-Access-List-
Configuration mode.
console(config)#mac access-list extended dell-networking
mac access-list extended rename
Use the mac access-list extended rename command in Global Configuration
mode to rename the existing MAC Access Control List (ACL).
Syntax
mac access-list extended rename name newname
• name — Existing name of the access list. (Range: 1-31 characters)
Layer 2 Switching Commands 278
• newname — New name of the access list. (Range: 1-31 characters)
Default Configuration
This command has no default configuration.
Command Mode
Global Configuration mode
User Guidelines
Command fails if the new name is the same as the old one.
Example
The following example shows the mac access-list extended rename
command.
console(config)#mac access-list extended DELL1
console(config-mac-access-list)#exit
console(config)#mac access-list extended rename DELL1 DELL2
remark
Use the remark command to add a comment to an ACL rule. Use the no form
of the command to remove a comment from an ACL rule.
Syntax
remark comment
no remark comment
• comment—Each remark line is limited to 100 characters. The remark may
consist of characters in the range A-Z, a-z, 0-9, and special characters like
space, hyphen, underscore. The total length of the remark must not exceed
100 characters.
Default Configuration
No remarks are present by default.
Layer 2 Switching Commands 279
Command Mode
IPv4 Access-list Configuration mode, IPv6 Access-list Configuration mode,
MAC Access-list Configuration mode, ARP Access-list Configuration mode
The no form of the command is executed in Global Configuration mode.
User Guidelines
The administrator can use the remark keyword to add comments to ACL rule
entries belonging to an IPv4, IPv6, MAC or ARP ACL. Remarks are associated
with the ACL rule that is created immediately after the remarks are created.
When the ACL rule is removed, the associated remarks are also deleted.
Remarks are shown only in show running-config and are not displayed in
show ip access-lists.
The no remark command removes the first matching remark from an ACL
access-list. Repeated execution of this command with the same remark
comment removes the remark from the next ACL rule which associated with
the comment (if there is any rule configured with the same comment) or an
error message is displayed if there are no matching comments.
Command History
Updated in 6.3.0.1 firmware
Example
console(config)#arp access-list new
console(config-arp-access-list)#remark “test1”
console(config-arp-access-list)#permit ip host 1.1.1.1 mac host
00:01:02:03:04:05
console(config-arp-access-list)#remark “test1”
console(config-arp-access-list)#remark “test2”
console(config-arp-access-list)#remark “test3”
console(config-arp-access-list)#permit ip host 1.1.1.2 mac host
00:03:04:05:06:07
console(config-arp-access-list)#permit ip host 2.1.1.2 mac host
00:03:04:05:06:08
console(config-arp-access-list)#remark “test4”
console(config-arp-access-list)#remark “test5”
console(config-arp-access-list)#permit ip host 2.1.1.3 mac host
00:03:04:05:06:01
Layer 2 Switching Commands 280
service-acl input
Use the service-acl input command in Interface Configuration mode to block
Link Local Protocol Filtering (LLPF) protocol(s) on a given port. Use the no
form of this command to unblock link-local protocol(s) on a given port.
Syntax
service-acl input {blockcdp | blockvtp | blockdtp | blockudld | blockpagp |
blocksstp | blockall}
no service-acl input [blockcdp | blockvtp | blockdtp | blockudld |
blockpagp | blocksstp | blockall]
•
blockcdp
—
To block CDP PDU’s from being forwarded.
•
blockvtp
—
To block VTP PDU’s from being forwarded.
•
blockdtp
—
To block DTP PDU’s from being forwarded.
•
blockudld
—
To block UDLD PDU’s from being forwarded.
•
blockpagp
—
To block PAgP PDU’s from being forwarded.
•
blocksstp
—
To block SSTP PDU’s from being forwarded.
•
blockall
—
To block all the PDU’s with MAC of 01:00:00:0c:cc:cx (x-don’t care)
from being forwarded.
Default Configuration
The default is that none of the listed protocol PDUs are blocked.
Command Mode
Interface Configuration (Ethernet, Port-channel)
User Guidelines
To specify multiple protocols, enter the protocol parameters together on the
command line, separated by spaces. This command may be entered multiple
times and will block all protocols identified in the arguments.
Example
console(config-if-Te1/0/1)#service-acl input blockall
Layer 2 Switching Commands 281
show service-acl interface
This command displays the status of LLPF rules configured on a particular
port or on all the ports.
Syntax
show service-acl interface {interface-id | all}
•
interface-id—
An Ethernet interface identifier or a port channel interface
identifier.
See
Interface Naming Conventions
for interface
representation.
Default Configuration
UDLD is blocked by default. No other protocol is blocked by default.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
This command has no user guidelines.
Example
console#show service-acl interface te1/0/1
console(config-if-Te1/0/1)#show service-acl interface te1/0/1
Service-acl Interface Te1/0/1
Protocol Mode
--------------- ----------
CDP Disabled
VTP Disabled
DTP Disabled
UDLD Enabled
PAGP Disabled
SSTP Disabled
ALL Disabled
Layer 2 Switching Commands 282
show access-lists interface
Use the show access-lists interface command to display interface ACLs.
Syntax
show access-lists interface {interface-id {in | out}} | control-plane
•
interface-id
—
The interface identifier (Ethernet, port-channel, or
VLAN).
•in—
Show the ingress ACLs.
•out—
Show the egress ACLs.
•control-plane—
Show the control plane ACLs.
Default Configuration
No ACLs are configured by default.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
There are no user guidelines for this command.
Examples
console#show access-lists interface control-plane
ACL Type ACL Name Sequence Number
-------- ------------------------------- ---------------
IPv6 ip61 1000
show ip access-lists
Use the show ip access-lists command to display an IP ACL and time-range
parameters.
Syntax
show ip access-lists [accesslistname]
Layer 2 Switching Commands 283
• accesslistname—
The name used to identify the IP ACL.
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
This command displays information about the attributes “icmp-type”, “icmp-
code”, “igmp-type,” “fragments,” “routing,” and “source and destination L4
port ranges.” It displays the committed rate, committed burst size and the
ACL rule hit count of packets matching the ACL rule. This matching packet
counter value rolls over upon reaching the maximum value
(18446744073709551615 or 264 -1).
For an ACL with multiple match rules, processing occurs in order until a rule
is matched. Only the counter associated with the matching rule is
incremented. (e.g., consider an ACL with three rules, rule 1 does not match,
and rule 2 is matched. Rule 3 is not processed. The counters for rule 1 and
rule 3 are not incremented.)
If an ACL rule is configured with a rate limit, the counter value is the
matched packet count (i.e., both the forwarded and dropped packets are
counted). If an ACL rule is configured without a rate limit, the counter value
is the count of either the permitted or denied packets.
ACL counters do not interact with DiffServ policies. ACL counters do not
interact with PBR counters.
ACL hit counters are associated with the ACL, not the interface on which the
ACL is applied. An ACL applied to multiple interfaces will display identical
(or nearly identical) counts for each interface. The count displayed is the sum
of matching packets received or transmitted on all associated interfaces.
Command History
Updated in 6.3.0.1 firmware.
Layer 2 Switching Commands 284
Examples
The following example displays the configured IP ACLs.
console(config)#show ip access-lists
Current number of ACLs: 4 Maximum number of ACLs: 100
ACL Name Rules Count Interface(s) Direction
---------------- ----- ---------- ------------------------- ---------
TO_FRM 2 437 Gi1/0/26 Inbound
UPLINKS 5 0 Gi1/0/26 Outbound
Allow-192-168-0-x 3 7617636 Gi1/0/29 Inbound
The following example displays the IP ACLs configured on a device.
console#show ip access-lists asdasd
IP ACL Name: asdasd
Inbound Interface(s):
Gi1/0/7
Rule Number: 1
Action......................................... permit
Match All...................................... FALSE
Protocol....................................... 6(tcp)
Source IP Address.............................. 1.2.3.4
Source IP Mask................................. 0.0.0.0
Source Layer 4 Operator........................ Equal To
Source L4 Port Keyword......................... 43
Destination IP Address......................... any
TCP Flags...................................... FIN (Ignore)
SYN (Set)
RST (Ignore)
PSH (Ignore)
ACK (Ignore)
URG (Ignore)
ACL Hit Count...................................... 43981900
Rule Number: 2
Action......................................... permit
Match All...................................... FALSE
Protocol....................................... 6(tcp)
Source IP Address.............................. any
Destination IP Address......................... 1.2.3.4
Destination IP Mask............................ 0.0.0.0
Layer 2 Switching Commands 285
TCP Flags...................................... FIN (Ignore)
SYN (Set)
RST (Ignore)
PSH (Ignore)
ACK (Ignore)
URG (Ignore)
ACL Hit Count.................................. 1
show mac access-lists
Use the show mac access-lists command to display a MAC access list and all
the rules that are defined for the MAC ACL. Use the [name] parameter to
identify a specific MAC ACL to display.
Syntax
show mac access-lists name
• name—Use this parameter to identify the specific MAC ACL to display.
Default Configuration
This command has no default configuration
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
The hit counter applies to the ACL, not to the interface. It shows the sum of
all matching packets across all interfaces to which the ACL is applied. For an
ACL applied to multiple interfaces, the hit counter will be identical for all
interfaces.
Command History
Updated in 6.3.0.1 firmware. Updated User Guidelines in 6.3.0.5 firmware.
Example
console#show mac access-lists
Current number of all ACLs: 9 Maximum number of all ACLs: 100
Layer 2 Switching Commands 286
MAC ACL Name Rules Count Interface(s) Direction
--------------- ----- ---------- ------------------------- ---------
DELL123 1 0 Gi1/0/1 Inbound
ipv4-multicast 2 14666 Po1-64,Gi1/0/1-24, Inbound
console#show mac access-lists mac-acl
MAC ACL Name: mac-acl
Outbound Interface(s):
Gi1/0/8
Rule Number: 1
Action......................................... permit
Source MAC Address............................. 0000.1122.3344
Source MAC Mask................................ FFFF.0000.0000
EtherType...................................... ipx
VLAN........................................... 100
ACL Hit Count.................................. 213
Rule Number: 2
Action......................................... permit
Source MAC Address............................. 0000.1133.2244
Source MAC Mask................................ FFFF.0000.0000
EtherType...................................... ip
VLAN........................................... 100
ACL Hit Count.................................. 213
Layer 2 Switching Commands 287
MAC Address Table Commands
Dell EMC Networking N1100-ON/N1500/N2000/N2100-
ON/N3000/N3100-ON/N4000 Series Switches
Dell EMC Networking switches implement a MAC Learning Bridge is
compliance with IEEE 802.1Q. The switches implement independent VLAN
learning (IVL). Dynamically learned MAC addresses are used to filter the set
of ports on which a frame is forwarded within a VLAN, that is, the destination
MAC address and ingress VLAN for a frame entering the switch is looked up
in the MAC address table and, if a match is found, the frame is forwarded out
the matching port(s). If no match is found, the frame is flooded out all ports
in the VLAN except for the ingress port.
When a frame is received on a port, the source MAC address (and VLAN) is
looked up in the MAC address table. If no matching entry is found, a new
entry is added to the MAC address table associated with the source port. If a
matching entry is found, the matching entry timestamp is refreshed such that
it will continue to remain in the MAC address table. Dynamic MAC address
entries for which no frames have been received within the aging period are
removed out of the MAC address table. The administrator can globally
configure the MAC address aging timer.
Administrators can configure static MAC address entries. Static MAC entries
are treated in the same manner as dynamic MAC address entries for the
purposes of frame forwarding. Static MAC addresses never age out of the
MAC address database and can only be removed by administrator action.
Port security allows the administrator to disable learning of MAC addresses
on selected interfaces. Dynamically learned MAC addresses are flushed on an
interface at the time port security is enabled. The interface then dynamically
learns MAC addresses up to the configured limit and no more. The
administrator may configure a limit of 0 in order to disable MAC learning on
the interface entirely. In this configuration, it is advisable to configure static
MAC entries on the interface in order to facilitate forwarding.
Layer 2 Switching Commands 288
Commands in this Section
This section explains the following commands:
clear mac address-table
Use the clear mac address-table command to remove learned entries from the
forwarding database.
Syntax
clear mac address-table dynamic [address mac-addr | interface interface-id |
vlan vlan-id]
•
mac-addr
—
Delete the specified MAC address.
•
interface-id
—
Delete all dynamic MAC addresses on the specified Ethernet port
or port channel.
•
vlan-id
—
Delete all dynamic MAC addresses for the specified VLAN. The range
is 1 to 4093.
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode
clear mac address-table show mac address-table
multicast
show mac address-table
dynamic
mac address-table aging-
time
show mac address-table show mac address-table
interface
mac address-table multicast
forbidden address
show mac address-table
address
show mac address-table
static
mac address-table static
vlan
show mac address-table
count
show mac address-table vlan
switchport port-security
(Interface Configuration)
show mac address-table
count
show port-security
Layer 2 Switching Commands 289
User Guidelines
This command has no user guidelines.
Example
In this example, the mac address-table tables are cleared.
console#clear mac address-table dynamic
mac address-table aging-time
Use the mac address-table aging-time command in Global Configuration
mode to set the aging time of the address. To restore the default, use the no
form of the mac address table aging-time command.
Syntax
mac address-table aging-time {0 | 10-1000000}
no mac address-table aging-time
•0—
Disable aging time for the MAC Address Table.
•
10-1000000
—
Set the
number of seconds
aging time for the MAC Address
Table.
Default Configuration
300 seconds
Command Mode
Global Configuration mode
User Guidelines
This command has no user guidelines.
Example
In this example the MAC Address Table aging time is set to 400.
console(config)#mac address-table aging-time 400
Layer 2 Switching Commands 290
mac address-table multicast forbidden address
Use the mac address-table multicast forbidden address command in Global
Configuration mode to forbid adding a specific Multicast address to specific
ports. To return to the system default, use the no form of this command. If
routers exist on the VLAN, do not change the unregistered multicast
addresses state to drop on the routers ports.
Syntax
mac address-table multicast forbidden address vlan vlan-id {mac-multicast-
address | ip-multicast-address} {add | remove} interface interface-list
no mac address-table multicast forbidden address vlan vlan-id {mac-
multicast-address | ip-multicast-address}
•
add
—
Adds ports to the group.
•
remove
—
Removes ports from the group.
•
vlan vlan-id
—
A valid vlan-id. (Range 1-4093)
•
mac-multicast-address
—MAC Multicast address
in the format
xxxx.xxxx.xxxx.
•
ip-multicast-address
—
IP Multicast address.
•
interface-list
—
Specify a comma separated list of interface identifiers, a range of
interfaces, or a combination of both. Interface identifiers can be
port channel
interface identifiers or Ethernet interface identifiers. Embedded blanks are
not allowed in the list.
Default Configuration
No forbidden addresses are defined.
Command Mode
Global Configuration mode
User Guidelines
Before defining forbidden ports, ensure that the multicast group is registered.
Layer 2 Switching Commands 291
Examples
In this example the MAC address 0100.5e02.0203 is forbidden on port 2/0/9
within VLAN 8.
console(config)#mac address-table multicast forbidden address vlan 8
0100.5e02.0203 add interface gigabitethernet 2/0/9
mac address-table static vlan
Use the mac address table static vlan command in Global Configuration
mode to add a static MAC-layer station source address to the bridge table. To
delete the MAC address, use the no form of the mac address table static
command.
Syntax
mac address-table static mac-addr vlan vlan-id interface interface-id
no mac address-table static mac-addr vlan vlan-id interface-id]
•
mac-address
—
A valid MAC address in the format xxxx.xxxx.xxxx or
xx:xx:xx:xx:xx:xx
•
vlan-id
—
Valid VLAN ID (1-4093)
•
interface-id
—
The interface to which the received packet is forwarded.
Ethernet
interface identifiers and port channel identifiers are valid for this
command.
Default Configuration
No static addresses are defined. The default mode for an added address is
permanent.
Command Mode
Global Configuration mode
User Guidelines
The MAC address may be a unicast or multicast MAC address. Static MAC
addresses are never overridden by dynamically learned addresses. This has
implications for protocols like IGMP snooping, where statically configuring
the MAC address of a multicast router keeps IGMP snooping from
dynamically adding the multicast router to a different port.
Layer 2 Switching Commands 292
The maximum number of static MAC addresses that may be configured on a
port is limited by the switchport port-security maximum command.
This command may be invoked multiple times with different interfaces (and
the same VLAN) when used with a multicast MAC address.
Example
The following example adds a permanent static MAC address c2f3.220a.12f4
to the MAC address table.
console(config)# mac address-table static c2f3.220a.12f4 vlan 4 interface
gigabitethernet6/0/1
switchport port-security (Global Configuration)
Use the switchport port-security command in Global Configuration mode to
enable port security globally. Use the no form of the command to disable port
security globally.
Syntax
switchport port-security
no switchport port-security
Default Configuration
Port security is disabled by default.
No MAC addresses are learned or configured by default.
Command Mode
Global Configuration mode
User Guidelines
Port security must be enabled globally and on the interface in order to be
active on the the interface. Disabling port security globally does not remove
sticky MAC address configuration from the running-config.
Layer 2 Switching Commands 293
Port security allows the network administrator to secure interfaces by
specifying (or learning) the allowable MAC addresses on a given port. Packets
with a matching source MAC address are forwarded normally. All other host
packets are discarded. Port security operates on access, trunk and general
mode ports.
Two methods are used to implement Port MAC locking: dynamic locking and
static locking. Static locking further has an optional sticky mode.
Dynamic locking implements a ‘first arrival’ mechanism for MAC locking.
The administrator specifies how many dynamic addresses may be learned on
the locked port. If the limit has not been reached, then a packet with an
unknown source MAC address is learned and forwarded normally. If the MAC
address limit has been reached, the packet is discarded. The administrator can
disable dynamic locking (learning) by setting the number of allowable
dynamic entries to zero.
When a MAC locking enabled link goes down, all of the dynamically locked
addresses are ‘freed.’ When the link is restored, that port can once again learn
MAC addresses up to the administrator specified limit.
A dynamically locked MAC address is eligible to be aged out if another packet
with that MAC address is not seen within the age-out time. Dynamically
locked MAC addresses are also eligible to be relearned on another port if
station movement occurs. Statically locked MAC addresses are not eligible for
aging. If a packet arrives on a port with a source MAC address that is statically
locked on another port, then the packet is discarded.
Static locking allows the administrator to specify a list of host MAC addresses
that are allowed on a port. The behavior of packets is the same as for dynamic
locking: only packets with a known source MAC address can be forwarded.
Any packets with source MAC addresses that are not configured are
discarded. The switch treats this as violation and supports send a SNMP port-
security trap.
If the administrator knows the specific MAC address (or addresses) that will
be connected to a particular port, she can specify those addresses as static
entries. By setting the number of allowable dynamic entries to zero, only
packets with a source MAC address matching a MAC address in the static list
are forwarded.
To configure static locking only, set the dynamic MAC limit to 0. To configure
dynamic locking only, set the static MAC limit to 0.
Layer 2 Switching Commands 294
Sticky mode configuration converts all the existing dynamically learned MAC
addresses on an interface to sticky. This means that they will not age out and
will appear in the running-config. In addition, new addresses learned on the
interface will also become sticky. Note that sticky is not the same as static –
the difference is that all sticky addresses for an interface are removed from the
running-config when the interface is taken out of sticky mode. Static
addresses must be removed from the running-config individually.
Sticky MAC addresses appear in the running-config in the following form:
switchport port-security mac-address sticky 0011.2233.4455 vlan 33
Statically locked MAC addresses appear in the running-config in the
following form:
switchport port-security mac-address 0011.2233.4455 vlan 33
Command History
Updated in 6.3.0.1 firmware.
Example
Enable port security/MAC locking globally and on an interface.
console(config)#switchport port-security
console(config)#interface gi1/0/3
console(config-if-gi1/0/3)#switchport port-security
Enable port security/MAC locking globally and on an interface, enable sticky
mode on the interface and convert all dynamic addresses on the interface to
sticky.
console(config)#switchport port-security
console(config)#interface gi1/0/3
console(config-if-gi1/0/3)#switchport port-security
console(config-if-gi1/0/3)#switchport port-security mac-address sticky
Add a statically locked MAC address to trunk port Gi1/0/3 and VLAN 33.
console(config)#vlan 33
console(config-vlan33)#interface gi1/0/3
console(config-if-Gi1/0/3)#switchport mode trunk
console(config-if-Gi1/0/3)#switchport port-security mac-address
0011.2233.4455 vlan 33
Add a sticky mode statically locked MAC address to trunk port Gi1/0/3 and
VLAN 33.
Layer 2 Switching Commands 295
console(config)#vlan 33
console(config-vlan33)#interface gi1/0/3
console(config-if-Gi1/0/3)#switchport mode trunk
console(config-if-Gi1/0/3)#switchport port-security mac-address sticky
0011.2233.4455 vlan 33
Remove a sticky mode MAC address from trunk port Gi1/0/3 and VLAN 33.
console(config)#vlan 33
console(config-vlan33)#interface gi1/0/3
console(config-if-Gi1/0/3)#switchport mode trunk
console(config-if-Gi1/0/3)#no switchport port-security mac-address
0011.2233.4455 vlan 33
Convert all dynamically learned MAC addresses on trunk port gi1/0/3 to
sticky MAC addresses and save the running-config so the configuration will
persist across reboots.
console(config)#vlan 33
console(config-vlan33)#interface gi1/0/3
console(config-if-Gi1/0/3)#switchport mode trunk
console(config-if-Gi1/0/3)#switchport port-security mac-address sticky
console(config)#do write
Convert all sticky MAC addresses on trunk port gi1/0/3 to sticky MAC
addresses and save the running-config so the configuration will persist across
reboots.
console(config)#vlan 33
console(config-vlan33)#interface gi1/0/3
console(config-if-Gi1/0/3)#switchport mode trunk
console(config-if-Gi1/0/3)#switchport port-security mac-address sticky
console(config)#do write
switchport port-security (Interface Configuration)
Use the switchport port-security command to enable or configure port
security (MAC locking) globally. Use the no form of the command to disable
port security globally.
Syntax
switchport port-security [mac-address { sticky | [sticky] mac-address vlan
{vlan-id}} | dynamic value | maximum value | violation {protect |
shutdown}]
no switchport port-security [mac-address {sticky | mac-address vlan {vlan-
id}} | dynamic | maximum | violation]
Layer 2 Switching Commands 296
•mac-address — The static MAC address to be configured on the interface
and VLAN.
• vlan-id — The VLAN identifier on which to configure the MAC address.
•dynamic — Configure the maximum number of dynamic MAC addresses
that be be learned on the interface. Setting the dynamic limit to 0 causes
all received packets with non-static MAC addresses to be considered as
violations.
•sticky – Configure a sticky MAC address on the interface. If the sticky
parameter not given, a statically locked MAC address is configured on the
interface.
•maximum — Configure the maximum number of static MAC addresses
that may be configured on the interface.
•violation—Configure the interface to:
–protect—Protect the interface by discarding MAC frames that are not
learned (default) and issuing a log message and a trap.
–shutdown—Protect the interface by error disabling the interface and
issuing a log message and a trap.
Default Configuration
Port security is disabled by default.
No static or sticky MAC addresses are learned or configured by default.
The default number of dynamic MAC addresses per interface is 600 (300 for
the N1500 Series switches). The default number of static MAC addresses per
interface is 100.
Both limits are subject to the total MAC address limit supported by the
system.
Command Mode
Interface (physical and port-channel) Configuration mode.
Interface Range mode - Only when using switchport port-security syntax.
Layer 2 Switching Commands 297
User Guidelines
Port security allows the network administrator to secure interfaces by
specifying (or learning) the allowable MAC addresses on a given port. Packets
with a matching source MAC address are forwarded normally. All other host
packets are discarded. Port security operates on access, trunk and general
mode ports.
Two methods are used to implement port security: dynamic locking and static
locking. Static locking further has an optional sticky mode.
Dynamic locking implements a ‘first arrival’ mechanism for MAC locking.
The administrator specifies how many dynamic addresses may be learned on
the secure port. If the limit has not been reached, then a packet with an
unknown source MAC address is learned and forwarded normally. If the MAC
address limit has been reached, the packet is discarded, the MAC address is
not learned, and a violation is raised. The administrator can disable dynamic
learning by setting the number of allowable dynamic entries to zero. This
causes all packets with unknown MAC addresses to be considered as
violations.
When a port security enabled link goes down, all of the dynamically learned
addresses are removed from the MAC forwarding database. When the link is
restored, that port can once again learn MAC addresses up to the
administrator specified limit.
A dynamically learned MAC address is eligible to be aged out if another
packet with that MAC address is not seen within the age-out time.
Dynamically learned MAC addresses are also eligible to be re-learned on
another port if station movement occurs.
Static locking allows the administrator to specify a list of MAC addresses that
are allowed on a port. The behavior of packets is the same as for dynamic
learning once the dynamic limit has been reached: only packets with a known
source MAC address can be forwarded. Any packets with source MAC
addresses that are not configured are discarded. The switch treats this as
violation.
If the administrator knows the specific MAC address (or addresses) that will
be connected to a particular port, she can specify those addresses as static
entries. By setting the number of allowable dynamic entries to zero, only
packets with a source MAC address matching a MAC address in the static list
are forwarded.
Layer 2 Switching Commands 298
Statically locked MAC addresses are not eligible for aging. If a packet arrives
on a port with a source MAC address that is statically locked on another port,
then the packet is discarded.
To configure static locking only, set the dynamic MAC limit to 0 and
configure the static MAC addresses on the interface. To configure dynamic
locking only, set the static MAC limit to 0, and set the appropriate dynamic
MAC address limit.
MAC addresses seen on an interface other than the learned or configured
MAC addresses and in excess of the limit are considered violations of port
security. Trap issuance violation actions can be configured using the snmp-
server enable traps port-security command. The default action is to log a
message and send an SNMP trap. Port security can optionally error disable an
interface on which a violation occurs using the switchport port-security
violation shutdown command.
Enabling mode configuration converts all the existing dynamically learned
MAC addresses on an interface to sticky. It also converts the last violation
MAC address to sticky, even if the dynamic limit is set to 0. These MAC
addresses will not age out and will appear in the running-config. In addition,
new addresses learned on the interface will also become sticky. Note that
sticky is not the same as static – the difference is that all sticky addresses for
an interface are removed from the running-config when the interface is taken
out of sticky mode. Static addresses must be removed from the running-
config individually.
Sticky MAC addresses appear in the running-config in the following form:
switchport port-security mac-address sticky 0011.2233.4455 vlan 33
Statically locked MAC addresses appear in the running-config in the
following form:
switchport port-security mac-address 0011.2233.4455 vlan 33
In order for sticky or static MAC addresses to survive a reboot, the
configuration must be saved.
Port security must be enabled globally and on the interface in order to be
active.
Port security should only be enabled on access mode ports and not on trunk
mode ports. This recommendation is not enforced by the switch.
Layer 2 Switching Commands 299
Command History
Updated in 6.3.0.1 firmware.
Example
Enable port security/MAC locking globally and on an interface.
console(config)#switchport port-security
console(config)#interface gi1/0/3
console(config-if-gi1/0/3)#switchport port-security
Enable port security/MAC locking globally and on an interface, enable sticky
mode on the interface and convert all dynamic addresses on the interface to
sticky.
console(config)#switchport port-security
console(config)#interface gi1/0/3
console(config-if-gi1/0/3)#switchport port-security
console(config-if-gi1/0/3)#switchport port-security mac-address sticky
Add a statically locked MAC address to trunk port Gi1/0/3 and VLAN 33.
console(config)#vlan 33
console(config-vlan33)#interface gi1/0/3
console(config-if-Gi1/0/3)#switchport mode trunk
console(config-if-Gi1/0/3)#switchport port-security mac-address
0011.2233.4455 vlan 33
Add a sticky mode statically locked locked MAC address to trunk port Gi1/0/3
and VLAN 33.
console(config)#vlan 33
console(config-vlan33)#interface gi1/0/3
console(config-if-Gi1/0/3)#switchport mode trunk
console(config-if-Gi1/0/3)#switchport port-security mac-address sticky
0011.2233.4455 vlan 33
Remove a sticky mode MAC address from trunk port Gi1/0/3 and VLAN 33.
console(config)#vlan 33
console(config-vlan33)#interface gi1/0/3
console(config-if-Gi1/0/3)#switchport mode trunk
console(config-if-Gi1/0/3)#no switchport port-security mac-address
0011.2233.4455 vlan 33
Convert all dynamically learned MAC addresses on trunk port 33 to sticky
MAC addresses and save the running-config so the configuration will persist
across reboots.
console(config)#vlan 33
console(config-vlan33)#interface gi1/0/3
console(config-if-Gi1/0/3)#switchport mode trunk
Layer 2 Switching Commands 300
console(config-if-Gi1/0/3)#switchport port-security mac-address sticky
console(config)#do write
Convert all sticky MAC addresses on trunk port 33 to sticky MAC addresses
and save the running-config so the configuration will persist across reboots.
console(config)#vlan 33
console(config-vlan33)#interface gi1/0/3
console(config-if-Gi1/0/3)#switchport mode trunk
console(config-if-Gi1/0/3)#switchport port-security mac-address sticky
console(config)#do write
show mac address-table multicast
Use the show mac address-table multicast command to display Multicast
MAC address table information.
Syntax
show mac address-table multicast [count]|[[vlan vlan-id] [address {mac-
multicast-address | ip-multicast-address}] [format {ip | mac}]]
• vlan-id — A valid VLAN ID value.
• mac-multicast-address — A valid MAC Multicast address.
• ip- multicast-address — A valid IP Multicast address.
•format — Multicast address display format. Can be ip or mac.
Default Configuration
If format is unspecified, the default is mac.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
The count parameter requests the display of the address table usage. No other
parameters may be supplied with the count parameter. The address
parameter indicates that the entry matching the specified address is
displayed. The vlan parameter requests display of entries associated with the
specified VLAN. The format parameter requests that addresses be displayed
Layer 2 Switching Commands 301
in the specified format. The vlan, address, and format parameters may all be
specified together.
A MAC address can be displayed in IP format only if it is in the range
01:00:5e:00:00:00 through 01:00:5e:7f:ff:ff.
Static multicast MAC addresses can be added via the mac address-table static
command.
Example
In this example, Multicast MAC address table information is displayed.
console#show mac address-table multicast
Vlan MAC Address Type Ports
----- ------------------- ------- ------------------
1 0100.5E05.0505 Static
Forbidden ports for multicast addresses:
Vlan MAC Address Ports
---- ----------------------- ---------------------------
1 0100.5E05.0505
NOTE: A multicast MAC address maps to multiple IP addresses, as shown above.
Command History
The description was updated in the 6.4 release.
show mac address-table
Use the show mac address-table command in User Exec or Privileged Exec
mode to display all entries in the bridge-forwarding database.
Syntax
show mac address-table
Default Configuration
This command has no default configuration.
Layer 2 Switching Commands 302
Command Mode
User Exec, Privileged Exec mode, Global Configuration mode and all
Configuration submodes
User Guidelines
Use the show mac address-table multicast to display multicast MAC address
entries along with forbidden multicast MAC entries.
Example
In this example, all classes of entries in the mac address-table are displayed.
console#show mac address-table
Aging time is 300 Sec
Vlan Mac Address Type Port
---- ---------------- ---------- -----------
0 001E.C9AA.AE19 Management CPU Interface
1 001E.C9AA.AC19 Dynamic Gi1/0/21
1 001E.C9AA.AE1B Management Vl1
10 001E.C9AA.AE1B Management Vl10
90 001E.C9AA.AE1B Management Vl90
Total MAC Addresses in use: 5
show mac address-table address
Use the show mac address-table address command in User Exec or Privileged
Exec mode to display all entries in the bridge-forwarding database for the
specified MAC address.
Syntax
show mac address-table address mac-address [interface interface-id] [vlan
vlan-id]
•
mac-address
—
A MAC address with the format xxxx.xxxx.xxxx.
•
interface-id
—
Display information for a specific interface. Valid interfaces
include Ethernet ports and port channels.
•
vlan-id
—
Display entries for the specific VLAN only. The range is 1 to 4093.
Layer 2 Switching Commands 303
Default Configuration
This command has no default configuration.
Command Mode
User Exec, Privileged Exec mode, Global Configuration mode and all
Configuration submodes
User Guidelines
This command has no user guidelines.
Example
In this example, the mac address table entry for 0000.E26D.2C2A is
displayed.
console#show mac address-table address 0000.E26D.2C2A
Vlan Mac Address Type Port
---- -------------- -------- -------------
1 0000.E26D.2C2A Dynamic Gi1/0/1
show mac address-table count
Use the show mac address-table count command in User Exec or Privileged
Exec mode to display the number of addresses present in the Forwarding
Database.
Syntax
show mac address-table count [vlan vlan-id | interface interface-id]
•
interface-id
—
Specify an interface type; valid interfaces include Ethernet ports
and port channels.
•
vlan-id
—
Specify a valid VLAN, the range is 1 to 4093.
Default Configuration
This command has no default configuration.
Layer 2 Switching Commands 304
Command Mode
User Exec, Privileged Exec mode, Global Configuration mode and all
Configuration submodes
User Guidelines
This command has no user guidelines.
Example
The following example displays the addresses in the Forwarding Database:
console#show mac address-table count
Capacity: 8192
Used: 109
Static addresses: 2
Secure addresses: 1
Dynamic addresses: 97
Internal addresses: 9
show mac address-table dynamic
Use the show mac address-table command in User Exec or Privileged Exec
mode to display all dynamic entries in the bridge-forwarding database.
Syntax
show mac address-table dynamic [address mac-address] [interface interface-
id] [vlan vlan-id]
•
mac-address
—
A MAC address in the format xxxx.xxxx.xxxx.
•
interface-id
—
Display information for a specific interface. Valid interfaces
include Ethernet ports and port channels.
•
vlan-id
—
Display entries for the specific VLAN only. The range is 1 to 4093.
Default Configuration
This command has no default configuration.
Command Mode
User Exec, Privileged Exec mode, Global Configuration mode and all
Configuration submodes
Layer 2 Switching Commands 305
User Guidelines
This command has no user guidelines.
Example
In this example, all dynamic entries in the mac address-table are displayed.
console#show mac address-table dynamic
Aging time is 300 Sec
Vlan Mac Address Type Port
---- -------------- ------- -------------
1 0000.0001.0000 Dynamic Gi1/0/1
1 0000.8420.5010 Dynamic Gi1/0/1
1 0000.E26D.2C2A Dynamic Gi1/0/1
1 0000.E89A.596E Dynamic Gi1/0/1
1 0001.02F1.0B33 Dynamic Gi1/0/1
show mac address-table interface
Use the show mac address-table command in User Exec or Privileged Exec
mode to display all entries in the mac address-table.
Syntax
show mac address-table interface interface-id [vlan vlan-id]
•
interface-id
—
Specify an interface type.Valid interfaces include Ethernet ports
and port channels.
•
vlan-id
—
Specify a valid VLAN. The range is 1 to 4093.
Default Configuration
This command has no default configuration.
Command Mode
User Exec, Privileged Exec mode, Global Configuration mode and all
Configuration submodes
User Guidelines
This command has no user guidelines.
Layer 2 Switching Commands 306
Example
In this example, all classes of entries in the bridge-forwarding database for
Gigabit Ethernet interface 1/0/1 are displayed.
console#show mac address-table interface gigabitethernet 1/0/1
Aging time is 300 Sec
Vlan Mac Address Type Port
---- -------------- ---- -------------
1 0000.0001.0000 Dynamic Gi1/0/1
1 0000.8420.5010 Dynamic Gi1/0/1
1 0000.E26D.2C2A Dynamic Gi1/0/1
1 0000.E89A.596E Dynamic Gi1/0/1
1 0001.02F1.0B33 Dynamic Gi1/0/1
show mac address-table static
Use the show mac address-table static command in User Exec or Privileged
Exec mode to display static entries in the bridge-forwarding database.
Syntax
show mac address-table static [address mac-address] [interface interface-id]
[vlan vlan-id]
•
mac-address
—
A MAC address with the format xxxx.xxxx.xxxx.
•
interface-id
—
Specify an interface type; valid interfaces include Ethernet ports
and port channels.
•
vlan-id
—
Specify a valid VLAN; the range is 1 to 4093.
Default Configuration
This command has no default configuration.
Command Mode
User Exec, Privileged Exec mode, Global Configuration mode and all
Configuration submodes
User Guidelines
This command has no user guidelines.
Layer 2 Switching Commands 307
Example
In this example, all static entries in the bridge-forwarding database are
displayed.
console#show mac address-table static
Vlan Mac Address Type Port
---- -------------- ----- -----
1 0001.0001.0001 Static Gi1/0/1
show mac address-table vlan
Use the show mac address-table vlan command in User Exec or Privileged
Exec mode to display all entries in the bridge-forwarding database for the
specified VLAN.
Syntax
show mac address-table [vlan vlan-id]
•
vlan-id
—
Specify a valid VLAN; the range is 1 to 4093.
Default Configuration
This command has no default configuration.
Command Mode
User Exec, Privileged Exec mode, Global Configuration mode and all
Configuration submodes
User Guidelines
This command has no user guidelines.
Example
In this example, multiple classes of entries in the bridge forwarding database
are displayed.
console(config-if-Gi1/0/4)#show mac address-table vlan 1
Aging time is 400 Sec
Vlan Mac Address Type Port
-------- --------------------- ----------- ---------------------
1 1418.7715.1BAA Dynamic Gi2/0/29
Layer 2 Switching Commands 308
1 1418.7715.47E8 Management CPU
1 2047.47BA.F696 Dynamic Gi2/0/29
1 B8CA.3AD5.DF1A Static Gi2/0/29
show port-security
Use the show ports security command to display port security (MAC locking)
configuration.
Syntax
show port-security [ interface-id | all | dynamic interface-id | static interface-id
| violation interface-id]
• interface-id —A physical or port channel interface identifier.
• all—Display information for all interfaces.
Default Configuration
Port security is disabled by default.
No port security MAC addresses are learned or configured by default.
The maximum static MAC address limit is 100 MAC addresses.
The maximum dynamic MAC address limit is 600 MAC addresses.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
Setting the dynamic limit to 0 causes all received packets with non-static or
sticky MAC addresses to be considered as violations.
This information is shown if no parameters are given:
Field Description
Admin Mode The configured global administrative status of port
MAC locking.
Layer 2 Switching Commands 309
This information is shown if only an interface parameter is given:
This information is shown if the dynamic parameter is given:
This information is shown if the static parameter is given:
This information is shown if the violation parameter is given:
Field Description
Interface Identifier The interface identifier.
Status The port security administrative status
(enabled/disabled).
Max-dynamic The dynamic MAC address limit.
Max-static The static address limit.
Protect Trap issued on violation (enabled/disabled).
Frequency The frequency of trap issuance (in seconds).
Shutdown Shut down (err-disable) interface on violation
(enabled/disabled).
Sticky Mode Sticky mode configuration (enabled/disabled).
Field Description
Dynamically Learned
MAC Address
Dynamically learned MAC addresses.
VLAN ID The VLAN on which the MAC address is learned.
Field Description
Statically Configured
MAC Address
Statically configured MAC addresses.
VLAN ID The VLAN identifier of the MAC address.
Sticky Indicates if the secure MAC address is sticky.
Layer 2 Switching Commands 310
Command History
Updated in 6.3.0.1 firmware.
Example
console(config)#show port-security static gi1/0/1
Number of static MAC addresses configured: 2
Static MAC address VLAN ID Sticky
------------------ ------- ------
00:01:ad:32:01 2 Yes
00:10:fe:48:19 2 No
Field Description
MAC address The source MAC address of the last packet
discarded on the interface. These are packets with
unknown MAC addresses, e.g., as in the case of the
dynamic limit set to 0.
VLAN ID The VLAN identifier of the discarded packet, if
applicable.
Layer 2 Switching Commands 311
Auto-VoIP Commands
Dell EMC Networking N1100-ON/N1500/N2000/N2100-
ON/N3000/N3100-ON/N4000 Series Switches
Voice over Internet Protocol (VoIP) allows network users to make telephone
calls using a computer network over a data network like the Internet. With
the increased prominence of delay-sensitive applications (voice, video, and
other multimedia applications) deployed in networks today, proper QoS
configuration ensures high-quality application performance. The Auto-VoIP
feature is intended to provide an easy classification mechanism for voice
packets so that they can be prioritized above data packets in order to provide
better QoS. The Auto-VoIP service is independent of the Voice VLAN service.
Only one of the two services should be deployed in any network.
The Auto-VoIP feature explicitly matches VoIP streams in Ethernet switches
and provides them with a better class of service than ordinary traffic. The
Auto VoIP module provides the capability to assign the highest priority for
the following VoIP packets:
• Session Initiation Protocol (SIP)
• H.323
• Skinny Client Control Protocol (SCCP)
Auto-VoIP borrows ACL lists from the global system pool. ACL lists allocated
by Auto-VoIP reduce the total number of ACLs available for use by the
network operator. Enabling Auto-VoIP uses one ACL list to monitor for VoIP
sessions. Each monitored VoIP session utilizes two rules from an additional
ACL list. This means that the maximum number of ACL lists allocated by
Auto-VoIP is two. The Auto-VoIP feature limits the maximum number of
simultaneous users to 16. Administrators should utilize the Voice VLAN
feature for deployment of IP voice service in an enterprise network because
Voice VLAN scales to significantly higher numbers of users.
NOTE: This feature is not available on the N3000 when loaded with the
AGGREGATION ROUTER enabled firmware (e.g., N3000_BGPvA.B.C.D.stk).
Commands in this Section
This section explains the following commands:
Layer 2 Switching Commands 312
show switchport voice
Use the show switchport voice command to show the status of Auto-VoIP on
an interface or all interfaces.
Syntax
show switchport voice [ interface-id ]
• interface-id —An Ethernet or port channel interface identifier.
Default Configuration
There is no default configuration for this command.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
See the
debug auto-voip
command for assistance in troubleshooting Auto-
VoIP issues.
This command accepts an Ethernet interface identifier or a port channel
identifier.
Examples
The following example shows command output when a port is not specified:
console#show switchport voice
Interface Auto VoIP Mode Traffic Class
--------- -------------- -------------
Gi1/0/1 Disabled 6
Gi1/0/2 Disabled 6
Gi1/0/3 Disabled 6
Gi1/0/4 Disabled 6
Gi1/0/5 Disabled 6
show switchport voice switchport voice detect auto
Layer 2 Switching Commands 313
Gi1/0/6 Disabled 6
Gi1/0/7 Disabled 6
Gi1/0/8 Disabled 6
Gi1/0/9 Disabled 6
Gi1/0/10 Disabled 6
Gi1/0/11 Disabled 6
Gi1/0/12 Disabled 6
Gi1/0/13 Disabled 6
Gi1/0/14 Disabled 6
Gi1/0/15 Disabled 6
Gi1/0/16 Disabled 6
Gi1/0/17 Disabled 6
Gi1/0/18 Disabled 6
Gi1/0/19 Disabled 6
Gi1/0/20 Disabled 6
Gi1/0/21 Disabled 6
Gi1/0/22 Disabled 6
Gi1/0/23 Disabled 6
Gi1/0/24 Disabled 6
Po1 Disabled 6
Po2 Disabled 6
Po3 Disabled 6
Po4 Disabled 6
Po5 Disabled 6
Po6 Disabled 6
Po7 Disabled 6
Po8 Disabled 6
Po9 Disabled 6
Po10 Disabled 6
Po11 Disabled 6
Po12 Disabled 6
Po13 Disabled 6
Po14 Disabled 6
Po15 Disabled 6
The following example shows command output when a port is specified:
console#show switchport voice gigabitethernet 1/0/1
Interface Auto VoIP Mode Traffic Class
--------- -------------- -------------
Gi1/0/1 Disabled 6
The command output provides the following information:
•AutoVoIP Mode—The Auto VoIP mode on the interface.
Layer 2 Switching Commands 314
•Traffic Class—The Cos Queue or Traffic Class to which all VoIP traffic is
mapped. This is not configurable and defaults to the highest COS queue
available in the system for data traffic.
switchport voice detect auto
The switchport voice detect auto command is used to enable the VoIP Profile
on all the interfaces of the switch (global configuration mode) or for a specific
interface (interface configuration mode).Use the no form of the command to
disable the VoIP Profile.
Syntax
switchport voice detect auto
no switchport voice detect auto
Default Configuration
This feature is disabled by default.
Command Mode
Global Configuration mode and all Configuration submodes, Interface
(gigabitethernet, port-channel, tengigabitethernet, fortygigabitethernet)
Configuration mode
User Guidelines
The switch Auto-VoIP capability is independent of the Voice VLAN capability.
Voice VLAN configuration has no effect on the Auto-VoIP capabilities. Voice
VLAN is recommended for enterprise deployments as Auto-VoIP is limited in
the number of active VoIP users that can be serviced.
This command is valid for Ethernet and port channel interfaces.
Example
console(config)#interface tengigabitethernet 1/0/1
console(config-if-Te1/0/1)#switchport voice detect auto
Layer 2 Switching Commands 315
CDP Interoperability Commands
Dell EMC Networking N1100-ON/N1500/N2000/N2100-
ON/N3000/N3100-ON/N4000 Series Switches
Industry Standard Discovery Protocol (ISDP) is a proprietary Layer 2 network
protocol which inter-operates with Cisco network equipment and is used to
share information between neighboring devices. Dell EMC Networking
switches participate in the ISDP protocol and are able to both discover and be
discovered by devices that support the Cisco Discovery Protocol (CDP).
ISDP is based on CDP, which is a precursor to LLDP.
Commands in this Section
This section explains the following commands:
clear isdp counters
The clear isdp counters command clears the ISDP counters.
Syntax
clear isdp counters
Default Configuration
There is no default configuration for this command.
Command Mode
Privileged Exec mode
clear isdp counters show isdp
clear isdp table show isdp entry
isdp advertise-v2 show isdp interface
isdp enable show isdp neighbors
isdp holdtime show isdp traffic
isdp timer
–
Layer 2 Switching Commands 316
User Guidelines
There are no user guidelines for this command.
Example
console#clear isdp counters
clear isdp table
The clear isdp table command clears entries in the ISDP table.
Syntax
clear isdp table
Default Configuration
There is no default configuration for this command.
Command Mode
Privileged Exec mode
User Guidelines
There are no user guidelines for this command.
Example
console#clear isdp table
isdp advertise-v2
The isdp advertise-v2 command enables the sending of ISDP version 2
packets from the device. Use the no form of this command to send version 1
packets.
Syntax
isdp advertise-v2
no isdp advertise-v2
Layer 2 Switching Commands 317
Default Configuration
ISDP sends version 2 packets by default.
Command Mode
Global Configuration mode
User Guidelines
There are no user guidelines for this command.
Example
console(config)#isdp advertise-v2
isdp enable
The isdp enable command enables ISDP on the switch. User the “no” form
of this command to disable ISDP. Use this command in global configuration
mode to enable the ISDP function on the switch. Use this command in
interface mode to enable sending ISDP packets on a specific interface.
Syntax
isdp enable
no isdp enable
Default Configuration
ISDP is enabled.
Command Mode
Global Configuration mode.
Interface Configuration (Ethernet) mode.
User Guidelines
There are no user guidelines for this command.
Example
The following example enables isdp on interface Gi1/0/1.
Layer 2 Switching Commands 318
console(config)#isdp enable
console(config)#interface gigabitethernet 1/0/1
console(config-if-Gi1/0/1)#isdp enable
isdp holdtime
The isdp holdtime command configures the hold time for ISDP packets that
the switch transmits. The hold time specifies how long a receiving device
should store information sent in the ISDP packet before discarding it. The
range is given in seconds. Use the no form of this command to reset the
holdtime to the default.
Syntax
isdp holdtime time
no isdp holdtime
• time—The time in seconds (range 10–255 seconds).
Default Configuration
The default holdtime is 180 seconds.
Command Mode
Global Configuration mode
User Guidelines
This command specifies the amount of time the partner device should
maintain the ISDP information. The local device uses the hold time in
packets received from the partner device. Configuring the hold time locally
does not change the amount of time displayed by the show isdp command.
Configure the hold time on the partner device to change the amount of time
the switch maintains the partner information.
Example
The following example sets isdp holdtime to 40 seconds.
console(config)#isdp holdtime 40
Layer 2 Switching Commands 319
isdp timer
The isdp timer command sets period of time between sending new ISDP
packets. The range is given in seconds. Use the “no” form of this command to
reset the timer to the default.
Syntax
isdp timer time
no isdp timer
•
time
—The time in seconds (range: 5–254 seconds).
Default Configuration
The default timer is 30 seconds.
Command Mode
Global Configuration mode
User Guidelines
Configuring the timer to a low value on a large number interfaces may affect
system processing due to CPU overload. Use the show process cpu command
to examine the system load.
Example
The following example sets the isdp timer value to 40 seconds.
console(config)#isdp timer 40
show isdp
The show isdp command displays global ISDP settings.
Syntax
show isdp
Default Configuration
There is no default configuration for this command.
Layer 2 Switching Commands 320
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
There are no user guidelines for this command.
Example
console#show isdp
Timer................................ 30
Hold Time............................ 180
Version 2 Advertisements............. Enabled
Neighbors table last time changed.... 0 days 00:06:01
Device ID............................ QTFMPW82400020
Device ID format capability.......... Serial Number
Device ID format..................... Serial Number
show isdp entry
The show isdp entry command displays ISDP entries. If a device id specified,
then only the entry about that device is displayed.
Syntax
show isdp entry {all | deviceid}
•
all
—
Show ISDP settings for all devices.
•
deviceid
—
The device ID associated with a neighbor.
Default Configuration
There is no default configuration for this command.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
There are no user guidelines for this command.
Layer 2 Switching Commands 321
Example
console#show isdp entry Switch
Device ID N2000/N3000 Series Switch
Address(es):
IP Address: 172.20.1.18
IP Address: 172.20.1.18
Capability Router IGMP
Platform cisco WS-C4948
Interface Gi1/0/1
Port ID Gi1/0/1
Holdtime 64
Advertisement Version 2
Entry last changed time 0 days 00:13:50
Version:
Cisco IOS Software, Catalyst 4000 L3 Switch Software (cat4000 I9K91S-M),
Version 12.2(25)EWA9, RELEASE SOFTWARE (fc3)
Technical Support: http://www.cisco.com/techsupport
Copyright (c) 1986-2007 by Cisco Systems, Inc.
Compiled Wed 21-Mar-07 12:20 by tinhuang
show isdp interface
The show isdp interface command displays ISDP settings for the specified
interface.
Syntax
show isdp interface {all | interface-id}
• interface-id—An Ethernet interface identifier.
• all—Display all interfaces.
Default Configuration
There is no default configuration for this command.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
This command accepts an Ethernet interface identifier.
Layer 2 Switching Commands 322
Example
console#show isdp interface all
Interface Mode
--------------- ----------
Gi1/0/1 Enabled
Gi1/0/2 Enabled
Gi1/0/3 Enabled
Gi1/0/4 Enabled
Gi1/0/5 Enabled
Gi1/0/6 Enabled
Gi1/0/7 Enabled
Gi1/0/8 Enabled
Gi1/0/9 Enabled
console#show isdp interface gigabitethernet 1/0/1
Interface Mode
--------------- ----------
Gi1/0/1 Enabled
show isdp neighbors
The show isdp neighbors command displays the list of neighboring devices.
Syntax
show isdp neighbors [interface-id][detail]
• interface-id—A physical interface identifier.
Default Configuration
There is no default configuration for this command.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
The information displayed varies based upon the information received from
the ISDP neighbor.
Layer 2 Switching Commands 323
Example
console#show isdp neighbors
Capability Codes: R - Router, T - Trans Bridge, B - Source Route Bridge,
S - Switch, H - Host, I - IGMP, r - Repeater
Device ID Intf Holdtime Capability Platform Port ID
------------------------ --------- --------- ---------- ---------------- ---------
CN0H784T2829841E0534A00 Gi1/0/13 163 R N3048 Gi1/0/13
R3 Gi1/0/16 157 R N3048 Gi1/0/16
console#show isdp neighbors detail
Device ID Switch
Address(es):
IP Address: 172.20.1.18
IP Address: 172.20.1.18
Capability Router IGMP
Platform cisco WS-C4948
Interface Gi1/0/1
Port ID GigabitEthernet1/1
Holdtime 162
Advertisement Version 2
Entry last changed time 0 days 00:55:20
Version:
Cisco IOS Software, Catalyst 4000 L3 Switch Software (cat4000-I9K91S-M), Version
12.2(25)EWA9, RELEASE SOFTWARE (fc3)
Technical Support: http://www.cisco.com/techsupport
Copyright (c) 1986-2007 by Cisco Systems, Inc.
Compiled Wed 21-Mar-07 12:20 by tinhuang
show isdp traffic
The show isdp traffic command displays ISDP statistics.
Syntax
show isdp traffic
Default Configuration
There is no default configuration for this command.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
There are no user guidelines for this command.
Layer 2 Switching Commands 324
Example
console#show isdp traffic
ISDP Packets Received.......................... 4253
ISDP Packets Transmitted....................... 127
ISDPv1 Packets Received........................ 0
ISDPv1 Packets Transmitted..................... 0
ISDPv2 Packets Received........................ 4253
ISDPv2 Packets Transmitted..................... 4351
ISDP Bad Header................................ 0
ISDP Checksum Error............................ 0
ISDP Transmission Failure...................... 0
ISDP Invalid Format............................ 0
ISDP Table Full................................ 392
ISDP Ip Address Table Full..................... 737
Layer 2 Switching Commands 325
DHCP Layer 2 Relay Commands
Dell EMC Networking N1100-ON/N1500/N2000/N2100-
ON/N3000/N3100-ON/N4000 Series Switches
In the majority of network configurations, DHCP clients and their associated
servers do not reside on the same IP network or subnet. Therefore, some kind
of third-party agent is required to transfer DHCP messages between clients
and servers. Such an agent is known as a DHCP Relay agent.
The DHCP Relay agent accepts DHCP requests from any routed interface,
including VLANs. The agent relays requests from a subnet without a DHCP
server to a server or next-hop agent on another subnet. Unlike a router which
switches IP packets transparently, a DHCP Relay agent processes DHCP
messages and generates new DHCP messages as a result.
The Dell EMC Networking DHCP Relay supports DHCP Option 82 circuit-
id and remote-id for a VLAN.
Commands in this Section
This section explains the following commands:
dhcp l2relay (Global Configuration) show dhcp l2relay stats interface
dhcp l2relay (Interface Configuration)
–
dhcp l2relay circuit-id show dhcp l2relay agent-option vlan
dhcp l2relay remote-id show dhcp l2relay vlan
dhcp l2relay trust show dhcp l2relay circuit-id vlan
dhcp l2relay vlan show dhcp l2relay remote-id vlan
show dhcp l2relay all clear dhcp l2relay statistics interface
show dhcp l2relay interface
–
Layer 2 Switching Commands 326
dhcp l2relay (Global Configuration)
Use the dhcp l2relay command to enable Layer 2 DHCP Relay functionality.
The subsequent commands mentioned in this section can only be used when
the L2-DHCP Relay is enabled. Use the no form of this command to disable
L2-DHCP Relay.
Syntax
dhcp l2relay
no dhcp l2relay
Default Configuration
DHCP L2 Relay is disabled by default.
Command Mode
Global Configuration.
User Guidelines
There are no user guidelines for this command.
Example
console(config)#dhcp l2relay
dhcp l2relay (Interface Configuration)
Use the dhcp l2relay command to enable DHCP L2 Relay for an interface.
Use the no form of this command to disable DHCP L2 Relay for an interface.
Syntax
dhcp l2relay
no dhcp l2relay
Default Configuration
DHCP L2Relay is disabled on all interfaces by default.
Layer 2 Switching Commands 327
Command Mode
Interface Configuration (Ethernet, Port-channel).
User Guidelines
There are no user guidelines for this command.
Example
console(config-if-Gi1/0/1)#dhcp l2relay
dhcp l2relay circuit-id
Use the dhcp l2relay circuit-id command to enable setting the DHCP
Option 82 Circuit ID for a VLAN. When enabled, the interface number is
added as the Circuit ID in DHCP option 82. Use the no form of this
command to disable setting the DHCP Option 82 Circuit ID.
Syntax
dhcp l2relay circuit-id vlan vlan-list
no dhcp l2relay circuit-id vlan vlan-list
•vlan-list —A list of VLAN IDs. List separate, non-consecutive VLAN IDs
separated by commas (without spaces). Use a hyphen to designate a range
of IDs. (Range: 1–4093)
Default Configuration
Setting the DHCP Option 82 Circuit ID is disabled by default.
Command Mode
Global Configuration
User Guidelines
There are no user guidelines for this command.
Example
console(config)#dhcp l2relay circuit-id vlan 340-350
Layer 2 Switching Commands 328
dhcp l2relay remote-id
Use the dhcp l2relay remote-id command to enable setting the DHCP
Option 82 Remote ID for a VLAN. When enabled, the supplied string is used
for the Remote ID in DHCP Option 82. Use the no form of this command to
disable setting the DHCP Option 82 Remote ID.
Syntax
dhcp l2relay remote-id remoteId vlan vlan-list
no dhcp l2relay remote-id vlan vlan-list
•
remoteId
—
The string to be used as the remote ID in the Option 82 (Range: 1 -
128 characters).
•vlan-list —A list of VLAN IDs. List separate, non-consecutive VLAN IDs
separated by commas (without spaces). Use a hyphen to designate a range
of IDs. (Range: 1–4093)
Default Configuration
Setting the DHCP Option 82 Remote ID is disabled by default.
Command Mode
Global Configuration.
User Guidelines
There are no user guidelines for this command.
Example
console(config)#dhcp l2relay remote-id dslforum vlan 10,20-30
dhcp l2relay trust
Use the dhcp l2relay trust command to configure an interface to mandate
Option-82 on receiving DHCP packets.
Syntax
dhcp l2relay trust
no dhcp l2relay trust
Layer 2 Switching Commands 329
Default Configuration
DHCP Option 82 is discarded by default.
Configuration Mode
Interface Configuration (Ethernet, Port-channel).
User Guidelines
There are no user guidelines for this command.
Example
console(config-if-Gi1/0/1)#dhcp l2relay trust
dhcp l2relay vlan
Use the dhcp l2relay vlan command to enable the L2 DHCP Relay agent for
a set of VLANs. All DHCP packets which arrive on interfaces in the
configured VLAN are subject to L2 Relay processing. Use the no form of this
command to disable L2 DHCP Relay for a set of VLANs.
Syntax
dhcp l2relay vlan vlan-list
no dhcp l2relay vlan vlan-list
• vlan-list — A list of VLAN IDs. List separate, non-consecutive VLAN IDs
separated by commas (without spaces). Use a hyphen to designate a range
of IDs. (Range: 1–4093)
Default Configuration
DHCP L2 Relay is disabled on all VLANs by default.
Command Mode
Global Configuration mode
User Guidelines
There are no user guidelines for this command.
Layer 2 Switching Commands 330
Example
console(config)#dhcp l2relay vlan 10,340-345
show dhcp l2relay all
Use the show dhcp l2relay all command to display the summary of DHCP L2
Relay configuration.
Syntax
show dhcp l2relay all
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
There are no user guidelines for this command.
Example
console #show dhcp l2relay all
DHCP L2 Relay is Enabled.
Interface L2RelayMode TrustMode
---------- ----------- --------------
Gi1/0/2 Enabled untrusted
Gi1/0/4 Disabled trusted
VLAN Id L2 Relay CircuitId RemoteId
--------- ---------- ----------- ------------
3 Disabled Enabled --NULL--
5 Enabled Enabled --NULL--
6 Enabled Enabled --dell--
7 Enabled Disabled --NULL--
8 Enabled Disabled --NULL--
9 Enabled Disabled --NULL--
10 Enabled Disabled --NULL--
Layer 2 Switching Commands 331
show dhcp l2relay interface
Use the show dhcp l2relay interface command to display DHCP L2 Relay
configuration specific to interfaces.
Syntax
show dhcp l2relay interface {all | interface-id}
•
all
—
Show all interfaces.
•
interface-id
—
An Ethernet interface.
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
There are no user guidelines for this command.
Example
console#show dhcp l2relay interface all
DHCP L2 Relay is Enabled.
Interface L2RelayMode TrustMode
---------- ----------- --------------
0/2 Enabled untrusted
0/4 Disabled trusted
show dhcp l2relay stats interface
Use the show dhcp l2relay stats interface command to display DHCP L2
Relay statistics specific to interfaces.
Syntax
show dhcp l2relay stats interface {all | interface-id}
•all—
Show all interfaces.
Layer 2 Switching Commands 332
• interface-id—
An Ethernet interface.
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
There are no user guidelines for this command.
Example
console#show dhcp l2relay stats interface all
DHCP L2 Relay is Enabled.
Interface UntrustedServer UntrustedClient TrustedServer TrustedClient
MsgsWithOpt82MsgsWithOpt82 MsgsWithoutOpt82 MsgsWithoutOpt82
--------- ------------- ---------------- ---------------- -------------
Gi1/0/1 0 0 0 0
Gi1/0/2 0 0 3 7
Gi1/0/3 0 0 0 0
show dhcp l2relay agent-option vlan
Use the show dhcp l2relay agent-option vlan command to display DHCP L2
Relay Option-82 configuration specific to VLANs.
Syntax
show dhcp l2relay agent-option vlan vlan-list
•
vlan-list
—
Show information for the specified VLAN range
. List separate, non-
consecutive VLAN IDs separated by commas (without spaces). Use a
hyphen to designate a range of IDs. (Range: 1–4093)
Default Configuration
This command has no default configuration.
Layer 2 Switching Commands 333
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
There are no user guidelines for this command.
Example
console# show dhcp l2relay agent-option vlan 5-10
DHCP L2 Relay is Enabled.
VLAN Id L2 Relay CircuitId RemoteId
--------- ---------- ----------- ------------
5 Enabled Enabled --NULL--
6 Enabled Enabled broadcom
7 Enabled Disabled --NULL--
8 Enabled Disabled --NULL--
9 Enabled Disabled --NULL--
10 Enabled Disabled --NULL—
show dhcp l2relay vlan
Use the show dhcp l2relay vlan command to display whether DHCP L2 Relay
is globally enabled on the specified VLAN or VLAN range.
Syntax
show dhcp l2relay vlan vlan-list
• vlan-list—Show information for the specified VLAN range. List separate, non-
consecutive VLAN IDs separated by commas (without spaces). Use a
hyphen to designate a range of IDs. (Range: 1–4093)
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
Layer 2 Switching Commands 334
User Guidelines
There are no user guidelines for this command.
Example
console#show dhcp l2relay vlan 100
DHCP L2 Relay is Enabled.
DHCP L2 Relay is enabled on the following VLANs:
100
show dhcp l2relay circuit-id vlan
Use the show dhcp l2relay circuit-id vlan command to display whether
DHCP L2 Relay is globally enabled and whether the DHCP Circuit-ID
option is enabled on the specified VLAN or VLAN range.
Syntax
show dhcp l2relay circuit-id vlan vlan-list
•
vlan-list
—
Show information for the specified VLAN range.
List separate, non-
consecutive VLAN IDs separated by commas (without spaces). Use a
hyphen to designate a range of IDs. (Range: 1–4093)
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
There are no user guidelines for this command.
Example
console#show dhcp l2relay circuit-id vlan 300
DHCP L2 Relay is Enabled.
DHCP Circuit-Id option is enabled on the following VLANs:
300
Layer 2 Switching Commands 335
show dhcp l2relay remote-id vlan
Use the show dhcp l2relay remote-id vlan command to display whether
DHCP L2 Relay is globally enabled and shows the remote ID configured on
the specified VLAN or VLAN range.
Syntax
show dhcp l2relay remote-id vlan vlan-list
•
vlan-list
—
Show information for the specified VLAN range
. List separate, non-
consecutive VLAN IDs separated by commas (without spaces). Use a
hyphen to designate a range of IDs. (Range: 1–4093)
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
There are no user guidelines for this command.
Example
console#show dhcp l2relay remote-id vlan 200
DHCP L2 Relay is Enabled.
VLAN ID Remote Id
-------- -------------
200 remote_22
clear dhcp l2relay statistics interface
Use the show dhcp l2relay statistics interface command to reset the DHCP
L2 Relay counters to zero. Specify the port with the counters to clear, or use
the all keyword to clear the counters on all ports.
Syntax
clear dhcp l2relay statistics interface {all | interface-id}
Layer 2 Switching Commands 336
•
all
—
Show all interfaces.
•
interface-id
—
An Ethernet interface.
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode
User Guidelines
There are no user guidelines for this command.
Example
console#clear dhcp l2relay statistics interface gi1/0/1
Layer 2 Switching Commands 337
DHCP Snooping Commands
Dell EMC Networking N1100-ON/N1500/N2000/N2100-
ON/N3000/N3100-ON/N4000 Series Switches
DHCP Snooping is a security feature that monitors DHCP messages between
DHCP clients and DHCP server to filter harmful DHCP messages and build
a bindings database of {MAC address, IP address, VLAN ID, interface} tuples
that are considered authorized.
The DHCP snooping application processes incoming DHCP messages. For
DHCPRELEASE and DHCPDECLINE messages, the application compares
the receive interface and VLAN with the client's interface and VLAN in the
bindings database. If the interfaces do not match, the application logs the
event and drops the message. For valid client messages, DHCP snooping
compares the source MAC address to the DHCP client hardware address.
When there is a mismatch, DHCP snooping logs and drops the packet.
DHCP Snooping forwards valid client messages on trusted members within
the VLAN. If DHCP Relay and/or DHCP Server coexist with DHCP
Snooping, the DHCP client message is sent to the DHCP Relay or/and
DHCP Server for further processing.
The DHCP Snooping application uses DHCP messages to build and
maintain the binding's database. The binding's database only includes data
for clients on untrusted ports. DHCP Snooping creates a tentative binding
from DHCP DISCOVER and REQUEST messages. Tentative bindings tie a
client to a port (the port where the DHCP client message was received).
Tentative bindings are completed when DHCP Snooping learns the client's IP
address from a DHCP ACK message on a trusted port. DHCP Snooping
removes bindings in response to DECLINE, RELEASE, and NACK messages.
The DHCP Snooping application ignores the ACK messages as a reply to the
DHCP Inform messages received on trusted ports. The network administrator
can enter static bindings into the binding database.
IP Source Guard and Dynamic ARP Inspection use the DHCP Snooping
bindings database for the validation of IP and ARP packets.
Layer 2 Switching Commands 338
Commands in this Section
This section explains the following commands:
clear ip dhcp snooping binding
Use the clear ip dhcp snooping binding command to clear all DHCP
Snooping bindings on a specific interface or on all interfaces.
Syntax
clear ip dhcp snooping binding {* | interface interface-id}
•*—
Clear all DHCP Snooping entries.
• interface-id—
Clear all DHCP Snooping entries on the specified interface.
Default Configuration
There is no default configuration for this command.
Command Mode
Privileged Exec
User Guidelines
There are no user guidelines for this command.
clear ip dhcp snooping binding ip dhcp snooping trust
clear ip dhcp snooping statistics ip dhcp snooping verify mac-address
ip dhcp snooping show ip dhcp snooping
ip dhcp snooping binding show ip dhcp snooping binding
ip dhcp snooping database show ip dhcp snooping database
ip dhcp snooping database write-delay show ip dhcp snooping interfaces
ip dhcp snooping limit show ip dhcp snooping statistics
ip dhcp snooping log-invalid
–
Layer 2 Switching Commands 339
clear ip dhcp snooping statistics
Use the clear ip dhcp snooping statistics command to clear all DHCP
Snooping statistics.
Syntax
clear ip dhcp snooping statistics
Default Configuration
There is no default configuration for this command.
Command Mode
Privileged Exec
User Guidelines
There are no user guidelines for this command.
Example
console#clear ip dhcp snooping statistics
ip dhcp snooping
Use the ip dhcp snooping command to enable DHCP snooping globally, or
on a range of VLANs. Use the “no” form of this command to disable DHCP
snooping.
Syntax
ip dhcp snooping [vlan vlan-list]
no ip dhcp snooping
Default Configuration
DHCP Snooping is globally disabled by default. DHCP Snooping is not
enabled on any VLAN by default.
Command Mode
Global Configuration mode
Layer 2 Switching Commands 340
User Guidelines
To enable DHCP snooping, do the following:
1
Enable DHCP Snooping globally.
2
Enable DHCP Snooping per VLAN.
3
Configure at least one DHCP Snooping trusted port via which the DHCP
server may be reached.
The bindings database populated by DHCP snooping is used by several other
services, including IP source guard and dynamic ARP inspection. DHCP
snooping must be enabled for these services to operate.
Example
The following configuration enables DHCP snooping on VLAN 1 for a switch
connected to a DHCP server over interface gi1/0/4:
console(config)#ip dhcp snooping
console(config)#ip dhcp snooping vlan 1
console(config-if-vlan1)#exit
console(config)#interface gi1/0/4
console(config-if-Gi1/0/4)#ip dhcp snooping trust
ip dhcp snooping binding
Use the ip dhcp snooping binding command to configure a static DHCP
Snooping binding. Use the “no” form of this command to remove a static
binding.
Syntax
ip dhcp snooping binding mac-address vlan vlan-id ip-address interface
interface-id
no ip dhcp snooping binding mac-address
•
mac-address
—
The client's MAC address.
•
vlan-id
—
The identifier of the VLAN the client is authorized to use.
•
ip-address
—
The IP address of the client.
•
interface-id
—
The interface on which the client is authorized. The interface may
be an Ethernet interface identifier or a port channel interface identifier.
Layer 2 Switching Commands 341
Default Configuration
There are no static or dynamic DHCP snooping bindings by default.
Command Mode
Global Configuration mode
User Guidelines
There are no user guidelines for this command.
Example
console(config)#ip dhcp snooping binding 00:00:00:00:00:01 vlan 10
10.131.12.134 interface Gi1/0/1
ip dhcp snooping database
Use the ip dhcp snooping database command to configure the persistent
storage location of the DHCP snooping database. This can be local to the
switch or on a remote machine.
Syntax
ip dhcp snooping database {local | tftp://hostIP/filename}
•
hostIP
—
The IP address of the remote host.
•
filename
—
The name of the file for the database on the remote host. The
filename may contain any printable charact
er except a question mark
and is
checked only when attempting to open the file. The file must reside in the
working directory of the TFTP server. Specification of a sub-directory in the file
name parameter is not supported.
Default Configuration
The database is stored locally by default.
Configuration Mode
Global Configuration mode.
User Guidelines
There are no user guidelines for this command.
Layer 2 Switching Commands 342
Example
The following example configures the storage location of the snooping
database as local.
console(config)#ip dhcp snooping database local
The following example configures the storage location of the snooping
database as remote.
console(config)#ip dhcp snooping database tftp://10.131.11.1/db.txt
ip dhcp snooping database write-delay
Use the ip dhcp snooping database write-delay command to configure the
interval in seconds at which the DHCP Snooping database will be stored in
persistent storage. Use the “no” form of this command to reset the write delay
to the default.
Syntax
ip dhcp snooping database write-delay seconds
no ip dhcp snooping database write-delay
• seconds—
The write delay (Range: 15–86400 seconds).
Default Configuration
The write delay is 300 seconds by default.
Command Mode
Global Configuration mode
User Guidelines
There are no user guidelines for this command.
Example
console(config)#ip dhcp snooping database write-delay 500
Layer 2 Switching Commands 343
ip dhcp snooping limit
Use the ip dhcp snooping limit command to diagnostically disable itself if
the rate of received DHCP messages exceeds the configured limit. Use the no
shutdown command to re-enable the interface. Use the no form of this
command to disable automatic shutdown of the interface.
Syntax
ip dhcp snooping limit {rate rate [burst interval seconds]}
no ip dhcp snooping limit
• rate— The maximum number of packets per second allowed (Range: 0–
300 pps).
• seconds — Interval over which to measure a burst of packets. (Range: 1–15
seconds).
Default Configuration
By default, DCHP messages do not cause an interface to be disabled.
Command Mode
Interface Configuration (gigabitethernet, port-channel, tengigabitethernet,
fortygigabitethernet) mode
User Guidelines
This command is available in Ethernet interface configuration mode or port
channel interface configuration mode. The switch hardware rate limits
DHCP packets sent to the CPU from snooping enabled interfaces to 512
Kbps.
To prevent DHCP packets from being used in a DoS attack when DHCP
snooping is enabled; the snooping application allows configuration of rate
limiting for received DHCP packets. DHCP snooping monitors the receive
rate on each interface separately. If the receive rate exceeds the configured
limit within the configured interval, DHCP snooping shuts down the
interface. The administrator must perform the “no shutdown” command on
the affected interface to re-enable the interface.
Layer 2 Switching Commands 344
The administrator can configure the rate and burst interval. Rate limiting is
configured independently on each physical interface and may be enabled on
both trusted and untrusted interfaces. The rate limit is configurable in the
range of 0-300 packets per second and the burst interval in the range of 1-15
seconds. In general, a rate limit of under 100 pps is valid for untrusted
interfaces.
Examples
console(config-if-Gi1/0/1)#ip dhcp snooping limit rate 100 burst interval 1
ip dhcp snooping log-invalid
Use the ip dhcp snooping log-invalid command to enable logging of DHCP
messages filtered by the DHCP Snooping application. Use the no form of this
command to disable logging.
Syntax
ip dhcp snooping log-invalid
no ip dhcp snooping log-invalid
Default Configuration
Logging of filtered messages is disabled by default.
Invalid DHCP messages are not logged by default.
Command Mode
Interface Configuration (gigabitethernet, port-channel, tengigabitethernet,
fortygigabitethernet) mode
User Guidelines
This command is available in physical interface configuration mode or port
channel configuration mode.
Example
console(config-if-Gi1/0/1)#ip dhcp snooping log-invalid
console(config-if-Gi1/0/1)#no ip dhcp snooping log-invalid
Layer 2 Switching Commands 345
ip dhcp snooping trust
Use the ip dhcp snooping trust command to configure a port as trusted. Use
the no form of this command to configure a port as untrusted.
Syntax
ip dhcp snooping trust
no ip dhcp snooping trust
Default Configuration
Ports are untrusted by default.
Command Mode
Interface Configuration (gigabitethernet, port-channel, tengigabitethernet,
fortygigabitethernet) mode
User Guidelines
Configuring an interface as trusted disables DHCP snooping validation of
DHCP packets and exposes the port to IPv4 DHCP DoS attacks. Configuring
an interface as untrusted indicates that the switch should firewall DHCP
messages and act as if the port is connected to a device outside the DMZ.
DHCP snooping must be enabled globally and on the VLAN for which the
port is a member for this command to have an effect.
Interfaces connected to the DHCP server must be configured as trusted in
order for DHCP snooping to operate.
Use the ip verify source command to disallow traffic from untrusted sources
on an interface.
Example
console(config-if-Gi1/0/1)#ip dhcp snooping trust
console(config-if-Gi1/0/1)#no ip dhcp snooping trust
Layer 2 Switching Commands 346
ip dhcp snooping verify mac-address
Use the ip dhcp snooping verify mac-address command to enable the
verification of the source MAC address with the client MAC address in the
received DHCP message. Use the “no” form of this command to disable
verification of the source MAC address.
Syntax
ip dhcp snooping verify mac-address
no ip dhcp snooping verify mac-address
Default Configuration
Source MAC address verification is disabled by default.
Command Mode
Global Configuration mode
User Guidelines
There are no user guidelines for this command.
Example
console(config)#ip dhcp snooping verify mac-address
show ip dhcp snooping
Use the show ip dhcp snooping command to display the DHCP snooping
global configuration.
Syntax
show ip dhcp snooping
Default Configuration
There is no default configuration for this command.
Layer 2 Switching Commands 347
Command Mode
User Exec, Privileged Exec mode, Global Configuration mode and all
Configuration submodes
User Guidelines
There are no user guidelines for this command.
Example
console#show ip dhcp snooping
DHCP snooping is Disabled
DHCP snooping source MAC verification is enabled
DHCP snooping is enabled on the following VLANs:
11 - 30, 40
Interface Trusted Log Invalid Pkts
--------- -------- ----------------
Gi1/0/1 Yes No
Gi1/0/2 No Yes
Gi1/0/3 No Yes
Gi1/0/4 No No
Gi1/0/6 No No
show ip dhcp snooping binding
Use the show ip dhcp snooping binding command to display the DHCP
snooping binding entries.
Syntax
show ip dhcp snooping binding [{static | dynamic}] [interface interface-id |
port-channel port-channel-number] [vlan vlan-id]
•static
|
dynamic — Use these keywords to filter by static or dynamic
bindings.
• interface-id — The physical interface for which to show bindings.
• port-channel-number—The port channel for which to show bindings.
• vlan-id — The VLAN identifier for which to show bindings.
Layer 2 Switching Commands 348
Default Configuration
There is no default configuration for this command.
Command Mode
User Exec, Privileged Exec mode, Global Configuration mode and all
Configuration submodes
User Guidelines
There are no user guidelines for this command.
Example
console#show ip dhcp snooping binding
Total number of bindings: 2
MAC Address IP Address VLAN Interface Type Lease (Secs)
----------------- --------------- ---- ----------- ------- ------------
00:02:B3:06:60:80 210.1.1.3 10 Gi1/0/1 Dyn 86400
00:02:FE:06:13:04 210.1.1.4 10 Gi1/0/1 Dyn 86400
show ip dhcp snooping database
Use the show ip dhcp snooping database command to display the DHCP
snooping configuration related to the database persistence.
Syntax
show ip dhcp snooping database
Default Configuration
There is no default configuration for this command.
Command Mode
User Exec, Privileged Exec, Global Configuration mode and all Configuration
submodes
User Guidelines
There are no user guidelines for this command.
Layer 2 Switching Commands 349
Example
console#show ip dhcp snooping database
agent url: /10.131.13.79:/sai1.txt
write-delay: 5000
show ip dhcp snooping interfaces
Use the show ip dhcp snooping interfaces command to show the DHCP
Snooping status of the interfaces.
Syntax
show ip dhcp snooping interfaces [interface-id]
• interface-id — A valid physical interface.
Default Configuration
There is no default configuration for this command.
Command Mode
Privileged Exec, Global Configuration mode and all Configuration submodes
User Guidelines
There are no user guidelines for this command.
Example
console#show ip dhcp snooping interfaces
Interface Trust State Rate Limit Burst Interval
(pps) (seconds)
---------- ------------- ------------- ---------------
Gi1/0/1 No 15 1
Gi1/0/2 No 15 1
Gi1/0/3 No 15 1
console#show ip dhcp snooping interfaces gigabitethernet 1/0/15
Interface Trust State Rate Limit Burst Interval
(pps) (seconds)
---------- ------------- ------------- ---------------
Layer 2 Switching Commands 350
Gi1/0/15 Yes 15 1
show ip dhcp snooping statistics
Use the show ip dhcp snooping statistics command to display the DHCP
snooping filtration statistics.
Syntax
show ip dhcp snooping statistics
Default Configuration
There is no default configuration for this command.
Command Mode
User Exec, Privileged Exec, Global Configuration mode and all Configuration
submodes
User Guidelines
The following fields are displayed by this command:
Example
console#show ip dhcp snooping statistics
Interface MAC Verify Client Ifc DHCP Server
Failures Mismatch Msgs Rec'd
----------- ---------- ---------- -----------
Gi1/0/2 0 0 0
Gi1/0/3 0 0 0
Fields Description
MAC Verify
Failures
The number of DHCP messages that were filtered on an
untrusted interface because of source MAC address and client
MAC address mismatch.
Client Ifc
Mismatch
The number of DHCP release and Deny messages received on
the different ports than previously learned.
DHCP Server Msgs The number of DHCP server messages received on untrusted
ports.
Layer 2 Switching Commands 351
Gi1/0/4 0 0 0
Gi1/0/5 0 0 0
Gi1/0/6 0 0 0
Gi1/0/7 0 0 0
Gi1/0/8 0 0 0
Gi1/0/9 0 0 0
Gi1/0/10 0 0 0
Gi1/0/11 0 0 0
Gi1/0/12 0 0 0
Gi1/0/13 0 0 0
Gi1/0/14 0 0 0
Gi1/0/15 0 0 0
Gi1/0/16 0 0 0
Gi1/0/17 0 0 0
Gi1/0/18 0 0 0
Gi1/0/19 0 0 0
Gi1/0/20 0 0 0
Layer 2 Switching Commands 352
DHCPv6 Snooping Commands
Dell EMC Networking N1100-ON/N1500/N2000/N2100-
ON/N3000/N3100-ON/N4000 Series Switches
This section explains the following commands:
clear ipv6 dhcp snooping binding
Use the clear ipv6 dhcp snooping binding command to clear all IPv6 DHCP
Snooping entries.
Syntax
clear ipv6 dhcp snooping binding {* | interface interface-id}
• *—Clears all snooping bindings.
• interface-id—Clears all snooping bindings on a specified physical
interface.
Default Configuration
This command has no default configuration.
clear ipv6 dhcp snooping binding ipv6 dhcp snooping verify mac-address
clear ipv6 dhcp snooping binding ipv6 verify binding
ipv6 dhcp snooping ipv6 verify source
ipv6 dhcp snooping vlan show ipv6 dhcp snooping
ipv6 dhcp snooping binding show ipv6 dhcp snooping binding
ipv6 dhcp snooping database show ipv6 dhcp snooping database
ipv6 dhcp snooping database write-delay show ipv6 dhcp snooping interfaces
ipv6 dhcp snooping limit show ipv6 dhcp snooping statistics
ipv6 dhcp snooping log-invalid show ipv6 source binding
ipv6 dhcp snooping trust show ipv6 verify
–
show ipv6 verify source
Layer 2 Switching Commands 353
Command Modes
User Exec, Privileged Exec
User Guidelines
This command has no user guidelines.
Example
(console)#clear ipv6 dhcp snooping binding
clear ipv6 dhcp snooping statistics
Use the clear ipv6 dhcp snooping statistics command to clear all IPv6 DHCP
Snooping statistics.
Syntax
clear ipv6 dhcp snooping statistics
Default Configuration
This command has no default configuration.
Command Modes
User Exec, Privileged Exec
User Guidelines
The IPv6 snooping statistics are also cleared by the clear counters command.
Example
(console)#clear ipv6 dhcp snooping statistics
ipv6 dhcp snooping
Use the ipv6 dhcp snooping command to globally enable IPv6 DHCP
snooping. Use the no form of the command to globally disable IPv6 DHCP
snooping.
Layer 2 Switching Commands 354
Syntax
ipv6 dhcp snooping
no ipv6 dhcp snooping
Default Configuration
By default, DHCP snooping is not enabled.
Command Modes
Global Configuration mode
User Guidelines
The DHCP snooping application processes incoming DHCP messages. For
RELEASE and DECLINE messages from a DHCPv6 client and
RECONFIGURE messages from a DHCPv6 server received on an untrusted
interface, the application compares the receive interface and VLAN with the
client’s interface and VLAN in the bindings database. If the interfaces do not
match, the application logs the event and drops the packet. If configured, for
valid client messages, DHCP snooping additionally compares the source
MAC address to the DHCP client hardware address. If there is a mismatch,
DHCP snooping logs a message and drops the packet. The network
administrator can disable this option using the no ip v6 dhcp snooping verify
mac-address for DHCPv6. DHCP snooping always forwards client messages
on trusted interfaces within the VLAN. If DHCP relay or/and DHCP server
are enabled simultaneously with DHCP snooping, the DHCP client message
will be sent to the DHCP relay or/and DHCP server to process further.
Example
console(config)#ipv6 dhcp snooping
ipv6 dhcp snooping vlan
Use the ipv6 dhcp snooping vlan command to globally enable IPv6 DHCP on
a set of VLANs. Use the no form of the command to globally disable IPv6
DHCP snooping on a set of VLANs.
Layer 2 Switching Commands 355
Syntax
ipv6 dhcp snooping vlan vlan-list
no ipv6 dhcp snooping vlan-list
• vlan-list —A single VLAN, one or more VLANs separated by commas, or
two VLANs separated by a single dash indicating all VLANs between the
first and second inclusive. Multiple VLAN identifiers can be entered
provided that no embedded spaces are contained within the vlan-list.
Default Configuration
By default, DHCP snooping is not enabled on any VLANs.
Command Modes
Global Configuration mode
User Guidelines
DHCP snooping must be enabled on at least one VLAN and globally enabled
to become operational.
Example
console(config)#ipv6 dhcp snooping
console(config)#ipv6 dhcp snooping vlan 5-10,15,30
console(config)#interface Te1/0/1
console(config-if-Te1/0/1)#switchport mode access
console(config-if-Te1/0/1)#switchport access vlan 10
console(config-if-Te1/0/1)#no ipv6 dhcp snooping trust
ipv6 dhcp snooping binding
Use the ipv6 dhcp snooping binding command to configure a static IPv6
DHCP snooping binding. Use the no form of the command to remove the
entry from the binding database.
Syntax
ipv6 dhcp snooping binding mac-address vlan vlan-id ip-address interface
{gigabitethernet unit/slot/port | tengigabitethernet unit/slot/port |
fortygigabitethernet unit/slot/port | port-channel port-channel-number}
no ipv6 dhcp snooping binding mac-address
Layer 2 Switching Commands 356
•
mac-address
—
A valid mac address in standard format.
•
vlan-id
—
A configured VLAN id. (Range 1-4093)
•
ip-address
—
A valid IPv6 address.
•
interface-id
—
A valid physical interface ID in short or long format.
• port-channel-number—A valid port channel identifier.
Default Configuration
By default, no static DHCP bindings are configured.
Command Modes
Global Configuration mode
User Guidelines
Static bindings do not age out of the DHCP binding database.
ipv6 dhcp snooping database
Use the ipv6 dhcp snooping database command to configure the persistent
location of the DHCP snooping database. This can be a local or remote file
on a TFTP server.
Syntax
ipv6 dhcp snooping database {local | tftp://hostIP/filename}
no ipv6 dhcp snooping database
Default Configuration
By default, the local database is used.
Command Modes
Global Configuration mode
Layer 2 Switching Commands 357
User Guidelines
The DHCP binding database is persistently stored on a configured external
server or locally in flash, depending on the user configuration. A row-wise
checksum is placed in the text file that is stored on the configured TFTP
server. On switch startup, the switch reads the text file and uses the contents
to build the DHCP snooping database. If the calculated checksum value
equals the stored checksum, the switch uses the entries from the binding file
and populates the binding database. Checksum failure or a connection
problem to the external configured server causes the switch to lose the
bindings and may cause connectivity loss for hosts if IPSG or DAI is enabled.
ipv6 dhcp snooping database write-delay
Use the ipv6 dhcp snooping database write-delay command to configure the
time period between successive writes of the binding database. The binding
database is used to persistently store the DHCP bindings. Use the no form of
the command to return the write delay to the default value.
Syntax
ipv6 dhcp snooping database write-delay seconds
no ipv6 dhcp snooping write-delay
• seconds—The period of time between successive writes of the binding
database to persistent storage. (Range 15-86400 seconds.)
Default Configuration
By default, the write delay is 300 seconds.
Command Modes
Global Configuration mode
User Guidelines
The binding database is cached in memory and written to storage every write-
delay seconds.
Layer 2 Switching Commands 358
ipv6 dhcp snooping limit
Use the ipv6 dhcp snooping limit command configures an interface to be
diagnostically disabled if the rate of received DHCP messages exceeds the
configured limit. Use the no shutdown command to reenable the interface.
Use the no form of the command to disable diagnostic disabling of the
interface.
Syntax
ipv6 dhcp snooping limit {rate pps [burst interval seconds]}
no ipv6 dhcp snooping limit
• pps—The rate in packets per interval. (Range 0-300.)
• seconds—The time interval over which to measure a burst of packets.
(Range 1-15, default 1 second.)
Default Configuration
By default, DHCP messages do not shut down the interface.
Command Modes
Interface Configuration mode
User Guidelines
The switch hardware rate limits DHCP packets sent to the CPU from
snooping enabled interfaces to 512 Kbps.
To prevent DHCP packets from being used in a DoS attack when DHCP
snooping is enabled, the snooping application allows configuration of rate
limiting for received DHCP packets. DHCP snooping monitors the receive
rate on each interface separately. If the receive rate exceeds the configured
limit within the configured interval, DHCP snooping diagnostically disables
the interface. The administrator must perform the no shutdown command
on the affected interface to reenable the interface.
Layer 2 Switching Commands 359
The administrator can configure the rate and burst interval. Rate limiting is
configured independently on each physical interface and may be enabled on
both trusted and untrusted interfaces. The rate limit is configurable in the
range of 0-300 packets per second and the burst interval in the range of 1-15
seconds.
ipv6 dhcp snooping log-invalid
Use the ipv6 dhcp snooping log-invalid command to configure the port to
log invalid received DHCP messages.
Syntax
ipv6 dhcp snooping log-invalid
no ipv6 dhcp snooping log-invalid
Default Configuration
By default, invalid DHCP messages are not logged.
Command Modes
Interface Configuration mode
User Guidelines
An invalid DHCP message is one that is received on an untrusted interface
that is not a member of the VLAN over which the IP address (and optionally
the MAC address) has been learned. Receiving large number of invalid
messages may be an indication of an attack.
Logging invalid messages can use valuable CPU resources if the switch
receives such messages at a high rate. To avoid allowing the switch to be
vulnerable to a DoS attack, DHCP snooping only logs invalid messages if the
user has enabled logging. Logging is enabled on individual interfaces so that
only messages on interfaces of interest are logged. To further protect the
system, invalid message logging is rate limited to 1 per second.
Layer 2 Switching Commands 360
ipv6 dhcp snooping trust
Use the ipv6 dhcp snooping trust command to configure an interface as
trusted. Use the no form of the command to return the interface to the
default configuration.
Syntax
ipv6 dhcp snooping trust
no ipv6 dhcp snooping trust
Default Configuration
By default, interfaces are untrusted.
Command Modes
Interface Configuration mode (physical and port-channel)
User Guidelines
Configuring an interface as trusted disables DHCP snooping address
validation checking and exposes the port to IPv6 DHCP DoS attacks.
DHCP snooping must be enabled globally and on the VLAN for which the
port is a member for this command to have an effect. Configuring a port as
trusted indicates that the port is connected to an IPv6 DHCP server or to a
trusted device. Configuring a port as untrusted indicates that the switch
should firewall IPv6 DHCP messages and act as if the port is connected to an
untrusted device.
Use the ipv6 verify source command to disable traffic from untrusted sources
on an interface.
ipv6 dhcp snooping verify mac-address
Use the ipv6 dhcp snooping verify mac-address command to enable the
additional verification of the source MAC address with the client hardware
address in the received DHCP message.
Syntax
ipv6 dhcp snooping verify mac-address
Layer 2 Switching Commands 361
no ipv6 dhcp snooping verify mac-address
Default Configuration
By default, MAC address verification is not enabled.
Command Modes
Global Configuration mode
User Guidelines
DHCP MAC address verification operates on DHCP messages received over
untrusted interfaces. The source MAC address of DHCP packet is different
from the client hardware if:
• A DHCP discovery/request broadcast packet that was forwarded by the
relay agent.
• A DHCP unicast request packet was routed in renew process.
For DHCP servers and relay agents connected to untrusted interfaces, source
MAC verification should be disabled.
DHCP snooping must be enabled on at least one VLAN and globally enabled
to become operational.
Example
console(config)#ipv6 dhcp snooping
console(config)#ipv6 dhcp snooping vlan 5-10,15,30
console(config)#interface te1/0/1
console(config-if-Te1/0/1)#switchport mode access
console(config-if-Te1/0/1)#switchport access vlan 10
console(config-if-Te1/0/1)#no ipv6 dhcp snooping trust
console(config-if-Te1/0/1)#exit
console(config)#ipv6 dhcp snooping verify mac-address
ipv6 verify binding
Use the ipv6 verify binding command to configure a static IP source guard
binding.
Layer 2 Switching Commands 362
Syntax
ipv6 verify binding mac-address vlan vlan-id ip-address interface interface id
no ipv6 verify binding mac-address vlan vlan-id ip-address interface interface
id
• mac-address —A valid mac address in standard format.
• vlan-id —A configured VLAN id. (Range 1-4093.
• ip-address —A valid IPv6 address.
• interface-id—A valid interface ID in short or long format.
Default Configuration
By default, no static IP Source Guard entries are configured.
Command Modes
Global Configuration mode
User Guidelines
Traffic is filtered based upon the source IPv6 address and VLAN. Use the
switchport port-security command in interface mode to optionally add MAC
address filtering in addition to source IPv6 address filtering. If port security is
enabled, the filtering is based upon IPv6 address, MAC address and VLAN.
ipv6 verify source
Use the ipv6 verify source command to configure an interface to filter (drop)
incoming traffic from sources that are not present in the DHCP binding
database. Use the no form of the command to enable unverified traffic to
flow over the interfaces.
Syntax
ipv6 verify source [port-security]
no ipv6 verify source
•port-security — Enables filtering based upon source IP address, VLAN and
MAC address.
Layer 2 Switching Commands 363
Default Configuration
By default, no sources are blocked.
Command Modes
Interface Configuration mode (physical and port-channel)
User Guidelines
DHCP snooping should be enabled on any interfaces for which ipv6 verify
source is configured. If ipv6 verify source is configured on an interface for
which DHCP snooping is disabled, or for which DHCP snooping is enabled
and the interface is trusted, incoming traffic on the interface is dropped.
Traffic is filtered based on the source IP address and VLAN. When the port-
security keyword is configured, filtering occur based upon source IP address,
VLAN and source MAC address.
IP source guard also interacts with the port security component. Use the port
security command in interface mode to optionally add checking of learned
MAC addresses. When port security is enabled, MAC learning coordinates
with the IP Source Guard component to verify that the MAC address is in the
DHCP binding database. If it is not, port security is notified that the frame is
in violation of the security policy.
show ipv6 dhcp snooping
Use the show ipv6 dhcp snooping command to display the IPv6 DHCP
snooping configuration
Syntax
show ipv6 dhcp snooping
Default Configuration
This command has no default configuration.
Command Modes
User Exec, Privileged Exec (all show modes)
Layer 2 Switching Commands 364
User Guidelines
This command has no user guidelines.
Example
(console)#show ipv6 dhcp snooping
DHCP snooping is Disabled
DHCP snooping source MAC verification is enabled
DHCP snooping is enabled on the following VLANs:
11 - 30, 40
Interface Trusted Log Invalid Pkts
--------- -------- ----------------
Gi1/0/1 Yes No
Gi1/0/2 No Yes
Gi1/0/3 No Yes
Gi1/0/4 No No
Gi1/0/6 No No
show ipv6 dhcp snooping binding
Use the show ipv6 dhcp snooping binding command to display the IPv6
DHCP snooping configuration
Syntax
show ipv6 dhcp snooping binding [{static|dynamic}] [interface interface-id
| port-channel port-channel-number] [vlan vlan-id]
•static—Only show static entries.
•dynamic—Only show dynamic entries.
• interface-id—Limit the display to entries associated with physical
interface-id.
• vlan-id—Limit the display to entries associated with VLAN vlan-id.
• port-channel-number—Limit the display to entries associated with the
identified port channel.
Default Configuration
This command has no default configuration.
Layer 2 Switching Commands 365
Command Modes
User Exec, Privileged Exec (all show modes)
User Guidelines
There are no user guidelines for this command.
Example
(console)#show ipv6 dhcp snooping binding
Total number of bindings: 2
MAC Address IPv6 Address VLAN Interface Lease time(Secs)
------------------ ------------ ---- --------- -------------
00:02:B3:06:60:80 2000::1/64 10 0/1 86400
00:0F:FE:00:13:04 3000::1/64 10 0/1 86400
show ipv6 dhcp snooping database
Use the show ipv6 dhcp snooping database command to display IPv6 DHCP
snooping configuration related to database persistency.
Syntax
show ipv6 dhcp snooping database
Default Configuration
This command has no default configuration.
Command Modes
User Exec, Privileged Exec (all show modes)
User Guidelines
This command has no user guidelines.
Example
(console)#show ipv6 dhcp snooping database
agent url: /10.131.13.79:/sai1.txt
Layer 2 Switching Commands 366
write-delay: 5000
show ipv6 dhcp snooping interfaces
Use the show ipv6 dhcp snooping interfaces command to show the DHCP
Snooping status of IPv6 interfaces.
Syntax
show ipv6 dhcp snooping interfaces [interface id]
• interface id—A valid physical interface.
Default Configuration
There is no default configuration for this command.
Command Modes
User Exec, Privileged Exec (all show modes)
User Guidelines
If no parameter is given, all interfaces are shown.
Example
(console)#show ipv6 dhcp interfaces
Interface Trust State Rate Limit Burst Interval
(pps) (seconds)
---------- ------------- ------------- ---------------
Gi1/0/1 No 15 1
Gi1/0/2 No 15 1
Gi1/0/3 No 15 1
show ipv6 dhcp snooping statistics
Use the show ipv6 dhcp snooping statistics command to display IPv6 dhcp
snooping filtration statistics.
Layer 2 Switching Commands 367
Syntax
show ipv6 dhcp snooping statistics
Default Configuration
This command has no default configuration.
Command Modes
User Exec, Privileged Exec (all show modes)
User Guidelines
The following statistics are displayed.
Example
(console)#show ipv6 dhcp snooping statistics
Interface MAC Verify Client Ifc DHCP Server
Failures Mismatch Msgs Rec'd
----------- ---------- ---------- -----------
Gi1/0/2 0 0 0
Gi1/0/3 0 0 0
Gi1/0/4 0 0 0
Gi1/0/5 0 0 0
Gi1/0/6 0 0 0
Parameter Description
MAC Verify Failures The number of DHCP messages that got filtered
on an untrusted interface because of the source
MAC address and client hardware address
mismatch.
Client Ifc mismatch The number of DHCP release and reply messages
received on different ports than the ones they were
learned on previously.
DHCP Server Msgs It represents the number of DHCP server messages
received on Untrusted ports.
Layer 2 Switching Commands 368
show ipv6 source binding
Use the show ipv6 source binding command to display the IPv6 Source
Guard configurations on all ports, on an individual port, or on a VLAN.
Syntax
show ipv6 source binding [{dhcp-snooping | static}] [interface interface-id]
[vlan vlan-id]
• dhcp-snooping — Displays the DHCP snooping bindings.
• static —Displays the statically configured bindings.
Default Configuration
This command has no default configuration.
Command Modes
User Exec, Privileged Exec (all show modes)
User Guidelines
This command has no user guidelines.
Example
(console)#show ipv6 source binding
MAC Address IP Address Type Vlan Interface
----------------- --------------- ------------- ----- ---------
00:00:00:00:00:08 2000::1 dhcpv6-snooping 2 Gi1/0/1
00:00:00:00:00:09 3000::1 dhcpv6-snooping 3 Gi1/0/1
00:00:00:00:00:0A 4000::1 dhcpv6-snooping 4 Gi1/0/1
show ipv6 verify
Use the show ipv6 verify command to display the IPv6 Source Guard
configuration on all interfaces or the specified interface.
Syntax
show ipv6 verify [interface if-id]
• if-id—A valid interface ID (physical)
Layer 2 Switching Commands 369
Default Configuration
There is no default configuration for this command.
Command Modes
User Exec, Privileged Exec (all show modes)
User Guidelines
The filter type is one of the following values:
• ipv6-mac: User has configure MAC address filtering on this interface
• ipv6: IPv6 address filtering is configured on this interface
• N/A: No filtering is configured on the interface
Example
console(config-if-Gi1/0/5)#show ipv6 verify
Interface Filter Type
----------- -----------
Gi1/0/1 ipv6
Gi1/0/2 ipv6-mac
Gi1/0/3 N/A
Gi1/0/4 N/A
Gi1/0/5 ipv6-mac
Gi1/0/6 N/A
Gi1/0/7 N/A
Gi1/0/8 N/A
Gi1/0/9 N/A
console(config-if-Gi1/0/5)#show ipv6 verify interface gi1/0/5
Interface Filter Type
----------- -----------
Gi1/0/5 ipv6-mac
show ipv6 verify source
Use the show ipv6 verify source command to display the IPv6 Source Guard
configurations on all ports.
Layer 2 Switching Commands 370
Syntax
show ipv6 verify source
Default Configuration
There is no default configuration for this command.
Command Modes
User Exec, Privileged Exec (all show modes)
User Guidelines
If MAC address filtering is not configured on the interface, the MAC Address
field is empty. If port security is disabled on the interface, the MAC Address
field displays permit-all.
The filter type is one of the following:
• ipv6-mac: User has configured MAC address filtering on this interface.
• ipv6: Only IPv6 address filtering is configured on this interface.
Example
show ipv6 verify source
Interface Filter Type IPv6 Address MAC Address Vlan
--------- ----------- --------------- ----------------- -----
Gi1/0/1 ipv6-mac 2000::1/64 00:02:B3:06:60:80 10
Gi1/0/1 ipv6-mac 3000::1/64 00:0F:FE:00:13:04 10
Layer 2 Switching Commands 371
Dynamic ARP Inspection
Commands
Dell EMC Networking N1100-ON/N1500/N2000/N2100-
ON/N3000/N3100-ON/N4000 Series Switches
Dynamic ARP Inspection (DAI) is a security feature that rejects invalid and
malicious ARP packets. The feature prevents a class of man-in-the-middle
attacks, where an unfriendly station intercepts traffic for other stations by
poisoning the ARP caches of its neighbors. The attacker sends ARP requests
or responses mapping another station IP address to its own MAC address.
DAI drops ARP packets whose sender MAC address and sender IP address do
not match an entry in the DHCP Snooping bindings database.
Commands in this Section
This section explains the following commands:
arp access-list
Use the arp access-list command to create an ARP ACL. It will place the user
in ARP ACL Configuration mode. Use the “no” form of this command to
delete an ARP ACL.
Syntax
arp access-list acl-name
no arp access-list acl-name
arp access-list ip arp inspection vlan
clear ip arp inspection statistics permit ip host mac host
ip arp inspection filter show arp access-list
ip arp inspection limit show ip arp inspection
ip arp inspection trust 12 Enabled Disabled
ip arp inspection validate
–
Layer 2 Switching Commands 372
• acl-name — A valid ARP ACL name (Range: 1–31 characters).
Default Configuration
There are no ARP ACLs created by default.
Command Mode
Global Configuration mode
User Guidelines
There are no user guidelines for this command.
Example
console(config)#arp access-list tier1
clear ip arp inspection statistics
Use the clear ip arp inspection statistics command to reset the statistics for
Dynamic Address Resolution Protocol (ARP) inspection on all VLANs.
Syntax
clear ip arp inspection statistics
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode
User Guidelines
There are no user guidelines for this command.
Example
console#clear ip arp inspection statistics
Layer 2 Switching Commands 373
ip arp inspection filter
Use the ip arp inspection filter command to configure the ARP ACL to be
used for a single VLAN or a range of VLANs to filter invalid ARP packets. If
the static keyword is given, packets that do not match a permit statement are
dropped without consulting the DHCP snooping bindings. Use the “no” form
of this command to unconfigure the ARP ACL.
Syntax
ip arp inspection filter acl-name vlan vlan-list [static]
no ip arp inspection filter acl-name vlan vlan-list [static]
• acl-name —The name of a valid ARP ACL. (Range: 1–31 characters)
• vlan-list —A list of VLAN identifiers. List separate, non-consecutive
VLAN IDs separated by commas (without spaces). Use a hyphen to
designate a range of IDs. (Range: 1–4093)
Default Configuration
No ARP ACL is configured.
Command Mode
Global Configuration mode
User Guidelines
There are no user guidelines for this command.
Example
console(config)#ip arp inspection filter tier1 vlan 2-10 static
console(config)#ip arp inspection filter tier1 vlan 20-30
ip arp inspection limit
Use the ip arp inspection limit command to configure the rate limit and
burst interval values for an interface.
Configuring none for the limit means the interface is not rate limited for
Dynamic ARP Inspection.
Layer 2 Switching Commands 374
Syntax
ip arp inspection limit {none | rate pps [burst interval seconds]}
no ip arp inspection limit
•none — To set no rate limit.
• pps — The number of packets per second (Range: 0–300).
• seconds — The number of seconds (Range: 1–15).
Default Configuration
The default rate limit is 15 packets per second.
The default burst interval is 1 second.
Command Mode
Interface Configuration (gigabitethernet, port-channel, tengigabitethernet,
fortygigabitethernet) mode
User Guidelines
If Dynamic ARP Inspection packets are received on a port at a rate that
exceeds the threshold for a specified time, that port will be diagnostically
disabled. The threshold is configurable up to 300 pps, and the burst is
configurable up to 15s long. The default is 15 pps and 1s burst.
Use the no shut command to bring the port back in to service.
Example
console(config-if-Gi1/0/1)#ip arp inspection limit none
console(config-if-Gi1/0/1)#ip arp inspection limit rate 100 burst interval 2
ip arp inspection trust
The ip arp inspection trust command configures an interface as trusted for
Dynamic ARP Inspection. Use the no form of this command to configure an
interface as untrusted.
Syntax
ip arp inspection trust
no ip arp inspection trust
Layer 2 Switching Commands 375
Default Configuration
Interfaces are configured as untrusted by default.
Command Mode
Interface Configuration (gigabitethernet, port-channel, tengigabitethernet,
fortygigabitethernet) mode
User Guidelines
There are no user guidelines for this command.
Example
console(config-if-Gi1/0/3)#ip arp inspection trust
ip arp inspection validate
Use the ip arp inspection validate command to enable additional validation
checks like source MAC address validation, destination MAC address
validation or IP address validation on the received ARP packets. Each
command overrides the configuration of the previous command. For
example, if a command enables source MAC address and destination MAC
address validations and a second command enables IP address validation only,
the source MAC address and destination MAC address validations are
disabled as a result of the second command. Use the “no” form of this
command to disable additional validation checks.
Syntax
ip arp inspection validate {[src-mac] [dst-mac] [ip]}
no ip arp inspection validate {[src-mac] [dst-mac] [ip]}
•src-mac
—
For validating the source MAC address of an ARP packet.
•dst-mac
—
For validating the destination MAC address of an ARP packet.
•ip
—
For validating the IP address of an ARP packet.
Default Configuration
There is no additional validation enabled by default.
Layer 2 Switching Commands 376
Command Mode
Global Configuration mode
User Guidelines
There are no user guidelines for this command
Example
console(config)#ip arp inspection validate src-mac dst-mac ip
console(config)#ip arp inspection validate src-mac ip
console(config)#ip arp inspection validate dst-mac ip
console(config)#ip arp inspection validate ip
ip arp inspection vlan
Use the ip arp inspection vlan command to enable Dynamic ARP Inspection
on a single VLAN or a range of VLANs. Use the no form of this command to
disable Dynamic ARP Inspection on a single VLAN or a range of VLANs.
Syntax
ip arp inspection vlan vlan-list [logging]
no ip arp inspection vlan vlan-list [logging]
• vlan-
list
—A list of VLAN identifiers. List separate, non-consecutive
VLAN IDs separated by commas (without spaces). Use a hyphen to
designate a range of IDs. (Range: 1–4093)
•logging — Use this parameter to enable logging of invalid packets.
Default Configuration
Dynamic ARP Inspection is disabled by default.
Command Mode
Global Configuration mode
User Guidelines
There are no user guidelines for this command.
Layer 2 Switching Commands 377
Example
console(config)#ip arp inspection vlan 200-300
console(config)#ip arp inspection vlan 200-300 logging
permit ip host mac host
Use the permit ip host mac host command to configure a rule for a valid IP
address and MAC address combination used in ARP packet validation. Use
the “no” form of this command to delete an ARP ACL rule.
Syntax
permit ip host sender-ip mac host sender-mac
no permit ip host sender-ip mac host sender-mac
• sender-ip — Valid IP address used by a host.
• sender-mac —Valid MAC address in combination with the above sender-ip
used by a host.
Default Configuration
There are no ARP ACL rules created by default.
Command Mode
ARP Access-list Configuration mode
User Guidelines
There are no user guidelines for this command.
Example
console(Config-arp-access-list)#permit ip host 1.1.1.1 mac host
00:01:02:03:04:05
show arp access-list
Use the show arp access-list command to display the configured ARP ACLs
with the rules. Giving an ARP ACL name as the argument would display only
the rules in that ARP ACL.
Layer 2 Switching Commands 378
Syntax
show arp access-list [acl-name]
• acl-name — A valid ARP ACL name (Range: 1–31 characters).
Default Configuration
There is no default configuration for this command.
Command Mode
Privileged Exec, Global Configuration mode and all Configuration submodes
User Guidelines
There are no user guidelines for this command.
Example
console#show arp access-list
ARP access list H2
permit ip host 1.1.1.1 mac host 00:01:02:03:04:05
permit ip host 1.1.1.2 mac host 00:03:04:05:06:07
ARP access list H3
ARP access list H4
permit ip host 2.1.1.2 mac host 00:03:04:05:06:08
show ip arp inspection
Use the show ip arp inspection command to display the Dynamic ARP
Inspection and status.
Syntax
show ip arp inspection [interfaces [interface-id] | statistics [vlan vlan-list] |
vlan vlan-list]
•
interfaces [interface-id]
—
Display the Dynamic ARP Inspection
configuration on all the DAI enabled interfaces. Giving an interface
argument, it displays the values for that interface only.
Layer 2 Switching Commands 379
•
statistics [vlan vlan-list]
—
Display the statistics of the ARP packets
processed by Dynamic ARP Inspection. Given vlan-list argument, it
displays the statistics on all DAI-enabled VLANs in that range. In the
case of no argument, it lists the summary of the forwarded and dropped
ARP packets.
•
vlan vlan-list
—
Display the Dynamic ARP Inspection configuration on
all the VLANs in the given VLAN list. It also displays the global
configuration values for source MAC validation, destination MAC
validation and invalid IP validation.
List separate, non-consecutive VLAN
IDs separated by commas (without spaces). Use a hyphen to designate a
range of IDs. (Range: 1–4093)
Default Configuration
There is no default configuration for this command.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
The following information is displayed for each VLAN when a VLAN range is
supplied:
Field Description
VLAN The VLAN-ID for each displayed row.
DHCP Drops The number of packets dropped due to DHCP Snooping binding
database match failure.
ACL Drops The number of packets dropped due to ARP ACL rule match failure.
DHCP Permits The number of packets permitted due to DHCP snooping binding
database match.
ACL Permits The number of packets permitted due to ARP ACL rule match.
Bad Src MAC The number of packets dropped due to Source MAC validation
failure.
Bad Dest
MAC
The number of packets dropped due to Destination MAC validation
failure.
Layer 2 Switching Commands 380
Example
Following is an example of the show ip arp inspection command.
console#show ip arp inspection
Source MAC Validation................. Disabled
Destination MAC Validation............ Disabled
IP Address Validation................. Disabled
VLAN Configuration Log Invalid ACL Name Static flag
---- ------------- ----------- -------------------------------- ----------
1 Disabled Enabled
Following is an example of the show ip arp inspection interfaces command.
console#show ip arp inspection interfaces
Interface Trust State Rate Limit Burst Interval
(pps) (seconds)
--------------- ----------- ---------- ---------------
Gi1/0/1 Untrusted 15 1
Gi1/0/2 Untrusted 10 10
Following is an example of the show ip arp inspection statistics command.
console#show ip arp inspection statistics
VLAN Forwarded Dropped
---- --------- -------
10 90 14
20 10 3
console#show ip arp inspection statistics vlan 10,20
VLAN DHCP ACL DHCP ACL Bad Src Bad Dest Invalid
Drops Drops Permits Permits MAC MAC IP
---- ---------- ---------- ---------- ---------- ---------- ---------- ------
10 11 1 65 25 1 1 0
20 1 0 8 2 0 1 1
Invalid IP The number of packets dropped due to invalid IP checks.
Layer 2 Switching Commands 381
The following global parameters are displayed when no parameters are given:
The following fields are displayed for each VLAN:
Example
console#show ip arp inspection vlan 10-12
Source Mac Validation : Disabled
Destination Mac Validation : Disabled
IP Address Validation : Disabled
Vlan Configuration Log Invalid ACL Name Static flag
---- ------------- ----------- --------- ----------
10 Enabled Enabled H2 Enabled
11 Disabled Enabled
12 Enabled Disabled
Parameter Description
Source Mac Validation If Source Mac validation of ARP frame is enabled.
Destination Mac
Validation
If Destination Mac validation of ARP Response frame is
enabled.
IP Address Validation If IP address validation of ARP frame is enabled.
Field Description
VLAN The VLAN-ID for each displayed row.
Configuration Whether DAI is enabled on the VLAN.
Log Invalid Whether logging of invalid ARP packets is enabled on the
VLAN.
ACL Name ARP ACL Name if configured on the VLAN.
Static flag If the ARP ACL is configured static on the VLAN.
Layer 2 Switching Commands 382
Ethernet Configuration Commands
Dell EMC Networking N1100-ON/N1500/N2000/N2100-
ON/N3000/N3100-ON/N4000 Series Switches
Dell EMC Networking switches support a variety of configuration options to
optimize network operations. Features such as flow-control and jumbo frames
are supported along with a variety of commands to display traffic statistics as
well as limit the effects of network loops or other network issues.
Jumbo frame technology is employed in certain situations to reduce the task
load on a server CPU and to transmit large amounts of data efficiently. Jumbo
frames technology predominantly appears where certain applications would
benefit from using a larger frame size, e.g. Network File System (NFS). The
larger frame size eliminates some of the need for fragmentation, leading to
greater throughput. The increase in throughput is particularly valuable on
data center servers where the larger frame size increases efficiency of the
system and allows processing of more requests. The Dell EMC Networking
jumbo frames feature extends the standard Ethernet MTU (Max Frame Size)
from 1518 (1522 with VLAN header) bytes to 9216 bytes. However, any device
connecting to the same broadcast domain should support the same or larger
MTU.
Flow control is a mechanism or protocol used to temporarily suspend
transmission of data to a device to avoid overloading the device receive path.
Dell EMC Networking switching implements the flow control mechanism
defined in IEEE 802.3 Annexes 31A and 31B (formerly IEEE 802.3x). Dell
EMC Networking switches implement receive flow control only. They never
issue a flow control PAUSE frame when congested, but do respect flow
control PAUSE frames received from other switches. Disabling flow control
causes the switch to ignore received PAUSE frames. Flow control is enabled
by default for all ports.
Storm control allows for rate limiting of specific types of packets through the
forwarding plane. The administrator can configure the absolute rate in
packets-per-second for the Storm control threshold. Each classified packet
type (broadcast, multicast, or unicast) can be enabled/disabled per port, and
the threshold level at which Storm-Control is active is also configurable per-
port and per-type (as a percentage of interface speed).
Layer 2 Switching Commands 383
On a storm control enabled interface, if the ingress rate of that type of packet
(L2 broadcast, multicast, or unicast) is greater than the configured threshold
level (as a percentage of port speed or as an absolute packets-per-second rate),
the switch forwarding-plane discards the excess traffic.
The
speed
command controls interface link speeds and auto-negotiation. If
speed is set to something other than auto, auto-negotiation is disabled on the
interface. Auto-negotiation will link at the highest possible speed supported
on the interface at full duplex.
Commands in this Section
This section explains the following commands:
clear counters
Use the clear counters command to clear statistics on an interface.
Syntax
clear counters [vrf vrf-name | stack-ports | switchport | interface-id]
• vrf-name—The name of the VRF instance on which the command
operates.
•stack-ports—Clears stack-port statistics.
•switchport—Clear all the interface counters
clear counters show interfaces
configuration
show storm-control
description show interfaces counters show storm-control action
flowcontrol show interfaces debounce shutdown
interface show interfaces description speed
interface range show interfaces detail switchport protected
link debounce time show interfaces status switchport protected name
rate-limit cpu show interfaces transceiver show switchport protected
show interfaces show statistics show system mtu
show interfaces advertise show statistics switchport system jumbo mtu
Layer 2 Switching Commands 384
• interface-id—An Ethernet or port-channel identifier. If specified, counters
are cleared for the individual interface.
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode
User Guidelines
Use of the clear counters command with no parameters indicates that both
switch and all interface statistics are to be cleared. This command clears the
individual component counters. If a port-channel is specified, the command
clears the port channel counters, including the flap counters.
The VRF identified in the parameter must have been previously created or an
error is returned.
Example
In the following example, the counters for port Gi1/0/1 are cleared.
console#clear counters gigabitethernet 1/0/1
description
Use the description command in Interface Configuration mode to add a
description to an interface. To remove the description use the no form of this
command.
Syntax
description string
no description
• string — Comment or a description of the port attached to this interface.
(Range: 1 to 64 characters)
Default Configuration
By default, the interface does not have a description.
Layer 2 Switching Commands 385
Command Mode
Interface Configuration (gigabitethernet, port-channel, tengigabitethernet,
fortygigabitethernet) mode
User Guidelines
This command has no user guidelines.
Example
The following example adds a description to the Ethernet port 5.
console(config)#interface gigabitethernet 1/0/5
console(config-if-Gi1/0/5)# description RD_SW#3
duplex
Use the duplex command in Interface Configuration mode to configure the
duplex operation of a given Ethernet interface. To restore the default, use the
no form of this command.
Syntax
duplex {auto | half | full}
no duplex
•auto—Enable auto-negotiation for the port.
•half—Force half-duplex operation and disable auto-negotiation.
•full—Force full-duplex operation and disable auto-negotiation.
Default Configuration
Auto-negotiation is enabled by default on copper ports.
Command Mode
Interface Configuration (Ethernet) mode
User Guidelines
When both speed and duplex are configured to auto, auto negotiation is
enabled for the port. To disable auto-negotiation on a port, it is necessary to
enter either the speed or duplex commands without using the auto
Layer 2 Switching Commands 386
parameter. 10G/40G fiber ports do not support auto-negotiation and
therefore require the operator to enter the duplex full command and the
speed command with the desired operating bandwidth. Auto-negotiation is
required on 1G/10G/40G copper ports and 1G fiber ports.
The duplex command is only available on the Dell EMC Networking N1500
Series switches. Other switch models support full duplex operation only.
Example
The following example configures the duplex operation of TenGigabit
Ethernet port Te 1/0/5 to force full duplex operation, disable auto-
negotiation, and set the speed to 1000M.
console(config)# interface te1/0/5
console(config-if-Te1/0/5)# duplex full
console(config-if-Te1/0/5)# speed 1000
flowcontrol
Use the flowcontrol command in Global Configuration mode to configure
the flow control. To disable flow control, use the no form of this command.
Syntax
flowcontrol receive {on | off}
no flowcontrol receive
Default Configuration
Flow Control is enabled by default.
Command Mode
Global Configuration and Interface Configuration modes
User Guidelines
Dell EMC Networking switches implement receive flow control only. They
never issue a flow control PAUSE frame when congested, but do respect
received flow control PAUSE frames received from other switches. Disabling
flow control causes the switch to ignore received PAUSE frames.
Interface specific configuration overrides any global configuration.
Layer 2 Switching Commands 387
Changing the flow control setting on a copper port restarts auto-negotiation
and causes a brief link-flap while auto-negotiation occurs. Changing the flow
control setting on a fiber port may cause a brief link flap as the PHY is reset.
Enabling flow control on some ports and not others can lead to excessive
packet loss in situations where some ports on the switch have been paused
and the internal packet buffers are consumed. This situation may cause traffic
loss on other ports that are not congested or flow controlled.
Example
console(config)#flowcontrol receive off
console(config)#flowcontrol receive on
interface
Use this command to configure parameters for the Gigabit Ethernet and ten-
Gigabit Ethernet ports, and for port-channels. While in Global Configuration
mode, enter the interface command (with a specific interface). To exit to
Global Configuration mode, enter exit. To return to Privileged Exec mode,
press Ctrl-Z or enter end.
Additional forms of the interface command enable configuring VLANs, tunnels, the
loopback interface, the out-of-band interface, and ranges of interfaces. See
interface vlan
,
interface tunnel
,
arp
, and
interface range
.
Syntax
interface {gigabitethernet unit/slot/port |
port-channel port-channel-number
| tengigabitethernet unit/slot/port | fortygigabitethernet unit/slot/port}
Default Configuration
This command has no default configuration.
Command Mode
Global Configuration, Interface Configuration
Layer 2 Switching Commands 388
User Guidelines
Dell EMC Networking switches implement receive flow control only. They
never issue a flow control PAUSE frame when congested, but will respect
received flow control PAUSE frames received from other switches. Disabling
flow control causes the switch to ignore received PAUSE frames.
Interface specific configuration overrides any global configuration.
Changing the flow control setting on a copper port will restart auto-
negotiation and cause a brief link-flap while auto-negotiation occurs.
Changing the flow control setting on a fiber port may cause a brief link flap as
the PHY is reset.
Enabling flow control on some ports and not others can lead to excessive
packet loss in situations where some ports on the switch have been paused
and the internal packet buffers are consumed. This situation may cause traffic
loss on other ports that are not congested or flow controlled. See
http://www.ieee802.org/3/cm_study/public/september04/thaler_3_0904.pdf
for more information.
Example
The following example enables Gigabit port 2 on stack member 1 for
configuration.
console(config)# interface gigabitethernet 1/0/2
interface range
Use the interface range command in Global Configuration mode to execute a
command on multiple ports at the same time.
NOTE: An additional form of this command enables configuring a range of VLANs.
See
interface range vlan
.
Syntax
interface range {interface-range-specifier | interface-type all}
• port-range—A list of valid ports to configure. Separate non-consecutive
ports with a comma and no spaces; use a hyphen to designate a range of
ports. For more detailed information, see Command line parameters are
entered by the user to choose an individual value or range of values for the
specific command. Command line parameters are not syntax or range
Layer 2 Switching Commands 389
checked until the carriage return is entered. In some cases, the user may
need to enter special characters, most often in a string parameter such as a
password or a label. Special characters are one of the following characters
(`! $ % ^ & * ( ) _ - + = { [ } ] : ; @ ' " ~ # | \ < , > . / ) or a blank. In
these cases, it may be necessary to enclose the entire string in double or
single quotes for the command line parser to properly interpret the
parameter.. The command line buffer parses up to the maximum number
of command line characters possible in the port-range parameter.
• port-type—Shows all interfaces of the specified type.
Default Configuration
This command has no default configuration.
Command Mode
Global Configuration, Interface Range and Interface modes
User Guidelines
Commands under the interface range context are executed independently on
each active interface in the range. If the command returns an error on one of
the active interfaces, it does not stop executing commands on other active
interfaces.
If a range of interfaces is specified using the dash notation, the beginning
range number (to the left of the hyphen) must be less than or equal to the
last number (to the right of the hyphen).
Example
The following example shows how gigabitethernet ports 5/0/18 to 5/0/20 and
3/0/1 to 3/0/24 are ranged to receive the same command.
console(config)# interface range gigabitethernet 5/0/18-20,Gi3/0/1-24
console(config-if-range)#
The following example shows how all gigabitethernet ports can be configured
at once.
console(config)# interface range gigabitethernet all
console(config-if-range)#
The following examples demonstrate various valid interface ranges:
console(config)#interface range gigabitEthernet 1/0/1-20
Layer 2 Switching Commands 390
console(config)#interface range gi1/0/20-48
console(config)#interface range gi1/0/1,gi1/0/48
console(config)#interface range gi2/0/1-10,gi1/0/30
console(config)#interface range gi1/0/1-10,gi1/0/30-48
console(config)#interface range gi1/0/1,te1/1/1
console(config)#interface range gigabitEthernet 1/0/10,te1/1/2
link debounce time
Use the link debounce time command to configure the debounce timer for
one or multiple interfaces. Use the no form of the command to set the link
debounce time to the default (disabled).
Syntax
link debounce time [ timeout ]
no link debounce time
• timeout—An integer value in the range of 100–5000 milliseconds. The
timeout value must be a multiple of 100.
Default Configuration
Physical interfaces do not have debounce enabled by default.
Command Mode
Interface (Physical) Configuration mode, Interface Range mode.
User Guidelines
The link bounce time configures a link bounce hysteresis on link loss of link.
Loss of link signal starts a link bounce timer. If the link is restored prior to
expiry of the timer, operation continues and the system is not notified that
that link connectivity has been lost. Hysteresis can be used to mitigate link
flaps caused by bad cabling or partially inserted optics or cables.
The debounce timer resolution is approximately 10 ms. Setting a value will
start the timer when loss of link is detected.
Ports operating at lower speeds may benefit from debounce values larger than
the default. Ports operating over fiber generally do not require larger
debounce times.
Layer 2 Switching Commands 391
Use the show interfaces debounce command to display the link debounce
time or to display the link flap count (the number of notifications sent to the
system that link signal was lost). The link flap count is also displayed by the
show interfaces command (Link Debounce Flaps).
The link debounce counter is cleared by the clear counters command and the
clear counters interface-id command.
In general, a debounce time above 300 ms is recommended for copper
interfaces with link flaps.
Command History
Introduced in version 6.2.0.1 firmware.
Example
The following example disables the link debounce timer for interface gi1/0/1.
switch# conf t
console(config)#interface gi1/0/1
console(config-if-Gi1/0/1)#no link debounce time
The following example sets the link debounce timer for interface gi1/0/1 to
500 ms.
switch# conf t
console(config)#interface gi1/0/1
console(config-if-Gi1/0/1)#link debounce time 500
rate-limit cpu
Use the rate-limit cpu command to reduce the amount of unknown
unicast/multicast packets forwarded to the CPU. Use the no form of the
command to set the rate limit to the default value.
Syntax
rate-limit cpu direction input pps pps_value
no rate-limit cpu direction input pps
• pps_value—The packets per second. The range is 100-1024 packets per
second (100-3000 packets per second for N4000 series switches).
Layer 2 Switching Commands 392
Default Configuration
The default ingress rate limit is 1024 packets per second (3000 for
N4000
series switches
).
Command Modes
Global Configuration mode
User Guidelines
Unknown unicast and multicast packets are copied to the CPU on the lowest
priority QoS queue. Unknown packets are those that do not have hardware
forwarding entries. Known unicast/multicast packets are hardware forwarded
and are not queued to the CPU. Control plane packets (e.g. spanning tree
BPDUs) are copied or forwarded to the CPU on higher priority queues. The
rate limiting for unknown packets occurs on the internal CPU port and does
not affect hardware based traffic routing/forwarding in any way. Typically, the
switch examines the received packets in software to check if there is a
forwarding entry, create a forwarding entry (e.g., add a L2 MAC address or
ARP response), and then either discard the packet or software forward the
packet (only occurs during the brief transitional period when the system is
actively adding a hardware forwarding entry but the hardware is not yet
updated). Processing delays for higher priority packets may occur when the
internal CPU queue is continually kept busy handling low priority packets.
This command does not affect the rate limits for control plane packets. It is
almost never necessary to use this command to change from the default
value. The use of this command should be restricted to situations in which
moderate to high rates of unknown unicast/multicast are continually sent to
the switch CPU as evidenced by the show process cpu command and where
the ipMapForwardingTask is showing high CPU usage. This occurs most
frequently in networks where a high number of ARPs are continually received
on untrusted ports, high numbers of L2 stations are timing out and
reappearing or multicast flooding is occurring in the network. If problems
with L2, L3 or multicast learning occur after changing this value, set the rate
limit back to the default value and take other steps to correct or mitigate the
underlying network issue directly.
Use the show system internal pktmgr command to show the configured
value.
Layer 2 Switching Commands 393
Example
The following example shows output with higher than normal CPU usage due
to packets copied to the software forwarding task.
console#show process cpu
Memory Utilization Report
status bytes
------ ----------
free 1053933568
alloc 673873920
CPU Utilization:
PID Name 5 Secs 60 Secs 300 Secs
---------- ------------------- -------- -------- --------
1129 osapiTimer 0.00% 0.00% 0.01%
1133 _interrupt_thread 0.09% 0.01% 0.00%
1137 bcmCNTR.0 0.24% 0.31% 0.31%
1142 bcmRX 23.00% 27.01% 18.01%
1147 ipMapForwardingTas 32.97% 37.11% 29.92%
1155 bcmLINK.0 0.34% 0.36% 0.36%
1156 cpuUtilMonitorTask 0.09% 0.05% 0.04%
1170 nim_t 0.09% 0.08% 0.07%
1208 dot1s_timer_task 0.00% 0.00% 0.01%
1222 snoopTask 0.00% 0.00% 0.01%
1291 RMONTask 0.00% 0.02% 0.03%
1293 boxs Req 0.00% 0.01% 0.01%
------------------------------ -------- -------- --------
Total CPU Utilization 27.31% 28.97% 31.01%
show interfaces
Use the show interfaces command to list the traffic statistics for one or
multiple interfaces. If no parameter is given, all interfaces are shown.
Syntax
show interfaces [ interface-id ]
• interface-id—A physical interface id (i.e., a 1G, 10G, or 40G interface) in
standard interface format.
Layer 2 Switching Commands 394
Default Configuration
There is no default configuration.
Command Mode
All modes, including Config mode and all config submodes.
User Guidelines
The show interface command shows the actual operational status of the
interface, which is not necessarily the same as the configuration.
Input/output rate statistics are collected every 10 seconds.
The link status field shows the hardware status followed by the keepalive
status. The hardware status show “Up” when link is detected, “Down” when
no link is detected, “Err-disable” when the port is error-disabled, and “Shut”
when the port is administratively shut down.
The keepalive status shows “None” when keepalives are disabled or the port is
down, “Up” when keepalives are enabled and no loop is detected and “Down”
when keepalives are enabled and a loop is detected. Some example values are:
Link Status : ................................. Up/Up
Link detected, keepalives enabled, no loop detected
Link Status : ................................. Shut/None
Port is administratively disabled
Link Status : ................................. Down/None
No link detected
Link Status : ................................. Err-disable/Down
Interface is error disabled due to loop detection
Link Status : ................................. Err-disable/None
The interface is error disabled due to a cause other than loop detection/
The err-disable cause field can take any of the following values:
• None – interface is not error disabled
• ARP Inspection – ARP inspection detected invalid ARP
• BPDU Guard – BPDU detected on access port
• Broadcast Storm – broadcast storm detected
• BPDU Storm – BPDU storm detected
Layer 2 Switching Commands 395
• DHCP Rate Limit – excessive DHCP packets detected
• Loop Protection – A loop was detected by the CTP protocol
• Multicast Storm – multicast storm detected
• Port security – port security violation detected
• SFP Mismatch – unsupported transceiver detected
• SFP Plus Mismatch –SFP+ transceiver detected in SFP port
• UDLD – UDLD disabled interface
• Unicast Storm – unicast storm detected
Command History
Introduced in version 6.2.0.1 firmware.
Updated in version 6.3.0.1 firmware.
Example
The following example shows the output for a 1G interface:
console#show interfaces gi1/0/1
Interface Name : .............................. Gi1/0/1
SOC Hardware Info :............................ BCM56342_A0
Link Status : ................................. Up/Up
Keepalive Enabled.............................. TRUE
Err-disable Cause : ........................... None
VLAN Membership Mode: ......................... Trunk Mode
VLAN Membership: .............................. (1),2-3,101-113,813,3232
MTU Size : .................................... 1518
Port Mode [Duplex] : .......................... Full
Port Speed : .................................. 1000
Link Debounce Flaps : ......................... 0
Auto-Negotation Status : ...................... Auto
Burned MAC Address : .......................... 001E.C9DE.B110
L3 MAC Address................................. 001E.C9DE.B112
Sample load interval : ........................ 300
Received Input Rate Bits/Sec : ................ 784
Received Input Rate Packets/Sec : ............. 1
Transmitted Input Rate Bits/Sec : ............. 1344
Transmitted Input Rate Packets/Sec : .......... 1
Total Packets Received Without Errors.......... 102792
Unicast Packets Received....................... 0
Multicast Packets Received..................... 102792
Layer 2 Switching Commands 396
Broadcast Packets Received..................... 0
Total Packets Received with MAC Errors......... 0
Jabbers Received............................... 0
Fragments/Undersize Received................... 0
Alignment Errors............................... 0
FCS Errors..................................... 0
Overruns....................................... 0
Total Received Packets Not Forwarded........... 7
Total Packets Transmitted Successfully......... 147070
Unicast Packets Transmitted.................... 0
Multicast Packets Transmitted.................. 147070
Broadcast Packets Transmitted.................. 0
Transmit Packets Discarded..................... 0
Total Transmit Errors.......................... 0
Total Transmit Packets Discarded............... 0
Single Collision Frames........................ 0
Multiple Collision Frames...................... 0
Excessive Collision Frames..................... 0
console#show interfaces po1
Channel Ports Ch-Type Hash Type Min-links Local Prf
------- ----------------------------- -------- --------- --------- --------
Po1 Active: Gi1/0/1 Dynamic 7 1 Disabled
Hash Algorithm Type
1 - Source MAC, VLAN, EtherType, source module and port Id
2 - Destination MAC, VLAN, EtherType, source module and port Id
3 - Source IP and source TCP/UDP port
4 - Destination IP and destination TCP/UDP port
5 - Source/Destination MAC, VLAN, EtherType, source MODID/port
6 - Source/Destination IP and source/destination TCP/UDP port
7 - Enhanced hashing mode
show interfaces advertise
Use the show interfaces advertise command to display information about
auto-negotiation advertisement. The display includes the local configuration
and link partner advertisement, in addition to the local advertisement.
Syntax
show interfaces advertise [{gigabitethernet unit/slot/port |
tengigabitethernet unit/slot/port | fortygigabitethernet unit/slot/port}]
Layer 2 Switching Commands 397
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
The priority resolution field indicates the auto-negotiated link speed and
duplex. The clock field indicates whether the local interface has auto-
negotiated to clock master or clock slave. When the link is down, the field will
show No link.
When the link is down, the Oper Peer Advertisement and Priority
Resolution fields will show dashes.
Examples
The following examples display information about auto negotiation
advertisement.
Example #1
console#show interfaces advertise
Port Type Neg Operational Link Advertisement
--------- ------------------------------ -------- --------------------------
----
Gi1/0/1 Gigabit - Level Enabled 1000f, 100f, 10f
Gi1/0/2 Gigabit - Level Enabled 1000f, 100f, 10f
Gi1/0/3 Gigabit - Level Enabled 1000f, 100f, 10f
Gi1/0/4 Gigabit - Level Enabled 1000f, 100f, 10f
Gi1/0/5 Gigabit - Level Enabled 1000f, 100f, 10f
Gi1/0/6 Gigabit - Level Enabled 1000f, 100f, 10f
Example #2
console#show interfaces advertise gi1/0/1
Port: Gi1/0/1
Type: Gigabit - Level
Link State: Down
Auto Negotiation: Enabled
802.3az EEE: Disabled
Layer 2 Switching Commands 398
Clock: Master
10000f 1000f 1000h 100f 100h 10f 10h
------ ----- ----- ----- ----- ----- ----
Admin Local link Advertisement no yes no yes no yes no
Oper Local link Advertisement no yes no yes no yes no
Oper Peer Advertisement no yes no yes no yes no
Priority Resolution - - - yes - - -
show interfaces configuration
Use the show interfaces configuration command in User Exec mode to
display the configuration for all configured interfaces.
Syntax
show interfaces configuration [{gigabitethernet unit/slot/port|
port-channel
port-channel-number
| tengigabitethernet unit/slot/port |
fortygigabitethernet unit/slot/port}]
Default Configuration
This command has no default configuration.
Command Mode
User Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
The displayed port configuration information includes the following:
Field Description
Port The port number.
Description The port designated IEEE shorthand identifier. For example
1000Base-T refers to 1000 Mbps baseband signaling including both
Tx and Rx transmissions.
Duplex Displays the port Duplex status.
Speed Refers to the port speed.
Layer 2 Switching Commands 399
Example
The following example displays the configuration for all configured
interfaces:
console#show interfaces configuration gigabitethernet 1/0/1
Port Description Duplex Speed Neg MTU Admin
State
--------- ------------------------------ ------ ------- ---- ----- -----
Gi1/0/1 Full 1000 Auto 1518 Up
show interfaces counters
Use the show interfaces counters command in User Exec mode to display
traffic seen by the interface.
Syntax
show interfaces counters [errors] [gigabitethernet unit/slot/port |
port-
channel port-channel-number
| tengigabitethernet unit/slot/port |
fortygigabitethernet unit/slot/port]
•errors—Show the error counts (frame discards and reasons) in the in and
out direction.
•gigabitethernet—Shows the traffic for the specified Gigabit Ethernet port.
•port-channel—Shows the traffic for the specified port channel port.
•tengigabitethernet—Shows the traffic for the specified 10-Gigabit
Ethernet port.
•fortygigabitethernet—Shows the traffic for the specified 40-Gigabit
Ethernet port.
Default Configuration
This command has no default configuration.
Neg Describes the Auto-negotiation status.
MTU The Maximum Transmission Unit.
Admin State Displays whether the port is enabled or disabled.
Field Description
Layer 2 Switching Commands 400
Command Mode
User Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
The following table describes the fields shown in the display:
Field Description
InOctets Counted received octets.
InUcastPkts Counted received Unicast packets.
InMcastPkts Counted received Multicast packets.
InBcastPkts Counted received Broadcast packets.
OutOctets Counted transmitted octets.
OutUcastPkts Counted transmitted Unicast packets.
OutMcastPkts Counted transmitted Multicast packets.
OutBcastPkts Counted transmitted Broadcast packets.
Alignment Errors A count of frames received that are not an integral number
of octets in length and do not pass the FCS check.
FCS Errors Counted frames received that are an integral number of
octets in length but do not pass the FCS check.
Single Collision Frames Counted frames that are involved in a single collision, and
are subsequently transmitted successfully.
Multiple Collision
Frames
A count of frames that are involved in a multiple collision,
and are subsequently transmitted successfully
Late Collisions Counted times that a collision is detected later than one
slot time into the transmission of a packet.
Excessive Collisions Counted frames for which transmission fails due to
excessive collisions.
Received packets
dropped > MTU
Count of received frames dropped due to frame length
greater than the configured MTU.
Transmitted oversized
packets
Count of frames transmission > 1518 octets.
Layer 2 Switching Commands 401
Example
The following example displays traffic seen by the physical interface:
console>show interfaces counters
Port InTotalPkts InUcastPkts InMcastPkts InBcastPkts
--------- ---------------- ---------------- ---------------- ---------------
-
Gi1/0/1 0 0 0 0
Gi1/0/2 0 0 0 0
Gi1/0/3 0 0 0 0
Gi1/0/4 0 0 0 0
Gi1/0/5 0 0 0 0
Gi1/0/6 0 0 0 0
Gi1/0/7 0 0 0 0
Gi1/0/8 0 0 0 0
Gi1/0/9 0 0 0 0
Gi1/0/10 0 0 0 0
Gi1/0/11 0 0 0 0
Gi1/0/12 0 0 0 0
Gi1/0/13 11447 6867 4580 0
Gi1/0/14 0 0 0 0
Gi1/0/15 0 0 0 0
Gi1/0/16 51119 12196 38917 6
Gi1/0/17 0 0 0 0
Gi1/0/18 0 0 0 0
Internal MAC Rx Errors A count of frames for which reception fails due to an
internal MAC sublayer receive error.
Received Pause Frames A count of MAC Control frames received with an opcode
indicating the PAUSE operation.
Transmitted Pause
Frames
Counted MAC Control frames transmitted on this
interface with an opcode indicating the PAUSE operation.
Received PFC Frames A count of the received Priority Flow Control (PFC)
frames.
Transmitted PFC
Frames
A count of the transmitted PFC frames.
Receive Packets
Discarded
Count of frames discarded on receipt due to any reason.
Transmit Packets
Discarded
Count of packets queued for transmission and discarded for
any reason.
Field Description
Layer 2 Switching Commands 402
Gi1/0/19 0 0 0 0
Gi1/0/20 0 0 0 0
Port OutTotalPkts OutUcastPkts OutMcastPkts OutBcastPkts
--------- ---------------- ---------------- ---------------- ---------------
-
Gi1/0/1 0 0 0 0
Gi1/0/2 0 0 0 0
Gi1/0/3 0 0 0 0
Gi1/0/4 0 0 0 0
Gi1/0/5 0 0 0 0
Gi1/0/6 0 0 0 0
Gi1/0/7 0 0 0 0
Gi1/0/8 0 0 0 0
Gi1/0/9 0 0 0 0
Gi1/0/10 0 0 0 0
Gi1/0/11 0 0 0 0
Gi1/0/12 0 0 0 0
The following example displays counters for Ethernet port Te1/0/1.
console(config-if-Te1/0/1)#show interfaces counters tengigabitethernet
1/0/13
Port InTotalPkts InUcastPkts InMcastPkts InBcastPkts
--------- ---------------- ---------------- ---------------- ---------------
Te1/0/13 21614369 21614360 9 0
Port OutTotalPkts OutUcastPkts OutMcastPkts OutBcastPkts
--------- ---------------- ---------------- ---------------- ---------------
Te1/0/13 40620964 40620547 19 398
FCS Errors: ................................... 0
Single Collision Frames: ...................... 0
Late Collisions: .............................. 0
Excessive Collisions: ......................... 0
Multiple Collisions: .......................... 0
Received packets dropped > MTU: ............... 0
Transmitted oversized packets: ................ 40618318
Internal MAC Rx Errors: ....................... 0
Received Pause Frames: ........................ 0
Transmitted Pause Frames: ..................... 0
Receive Packets Discarded: .................... 0
Transmit Packets Discarded: ................... 0
Received PFC Frames: .......................... 0
Transmitted PFC Frames: ....................... 0
Layer 2 Switching Commands 403
show interfaces debounce
Use the show interfaces debounce command to list the debounce
information for one or multiple interfaces. If no parameter is given, all
physical interfaces are shown.
Syntax
show interfaces debounce [ interface-id ]
• interface-id—A physical interface identifier (i.e., a 1G, 10G, or 40G
Ethernet interface) in standard interface format.
Default Configuration
Physical interfaces have a 100 ms debounce time enabled.
Command Mode
Exec mode, Privileged Exec, Global Configuration and all show modes.
User Guidelines
Use the link debounce time command to configure the debounce time for an
interface.
Command History
Introduced in version 6.2.0.1 firmware.
Example
The following example shows the output for representative interfaces.
console#show interfaces debounce
Interface Debounce Time (ms) Flaps
--------- ------------------ -------
Gi1/0/1 500 0
show interfaces description
Use the show interfaces description command in User Exec mode to display
the description for all configured interfaces.
Layer 2 Switching Commands 404
Syntax
show interfaces description [gigabitethernet unit/slot/port |
port-channel
port-channel-number
| tengigabitethernet unit/slot/port |
fortygigabitethernet unit/slot/port]
Default Configuration
This command has no default configuration.
Command Mode
User Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
This command has no user guidelines.
Example
The following example displays the description for all interfaces.
console>show interfaces description
Port Description
---- ------------------------------------------------
Gi1/0/1 Port that should be used for management only
Gi2/0/1
Gi2/0/2
Port Description
----- ----------------------------------------------------------------------
Po1
show interfaces detail
Use the show interfaces detail command to display detailed status and
configuration of the specified interface.
Syntax
show interfaces detail interface-id
•interface-id—
An Ethernet interface identifier or port channel identifier.
Layer 2 Switching Commands 405
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
This command has no user guidelines.
Example
The following example displays detailed status and configuration of the
specified interface.
console#show interfaces detail gi1/0/1
Port Description Duplex Speed Neg MTU Admin Link
State State
--------- --------------------------- ------ ------- ---- ----- ----- -----
Gi1/0/1 N/A Unknown Auto 1518 Up Down
Port Description
--------- ------------------------------------------------------------------
----
Gi1/0/1
Flow Control: Enabled
Port: Gi1/0/1
VLAN Membership mode: Access Mode
Operating parameters:
PVID: 1
Ingress Filtering: Enabled
Acceptable Frame Type: Admit All
Default Priority: 0
GVRP status: Disabled
Protected: Disabled
Port Gi1/0/1 is member in:
VLAN Name Egress rule Type
---- --------------------------------- ----------- --------
1 default Untagged Default
Static configuration:
PVID: 1
Ingress Filtering: Enabled
Acceptable Frame Type: Admit All
Port Gi1/0/1 is statically configured to:
VLAN Name Egress rule
Layer 2 Switching Commands 406
---- --------------------------------- -----------
Forbidden VLANS:
VLAN Name
---- ---------------------------------
Port Gi1/0/1 Enabled
State: Disabled Role: Disabled
Port id: 128.1 Port Cost: 0
Port Fast: No (Configured: no ) Root Protection: No
Designated bridge Priority: 32768 Address: 1418.7715.2368
Designated port id: 0.0 Designated path cost: 0
CST Regional Root: 80:00:14:18:77:15:23:68 CST Port Cost: 0
BPDUs: Sent: 0, Received: 0
show interfaces status
Use the show interfaces status command to display the status for all
configured interfaces.
Syntax
show interfaces status
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
Port channels are only displayed if configured. Use the
show interfaces port-
channel
command to display configured and unconfigured port channels.
Interfaces configured as stacking ports will show as detached in the output of
the
show interfaces status
command.
The link state indicates the physical connectivity state of the link. It is
possible that the link is connected physically yet frames are not able to pass
over the link. Possible causes of this condition are speed or duplex mismatch.
The displayed port status information includes the following:
Layer 2 Switching Commands 407
The following table displays the interface mode codes and VLAN output
format for the interface mode:
Example
The following example displays the status for all configured interfaces.
console(config-if-Po1)#show interfaces status
Port Description Duplex Speed Neg Link Flow M VLAN
State Ctrl
Field Description
Port The port or port channel number. Oob means Out-of-Band
Management Interface.
Description Description of the port. This field may be truncated in the command
output.
Duplex Displays the port Duplex status.
VLAN The VLAN membership for the port. The native VLAN is enclosed in
parentheses.
Speed Refers to the port speed.
Neg Describes the Auto-negotiation status.
Link State Displays the Link status, either Up or Down.
Flow Ctrl
Status
Displays the Flow Control status, either Active or Inactive.
Mode VLAN
A – Access Native
T – Trunk (Native),List
D – Dot1q tunnel Outer
P – Private VLAN
Promiscuous
(Primary), Secondary List
H–Private VLAN Host (Primary), Secondary
G– General (PVID), All the tagged and untagged VLANs.
Layer 2 Switching Commands 408
--------- --------------- ------ ------- ---- ------ ----- - ---------------
Gi1/0/1 N/A Unknown Auto Down Off A 1
Gi1/0/2 N/A Unknown Auto Down Off T (11),1,3,5,7,9
15,19,25-4093
Gi1/0/3 N/A Unknown Auto Down Off A 1
Gi1/0/4 N/A Unknown Auto Down Off G (1),2,4,6,8,10
14,16,20,22,24
Gi1/0/5 N/A Unknown Auto Down Off A 1
Gi1/0/6 N/A Unknown Auto Down Off A 1
Gi1/0/7 N/A Unknown Auto Down Off A 1
Gi1/0/8 N/A Unknown Auto Down Off A 1
Gi1/0/9 N/A Unknown Auto Down Off A 1
Oob Type Link
State
--- ------------------------------ -----
oob Out-Of-Band Up
Port Description Link M VLAN
Channel State
------- ------------------------------ ------- - -------------------
Po1 Down H (4),5
show interfaces transceiver
Use the show interfaces transceiver command to display the optic static
parameters as well as the Dell EMC qualification.
Syntax
show interfaces transceiver [properties]
• properties—Displays the static parameters for the optics.
Default Configuration
This command has no default configuration.
Command Modes
User Exec, Privileged Exec modes.
User Guidelines
This command only supports the display of 10G and 40G transceivers.
Layer 2 Switching Commands 409
Example
The following example shows the qualifications status of the optics on the
switch.
console#show interfaces transceiver
Port Dell Qualified
------------- ----------------
Te1/0/9 Yes
Te1/0/11 Yes
Te1/0/13 N/A
Te1/0/15 No
Te1/0/17 No
The following example shows static parameters of the optics along with the
qualifications status.
console#show interfaces transceiver properties
Yes: Dell Qualified No: Not Qualified
N/A : Not Applicable
Port Type Media Serial Number Dell Qualified
------------ ------- --------------- -------------------- --------------
Te1/0/9 SFP+ 10GBASE-LRM ANF0L5J Yes
Te1/0/11 SFP+ 10GBASE-LRM ANF0L5R Yes
Te1/0/13 SFP 1GBASE-SX PCC1PT5 N/A
Te1/0/15 SFP+ 10GBASE-SR AD1125A002R No
Te1/0/17 SFP+ 10GBASE-SR AD0815E00PC No
show statistics
Use the show statistics command to display detailed statistics for a specific
port or for the internal CPU interface.
Syntax
show statistics {gigabitethernet unit/slot/port |switchport |
port-channel
port-channel-number
| tengigabitethernet unit/slot/port |
fortygigabitethernet unit/slot/port}
• unit/slot/port—
A valid physical interface identifier. See
Interface Naming
Conventions
for interface representation.
• port-channel-number—
A port channel identifier.
•switchport—Displays statistics for the internal switch CPU interface.
Layer 2 Switching Commands 410
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
Statistics are only collected for physical interfaces, port-channel interfaces,
and the switch CPU interface.
Examples
The following example shows statistics for port Te1/0/1.
console(config-if-Te1/0/1)#show statistics te1/0/1
Total Packets Received (Octets)................ 0
Packets Received 64 Octets..................... 0
Packets Received 65-127 Octets................. 0
Packets Received 128-255 Octets................ 0
Packets Received 256-511 Octets................ 0
Packets Received 512-1023 Octets............... 0
Packets Received 1024-1518 Octets.............. 0
Packets Received > 1518 Octets................. 0
Packets RX and TX 64 Octets.................... 0
Packets RX and TX 65-127 Octets................ 0
Packets RX and TX 128-255 Octets............... 0
Packets RX and TX 256-511 Octets............... 0
Packets RX and TX 512-1023 Octets.............. 0
Packets RX and TX 1024-1518 Octets............. 0
Packets RX and TX 1519-2047 Octets............. 0
Packets RX and TX 2048-4095 Octets............. 0
Packets RX and TX 4096-9216 Octets............. 0
Total Packets Received Without Errors.......... 0
Unicast Packets Received....................... 0
Multicast Packets Received..................... 0
Broadcast Packets Received..................... 0
Received Packets Discarded..................... 0
Total Packets Received with MAC Errors......... 0
Jabbers Received............................... 0
Fragments/Undersize Received................... 0
Layer 2 Switching Commands 411
Alignment Errors............................... 0
FCS Errors..................................... 0
Overruns....................................... 0
Total Received Packets Not Forwarded........... 0
802.3x Pause Frames Received................... 0
Unacceptable Frame Type........................ 0
Total Packets Transmitted (Octets)............. 0
Packets Transmitted 64 Octets.................. 0
Packets Transmitted 65-127 Octets.............. 0
Packets Transmitted 128-255 Octets............. 0
Packets Transmitted 256-511 Octets............. 0
Packets Transmitted 512-1023 Octets............ 0
Packets Transmitted 1024-1518 Octets........... 0
Packets Transmitted > 1518 Octets.............. 0
Max Frame Size................................. 1518
Total Packets Transmitted Successfully......... 0
Unicast Packets Transmitted.................... 0
Multicast Packets Transmitted.................. 0
Broadcast Packets Transmitted.................. 0
Transmit Packets Discarded..................... 0
Total Transmit Errors.......................... 0
Total Transmit Packets Discarded............... 0
Single Collision Frames........................ 0
Multiple Collision Frames...................... 0
Excessive Collision Frames..................... 0
802.3x Pause Frames Transmitted................ 0
GVRP PDUs received............................. 0
GVRP PDUs Transmitted.......................... 0
GVRP Failed Registrations...................... 0
GMRP PDUs Received............................. 0
GMRP PDUs Transmitted.......................... 0
GMRP Failed Registrations...................... 0
BPDU: sent 0, received 0
EAPOL Frames Transmitted....................... 0
EAPOL Start Frames Received.................... 0
Time Since Counters Last Cleared............... 0 day 13 hr 20 min 24 sec
Layer 2 Switching Commands 412
show statistics switchport
Use the show statistics command to display detailed statistics for a specific
port or for the entire switch.
Syntax
show statistics {interface-id |switchport}
• interface-id—The
interface ID. See
Interface Naming Conventions
for
interface representation.
•switchport—Displays statistics for the entire switch.
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
It is possible to enter interface configuration mode from global configuration
mode or from interface configuration mode.
RFC Cross Reference
Textual Explanation RFC 2863 MIB Identifier
Total Packets Received (Octets) ifHCInOctets
Unicast Packets Received ifHCInUcastPkts
Multicast Packets Received ifHCInMulticastPkts
Broadcast Packets Received ifHCInBroadcastPkts
Receive Packets Discarded ifInDiscards
Octets Transmitted ifHCOutOctets
Unicast Packets Transmitted ifHCOutUcastPkts
Layer 2 Switching Commands 413
Multicast Packets Transmitted ifHCOutMulticastPkts
Broadcast Packets Transmitted ifHCOutBroadcastPkts
Transmit Packets Discarded ifOutDiscards
Example
The following example shows statistics for the CPU interface.
console#show statistics switchport
Total Packets Received (Octets)................ 0
Packets Received Without Error................. 0
Unicast Packets Received....................... 0
Multicast Packets Received..................... 0
Broadcast Packets Received..................... 0
Receive Packets Discarded...................... 0
Octets Transmitted............................. 0
Packets Transmitted Without Errors............. 0
Unicast Packets Transmitted.................... 0
Multicast Packets Transmitted.................. 0
Broadcast Packets Transmitted.................. 0
Transmit Packets Discarded..................... 0
Most Address Entries Ever Used................. 3
Address Entries Currently in Use............... 3
Maximum VLAN Entries........................... 1024
Most VLAN Entries Ever Used.................... 2
Static VLAN Entries............................ 2
Dynamic VLAN Entries........................... 0
VLAN Deletes................................... 0
Time Since Counters Last Cleared............... 0 day 18 hr 1 min 59 sec
Layer 2 Switching Commands 414
show storm-control
Use the show storm-control command to display the configuration of storm
control.
Syntax
show storm-control [all | {gigabitethernet unit/slot/port |
tengigabitethernet unit/slot/port | fortygigabitethernet unit/slot/port}]
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
This command has no user guidelines.
Examples
The following example shows storm control configurations for a Gigabit
Ethernet port. The second example shows flow control mode status.
console#show storm-control
802.3x Flow Control Mode....................... Disable
console#show storm-control gigabitethernet 1/0/1
Bcast Bcast Mcast Mcast Ucast Ucast Flow
Intf Mode Level Mode Level Mode Level Ctrl
---------- -------- --------- -------- --------- -------- --------- --------
Gi1/0/1 Disable 5 Disable 5 Disable 5 Disabled
switch-top(config)#show storm-control all
Bcast Bcast Mcast Mcast Ucast Ucast Flow
Port Mode Level Mode Level Mode Level Ctrl
---------- -------- --------- -------- --------- -------- --------- --------
Gi1/0/1 Enable 90 Enable 5 Enable 10 Enabled
Layer 2 Switching Commands 415
Gi1/0/2 Disable 5 Disable 5 Disable 5 Enabled
Gi1/0/3 Disable 5 Disable 5 Disable 5 Enabled
Gi1/0/4 Disable 5 Disable 5 Disable 5 Enabled
Gi1/0/5 Disable 5 Disable 5 Disable 5 Enabled
Gi1/0/6 Disable 5 Disable 5 Disable 5 Enabled
Gi1/0/7 Disable 5 Disable 5 Disable 5 Enabled
Gi1/0/8 Disable 5 Disable 5 Disable 5 Enabled
show storm-control action
Use the show storm-control action command to display the storm control
action configuration for one or all interfaces.
Syntax
show storm-control action {all | interface-id}
•
all
—Show the storm control action configuration for all interfaces.
• interface-id—A physical interface on which storm control is enabled.
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode and all show modes
User Guidelines
This command has no user guidelines.
Examples
console#show storm-control action all
Bcast Mcast Ucast
Port Action Action Action
-------- ---------- ---------- ----------
Gi1/0/1 Shutdown
Gi1/0/2
Gi1/0/3
Gi1/0/4
Gi1/0/5
Gi1/0/6
Gi1/0/7
Gi1/0/8
Layer 2 Switching Commands 416
shutdown
Use the shutdown command in Interface Configuration mode to disable an
interface. To restart a disabled interface, use the no form of this command.
Syntax
shutdown
no shutdown
Default Configuration
The interface is enabled.
Command Mode
Interface Configuration (Ethernet, Port-Channel, Tunnel, Loopback) mode
User Guidelines
This command has no user guidelines.
Examples
The following example disables Gigabit Ethernet port 1/0/5.
console(config)#interface gigabitethernet 1/0/5
console(config-if-Gi1/0/5)# shutdown
The following example reenables Gigabit Ethernet port 1/0/5.
console(config)#interface gigabitethernet 1/0/5
console(config-if-Gi1/0/5)# no shutdown
speed
Use the speed command in Interface Configuration mode to configure the
speed of a given Ethernet interface. To restore the default, use the no form of
this command.
Syntax
speed {10 | 100 | 1000 | 10000 | 40000 | auto [10 | 100 | 1000 | 2500 |
5000| 10000]}
no speed
Layer 2 Switching Commands 417
•10—Configures the port to 10 Mbps operation.
•100—Configures the port to 100 Mbps operation.
•1000—Configures the port to 1000 Mbps operation.
•10000—Configures the port to 10 Gbps operation.
•40000—Configures the port to 40 Gbps operation.
•auto—The port automatically negotiates the highest common speed with
the port at the other end of the link. If you use the 10, 100, 1000, 2500,
5000, or 10000 keywords with the auto keyword, the port only advertises
the specified speeds.
Default Configuration
Auto-negotiation is enabled by default on copper ports and SFP ports.
Command Mode
Interface Configuration (Ethernet) mode
User Guidelines
Not all interfaces are capable of supporting all speeds. Refer to the Hardware
Overview section of the Users Configuration Guide for a description of the
capabilities of a particular interface.
Use the auto parameter to enable auto-negotiation on an interface. Auto-
negotiation on copper interfaces selects a clock master, performs link training
to tune the pre-emphasis settings to the individual switch and cable,
negotiates the internal media, and may enable a decision feedback equalizer
(DFE) to correct burst errors if the PHY has the capability. To disable auto-
negotiation on a port, it is necessary to enter the speed command without
using the auto parameter. Disabling auto-negotiation on 1G copper ports
may lead to random frame loss as the clock master and media have not been
arbitrated by the auto-negotiation process. Auto-negotiation is required on
2.5G/5G/10G/40G copper ports and is always recommended for copper ports
regardless of the speed setting. Auto-negotiation is also required on 1000Base-
X ports (including SFP fiber ports.)
When the auto parameter is configured with a set of speeds, only those
speeds are advertised during auto-negotiation. Alternatively, if no speed
arguments are configured, then all the speeds which the port is capable of
Layer 2 Switching Commands 418
supporting are advertised. Not all ports support all speeds, even if they are
available in the command. Entering an unsupported speed will produce the
following error message An invalid interface has been used
for this function.
Fiber ports (other than 1000Base-X) do not support auto-negotiation and
therefore require the operator to enter the speed command with the desired
operating bandwidth. The link partner must be similarly configured.
SFP+/QSFP fiber ports do not support auto-negotiation, although it may be
enabled when using Direct Attach Copper cables if the link partner also
supports auto-negotiation. 1G SFP fiber ports should have auto-negotiation
enabled. SFP transceivers in an SFP+ port should have auto-negotiation
enabled. The default behavior is to enable auto-negotiation when an SFP
transceiver is inserted into an SFP+ port, unless a fixed speed is configured.
Likewise, SFP+ ports connected via copper Direct Attach Cables should have
auto-negotiation enabled if the link partner is also capable of performing
auto-negotiation. If the link partner cannot perform auto-negotiation, then a
fixed speed must be utilized. In all cases, the link partners need compatible
settings, e.g., both sides must be set to use auto-negotiation or a fixed speed.
In the case of a fixed speed link, both sides must be set to the same speed.
Failure to set both sides of a link to the same speed/duplex values (auto-
negotiation disabled) or compatible speed/duplex values (auto-negotiation
enabled) may give a false link-up indication when configured or when the link
is brought up (no shut). Setting one end of a link to auto-negotiate and the
link partner to a fixed speed is not supported.
Example
The following example configures Gigabit Ethernet port 1/0/5 to advertise
100-Mbps operation only via auto-negotiation.
console(config)#interface gigabitethernet 1/0/5
console(config-if)#speed auto 100
Command History
The speed 10000 syntax was introduced in the 6.3.6 release.
The 2500 and 5000 speeds were introduced in the 6.3.5 release. The
description was updated in the 6.4 release.
Layer 2 Switching Commands 419
switchport protected
Use the switchport protected command in Interface Configuration mode to
configure a protected port. The groupid parameter identifies the set of
protected ports to which this interface is assigned. You can only configure an
interface as protected in one group. You are required to remove an interface
from one group before adding it to another group.
Port protection occurs within a single switch. Protected port configuration
does not affect traffic between ports on two different switches. No traffic
forwarding is possible between two protected ports. Ports in a protected group
will not forward traffic to other ports in the group.
Syntax
switchport protected groupid
no switchport protected
• groupid--Identifies which group this port will be protected in. (Range: 0-2)
Default Configuration
No protected switchports are defined.
Command Mode
Interface Configuration (Ethernet) mode
User Guidelines
When an interface is enabled for routing using the interface vlan command,
the port will no longer be operationally enabled as a protected port on the
interface. Likewise, making an interface a member of a LAG or a probe
(monitor session or RSPAN destination) port operationally disables port
protection.
Example
The following example configures Ethernet port 1/0/1 as a member of
protected group 1.
console(config)#interface gigabitethernet 1/0/1
console(config-if-Gi1/0/1)#switchport protected 1
Layer 2 Switching Commands 420
switchport protected name
Use the switchport protected name command in Global Configuration mode
to adds the port to the protected group 1 and also sets the group name to
“protected”.
Syntax
switchport protected groupid name name
no switchport protected groupid name
• groupid — Identifies which group the port is to be protected in.
(Range: 0–2)
• name — Name of the group. (Range: 0-32 characters)
Default Configuration
This command has no default configuration.
Command Mode
Global Configuration mode
User Guidelines
This command has no user guidelines.
Example
The following example assigns the name “protected” to group 1.
console(config)#switchport protected 1 name protected
show switchport protected
Use the show switchport protected command to display the status of all the
interfaces, including protected and unprotected interfaces.
Syntax
show switchport protected groupid
• groupid — Identifies which group the port is to be protected in.
(Range: 0–2)
Layer 2 Switching Commands 421
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
This command has no user guidelines.
Example
The following example identifies test as the protected group.
console#show switchport protected 0
Name......................................... test
show system mtu
Use the show system mtu command to display the configured MTU. The
MTU is set using the global system jumbo mtu command. This command
deprecates the show interfaces mtu command.
Syntax
show system mtu
Default Configuration
The default mtu size is 1518 bytes (1522 bytes for VLAN tagged frames).
Command Modes
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
This command has no usage guidelines.
Example
console #show system mtu
Layer 2 Switching Commands 422
System Jumbo MTU size is 9216 bytes
system jumbo mtu
Use the system jumbo mtu command to globally configure the link
Maximum Transmission Unit (MTU) on all interfaces, IP/IPv6 interfaces,
VLAN interfaces, and port channel interfaces for forwarded and system-
generated frames. The link MTU is the size of the largest Ethernet frame that
can be transmitted on an interface without fragmentation. Frames received
on an interface are dropped if they exceed the link MTU. Frames larger than
this size generated by the system are fragmented before transmission.
This command deprecates the mtu, ip mtu, and ipv6 mtu commands.
Use the no form of the command to reset the MTU to the default.
Syntax
system jumbo mtu frame size
no system jumbo mtu
• frame size —The maximum frame size, in bytes, received by the system
which is not forwarded.
Default Configuration
The default MTU size is 1518 bytes (1522 bytes for VLAN tagged frames).
Command Modes
Global Configuration mode
User Guidelines
Dell EMC Networking N-Series switches do not fragment received packets.
The IPv4 and IPv6 MTU are set to the link MTU minus 18 bytes. IP packets
forwarded in software are dropped if they exceed the IP MTU. Packets
originated on the router, such as OSPF packets, may be fragmented by the IP
stack. OSPF advertises the IP MTU in the Database Description packets it
sends to its neighbors during database exchange. If two OSPF neighbors
Layer 2 Switching Commands 423
advertise different IP MTUs, they will not form an adjacency (unless OSPF
has been instructed to ignore differences in IP MTU with the ip ospf
mtuignore command).
The allowed range is 1298 to 9216. This allows for configuration of an IPv4
and IPv6 MTU of 1280 to 9198.
In conformance with RFC 2460, the system performs IPv6 path MTU
discovery for IPv6 packets originated by the switch. This may result in
individual connections using an IPv6 MTU less than that configured by the
network operator.
Layer 2 Switching Commands 424
Ethernet CFM Commands
Dell EMC Networking N4000 Series Switches
Connectivity Fault Management (CFM) is the OAM Protocol provision for
end-to-end service layer OAM in carrier Ethernet networks. CFM provides
mechanisms to support the operator in performing connectivity checks, fault
detection, fault verification and isolation, and fault notification per service in
the network domain of interest. Unlike Ethernet OAM defined in IEEE
802.3ah, where the faults are detected and notified on a single point-to-point
IEEE Std. 802.3 LAN, this capability deals with the fault diagnosis at service
layer across networks comprising multiple LANs, including LANs other than
802.3 media. Refer to IEEE 802.1ag for an explanation of CFM. Typically, the
MEP ID and maintenance association levels are assigned by the top level
network service provider.
Dell EMC Networking CFM is only available on the N4000 series switches.
CFM is not compatible with iSCSI optimization. Disable iSCSI optimization
before enabling CFM.
Dell EMC Networking CFM supports the following functionality:
• Path discovery (linktrace message)
• Fault detection (continuity check message)
• Fault verification and isolation (loopback and linktrace messages)
• Fault notification (alarm indication signal or SNMP trap)
Commands in this Section
This section explains the following commands:
ethernet cfm domain ping ethernet cfm
service traceroute ethernet cfm
ethernet cfm cc level show ethernet cfm errors
ethernet cfm mep level show ethernet cfm domain
ethernet cfm mep enable show ethernet cfm maintenance-points
local
Layer 2 Switching Commands 425
ethernet cfm domain
Use the ethernet cfm domain command in Global Configuration mode to
enter into Maintenance Domain Configuration mode for an existing domain.
Use the optional level parameter to create a domain and enter into
maintenance domain Configuration mode. In maintenance domain
Configuration mode, maintenance associations are created and per-
maintenance domain services can be configured. Use the no form of the
command to delete a maintenance domain.
Syntax
ethernet cfm domain domain-name [level 0-7]
• domain-name—Name of the maintenance domain. Alphanumeric string
of up to 43 characters.
Default Configuration
No CFM domains are preconfigured.
Command Mode
Global Configuration mode
User Guidelines
Each domain must have a unique name and level, for example, one cannot
create a domain qwerty at level 2 if domain qwerty already exists at level 1.
Likewise, one cannot create a domain dvorak at level 2 if a domain of any
name exists at level 2.
Example
In this example, a domain “vin” is created at level 1.
console(config)#ethernet cfm domain vin level 1
ethernet cfm mep active show ethernet cfm maintenance-points
remote
ethernet cfm mep archive-hold-time show ethernet cfm statistics
ethernet cfm mip level
–
Layer 2 Switching Commands 426
console(config-cfm-mdomain)#
service
Use the service command in Maintenance Domain Configuration mode to
associate a VLAN with a maintenance domain. Use the no form of the
command to remove the association.
Syntax
service service-name vlan vlan-id
• service-name—Unique service identifier.
• vlan-id—VLAN ID representing a service instance that is monitored by
this maintenance association. The range is 1-4093.
Default Configuration
No VLANs are associated with a maintenance domain by default.
Command Mode
Maintenance Domain Configuration mode
User Guidelines
This command has no user guidelines.
Example
console(config-cfm-mdomain)#service serv1 vlan 10
ethernet cfm cc level
Use the ethernet cfm cc level command in Global Configuration mode to
initiate sending continuity checks (CCMs) at the specified interval and level
on a VLAN monitored by an existing domain. Use the no form of the
command to cease send CCMs.
Syntax
ethernet cfm cc level 0-7 vlan vlan-id interval secs
Layer 2 Switching Commands 427
• vlan-id—VLAN ID representing a service instance that is monitored by
this maintenance association. The range is 1-4093.
• secs—Time interval between successive transmissions. The range is 1, 10,
60, and 600 seconds. The default is 1 second.
Default Configuration
CCMs are not sent by default.
Command Mode
Global Configuration mode
User Guidelines
This command has no user guidelines.
Example
console(config)#ethernet cfm cc level 1 vlan 15 interval 10
ethernet cfm mep level
Use the ethernet cfm mep level command in Interface Configuration mode
to create a Maintenance End Point (MEP) on an interface at the specified
level and direction. MEPs are configured per Maintenance Association per
Maintenance Domain. Use the no form of the command to delete a MEP.
Syntax
ethernet cfm mep level 0-7 direction up|down mpid 1-8191 vlan vlan-id
•level—Maintenance association level
•direction—
Up indicates the MEP is facing towards Bridge Relay Entity. Down
indicates the MEP is facing towards the LAN.
•mpid—
Maintenance entity identifier
•vlan-id—
VLAN on which the MEP operates. The range is 1-4093.
Default Configuration
No MEPs are preconfigured.
Layer 2 Switching Commands 428
Command Mode
Interface Configuration mode
User Guidelines
This command has no user guidelines.
Example
The following example creates a maintenance endpoint at level 1 with mpid
1010 on vlan 10.
console(config-if-Gi1/0/3)#ethernet cfm mep level 1 direction up mpid 1010
vlan 10
ethernet cfm mep enable
Use the ethernet cfm mep enable command in Interface Configuration mode
to enable a MEP at the specified level and direction. Use the no form of the
command to disable the MEP.
Syntax
ethernet cfm mep enable level 0-7 vlan vlan-id mpid 1-8191
•level—Maintenance association level
•mpid—
Maintenance entity identifier
•vlan—
VLAN on which the MEP operates. The range is 1-4093.
Default Configuration
No MEPs are preconfigured.
Command Mode
Interface Configuration mode
User Guidelines
The maintenance domain must exist for it to be enabled.
Layer 2 Switching Commands 429
Example
The following example enables a maintenance endpoint at level 1 with mpid
1010 on vlan 10.
console(config-if-Gi1/0/3)#ethernet cfm mep enable level 1 vlan 10 mpid 1010
ethernet cfm mep active
Use the ethernet cfm mep active command in Interface Configuration mode
to activate a MEP at the specified level and direction. Use the no form of the
command to deactivate the MEP.
Syntax
ethernet cfm mep active level 0-7 vlan vlan-id mpid 1-8191
•level—Maintenance association level
•mpid—
Maintenance entity identifier
•vlan—
VLAN on which the MEP operates. The range is 1-4093.
Default Configuration
No MEPs are preconfigured.
Command Mode
Interface Configuration
User Guidelines
This command has no user guidelines.
ethernet cfm mep archive-hold-time
Use the ethernet cfm mep archive-hold-time command in Interface
Configuration mode to maintain internal information on a missing MEP. Use
the no form of the command to return the interval to the default value.
Syntax
ethernet cfm mep archive-hold-time hold-time
Layer 2 Switching Commands 430
• hold-time—The time in seconds to maintain the data for a missing MEP
before removing the data. The default value is 600 seconds.
Default Configuration
No MEPs are preconfigured.
Command Mode
Interface Configuration
User Guidelines
The hold time should generally be less than the CCM message interval.
Example
The following example sets the hold time for maintaining internal
information regarding a missing MEP.
console(config)#ethernet cfm mep archive-hold-time 1200
ethernet cfm mip level
Use the ethernet cfm mip level command in Interface Configuration mode
to create a Maintenance Intermediate Point (MIP) at the specified level. The
MEPs are configured per Maintenance Domain per interface. Use the no
form of the command to delete a MIP.
Syntax
ethernet cfm mip level 0-7
•level—Maintenance association level
Default Configuration
No MIPs are preconfigured.
Command Mode
Interface Configuration
Layer 2 Switching Commands 431
User Guidelines
Refer to IEEE 802.1ag for an explanation of maintenance association levels.
Typically, this value is assigned by the top level network service provider.
Example
console(config-if-Gi1/0/1)# ethernet cfm mip level 7
ping ethernet cfm
Use the ping ethernet cfm command to generate a loopback message (LBM)
from the configured MEP.
Syntax
ping ethernet cfm {mac mac-addr| remote-mpid 1-8191} {domain domain
name | level 0-7} vlan vlan-id mpid 1-8191 [count 1-255]
•level—Maintenance association level
• mac-addr—
The destination MAC address for which the connectivity needs to
be verified. Either MEP ID or the MAC address option can be used.
•remote-mpid—
The MEP ID for which connectivity is to be verified; i.e. the
destination MEP ID.
•domain—
Name of the maintenance domain (an alphanumeric string of up to
43 characters in length).
• vlan-id—
A VLAN associated with the maintenance domain. Range: 1-4093.
•mpid—
The MEP ID from which the loopback message needs to be
transmitted.
•count—
The number of LBMs to be transmitted. The default number is 1.
Default Configuration
By default, this command will transmit one loopback message with a time-out
of five seconds.
Command Mode
Privileged Exec
Layer 2 Switching Commands 432
User Guidelines
This command has no user guidelines.
Example
console #ping ethernet cfm mac 00:11:22:33:44:55 level 1 vlan 10 mpid 1 count
10
traceroute ethernet cfm
Use the traceroute ethernet command to generate a link trace message
(LTM) from the configured MEP.
Syntax
traceroute ethernet cfm {mac mac-addr| remote-mpid 1-8191} {domain
domain name | level 0-7} vlan vlan-id mpid 1-8191 [ttl 1-255]
•level—Maintenance association level
• mac-addr—
The destination MAC address for which the connectivity needs to
be verified. Either MEP ID or the MAC address option can be used.
•remote-mpid—
The MEP ID for which connectivity is to be verified; i.e. the
destination MEP ID.
•domain—
Name of the maintenance domain (an alphanumeric string of up to
43 characters in length).
• vlan-id—
A VLAN associated with the maintenance domain. Range: 1-4093.
•mpid—
The MEP ID from which the loopback message needs to be
transmitted.
•ttl—
The number of hops over which the LTM is expected to be transmitted.
The default number is 64.
Default Configuration
By default, the traceroute command will send loopback trace messages with a
TTL of 64.
Command Mode
Privileged Exec
Layer 2 Switching Commands 433
User Guidelines
This command has no user guidelines.
Example
console # traceroute ethernet cfm remote-mpid 32 level 7 vlan 11 mpid 12
show ethernet cfm errors
Use the show ethernet cfm errors command to display the cfm errors.
Syntax
show ethernet cfm errors {domain domain-id | level 0-7}
•level—Maintenance association level
•domain—Name of the maintenance domain (an alphanumeric string of
up to 43 characters in length).
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec, Global Configuration mode and all Configuration submodes
User Guidelines
• Level—The maintenance association level
• SVID—The service identifier
• MPID—The maintenance endpoint identifier
• DefRDICcm—A remote MEP reported the RDI bit in a CCM.
• DefMACStatus—Some remote MEP reported its Interface Status TLV as
something other then isUp.
• DefRemoteCCM—The MEP did not receive valid CCMs from at least
one of the remote MEPs
• DefErrorCCM—The MEP has received at least one invalid CCM whose
CCM interval has not yet timed out.
Layer 2 Switching Commands 434
• DevXconCCM—The MEP has received at least one CCM from either
another MAID or a lower MD level whose CCM interval has not yet timed
out.
Example
console#show ethernet cfm errors
----- ---- ---- --------- ------------ ------------ ----------- ----------
Level SVID MPID DefRDICcm DefMACStatus DefRemoteCCM DefErrorCCM DefXconCCM
----- ---- ---- --------- ------------ ------------ ----------- ----------
show ethernet cfm domain
Use the show ethernet cfm domain command to display the configured
parameters in a maintenance domain.
Syntax
show ethernet cfm domain {brief |domain-id}
•domain—Name of the maintenance domain (an alphanumeric string of
up to 43 characters in length).
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec, Global Configuration mode and all Configuration submodes
User Guidelines
This command has no user guidelines.
Example
console # show Ethernet cfm domain domain1
Domain Name : domain1
Level : 1
Total Services : 1
---- ----------------------------------- ------------------
VLAN ServiceName CC-Interval (secs)
---- ----------------------------------- ------------------
10 serv1 1
Layer 2 Switching Commands 435
show ethernet cfm maintenance-points local
Use the show ethernet cfm maintenance-points local command to display
the configured local maintenance points.
Syntax
show ethernet cfm maintenance-points local {level 0-7 | interface interface-
id | domain domain-name}
•level—Maintenance association level
•domain—Name of the maintenance domain (an alphanumeric string of
up to 43 characters in length).
• interface-id—
Show all MPs associated with the interfa
ce. This command
accepts physical interface identifiers and port channel interface identifiers.
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec, Global Configuration mode and all Configuration submodes
User Guidelines
Refer to IEEE 802.1ag for an explanation of the maintenance association
level and MEP ID. Typically, these are assigned by the top level network
service provider.
• MPID—The maintenance endpointoint identifier
• Level—The MEP level
• Type—Maintenance endpoint (MEP) or maintenance intermediate point
(MIP)
• VLAN—The configured VLAN id
• Port—The port on which the MEP association is configured
• Direction—(Up)stream or (Do)wnstream
• CC Transmit—Continuity check enabled
• MEP-Active—The MEP administrative status
Layer 2 Switching Commands 436
• Operational Status—The MEP operational status
• MAC—The MAC address associated with the MEP.
Example
show ethernet cfm maintenance-points local level 1
---- ----- ---- ---- ------ ----- -------- ------ ----------- -----
MPID Level Type VLAN Port Dire- CC MEP- Operational MAC
ction Transmit Active Status
---- ----- ---- ---- ------ ----- -------- ------ ----------- -----
1 1 MEP 10 Gi1/0/1 UP Enabled True 00:02:bc:02:02:02
----- ---- ------ -----------------
Level Type Port MAC
----- ---- ------ -----------------
show ethernet cfm maintenance-points remote
Use the show ethernet cfm maintenance-points remote command to display
the configured remote maintenance points.
Syntax
show ethernet cfm maintenance-points remote {level 0-7 | domain domain-
name | detail [mac mac-address | mep mpid] [domain domain-name | level
0-7] [vlan vlan-id]}
•domain—Name of the maintenance domain (an alphanumeric string of
up to 43 characters in length).
•level—Maintenance association level
• mac-addr—
The destination MAC address for which the connectivity needs to
be verified. Either MEP ID or the MAC address option can be used.
• vlan-id—
A VLAN associated with the maintenance domain. Range: 1-4093.
• mpid—
The MEP ID from which the loopback message needs to be transmitted.
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec, Global Configuration mode and all Configuration submodes
Layer 2 Switching Commands 437
User Guidelines
Refer to IEEE 802.1ag for an explanation of the maintenance association
level and MEP ID. Typically, these are assigned by the top level network
service provider.
• MEP Id—Local MEP identifier
• RMep Id—Remote MEP identifier
• Level—Connectivity association level
• MAC—Destination MAC address
• VLAN—VLAN on which the MEP is configured
• Expiry timer—The configured MEP expiry timer
• Service Id—The configured service identifier
Example
console# show ethernet cfm maintenance-points remove level 1
------ ------- ----- ----------------- ---- ----------------- -----------
MEP Id RMEP Id Level MAC VLAN Expiry Timer(sec) Service Id
------ ------- ----- ----------------- ---- ----------------- -----------
1 2 1 00:11:22:33:44:55 10 25 serv1
show ethernet cfm statistics
Use the show ethernet cfm maintenance-points remote command to display
the CFM statistics.
Syntax
show ethernet cfm statistics [domain domain-name | level 0-7]
• domain-name—Name of the maintenance domain (an alphanumeric
string of up to 43 characters in length).
•level—Maintenance association level
Default Configuration
This command has no default configuration.
Layer 2 Switching Commands 438
Command Mode
Privileged Exec, Global Configuration mode and all Configuration submodes
User Guidelines
Refer to IEEE 802.1ag for an explanation of the maintenance association
level. Typically, maintenance levels are assigned by the top level network
service provider.
• Out-of-sequence CCM's received—Count of the out-of-sequence
continuity check messages (CCM's) received
• CCM's transmitted—Count of the CCMs transmitted
• In order Loopback replies received—Count of the in order loopback replies
received
• Bad MSDU Loopback Replies received—Count of the number of
loopback replies received with a MAC Service Data Unit that did not
match the corresponding LBM
• Unexpected LTR's received—A count of the number of Link Trace Replies
fore which no LTM was sent
Example
show Ethernet cfm statistics [domain <domain-name> | level <0-7>]
Console# show ethernet cfm statistics
------------------------------------------------------------------
Statistics for 'Domain: domain1, Level: 1, Vlan: 11, MEP Id: 1'
------------------------------------------------------------------
Out-of-sequence CCM's received : 0
CCM's transmitted : 259
In-order Loopback Replies received : 5
Out-of-order Loopback Replies received: 0
Bad MSDU Loopback Replies received : 0
Loopback Replies transmitted : 5
Unexpected LTR's received : 0
------------------------------------------------------------------
Statistics for 'Domain: domain1, Level: 1, Vlan: 11, MEP Id: 2'
------------------------------------------------------------------
Out-of-sequence CCM's received : 0
CCM's transmitted : 1
In-order Loopback Replies received : 5
Layer 2 Switching Commands 439
Out-of-order Loopback Replies received: 5
Bad MSDU Loopback Replies received : 0
Loopback Replies transmitted : 0
Unexpected LTR's received : 0
------------------------------------------------------------------
Statistics for 'Domain: domain1, Level: 1, Vlan: 11, MEP Id: 3'
------------------------------------------------------------------
Out-of-sequence CCM's received : 0
CCM's transmitted : 1
In-order Loopback Replies received : 0
Out-of-order Loopback Replies received: 0
Bad MSDU Loopback Replies received : 0
Loopback Replies transmitted : 5
Unexpected LTR's received : 0
Layer 2 Switching Commands 440
Green Ethernet Commands
Dell EMC Networking N1100-ON/N1500/N2000/N2100-
ON/N3000/N3100-ON/N4000 Series Switches
Dell EMC Networking switches support various Green Ethernet modes, i.e.,
power saving modes, namely:
•Energy-Detect Mode
•Energy Efficient Ethernet
These modes can enable significant operational cost reductions through
direct power savings and reducing cooling costs. Green mode commands are
only valid for copper physical interfaces.
Energy-Detect Mode
With this mode enabled, when the port link is down the PHY automatically
goes down for short periods of time and then wakes up periodically to check
for link pulses. This reduces power consumption when no link partner is
present. This feature is currently available only on GE copper ports.
Energy Efficient Ethernet
Energy Efficient Ethernet (EEE) combines the MAC with a family of PHYs
that support operation in a Low Power Mode as defined by the IEEE 802.3az
Energy Efficient Ethernet Task Force. Lower Power Mode enables both the
send and receive sides of the link to disable some functionality for power
savings when lightly loaded. Transition to Low Power Mode does not change
the link status. Frames in transit are not dropped or corrupted in transition to
and from Low Power Mode. Transition time is transparent to upper layer
protocols and applications. LLDP must be enabled in order to EEE to operate
on a link. This feature is currently available only on copper ports.
Commands in this Section
This section explains the following commands:
clear counters show green-mode interface-id
Layer 2 Switching Commands 441
green-mode energy-detect
This command enables a Dell EMC proprietary mode of power reduction on
ports that are not connected to another interface. Use the green-mode
energy-detect command in Interface Configuration mode to enable energy-
detect mode on an interface or all the interfaces. Energy-detect mode is
enabled by default on 1G copper interfaces and enabled by default on 10G
copper interfaces.
On combo ports, it is possible to configure energy-detect mode even if the
fiber port is enabled. If enabled, energy-detect mode will become active when
the copper port is used.
Use the no form of the command to disable energy-detect mode on the
interface(s).
Syntax
green-mode energy-detect
no green-mode energy-detect
Default Configuration
On N1100-ON, N1500, N2000, N2100-ON, N3000, and N3100-ON switches,
energy-detect is enabled by default. Energy detect mode is enabled by default
and cannot be disabled on N4000 10G copper interfaces.
Command Mode
Interface Configuration mode
User Guidelines
This command is available in Ethernet interface configuration mode. Cable
diagnostics (show copper-ports tdr command) may give misleading results if
green mode is enabled on the port. Disable green mode prior to running any
cable diagnostics. EEE and energy-detect modes are only supported on N4000
green-mode eee show green-mode
description show green-mode eee-lpi-history interface
green-mode eee-lpi-history
–
Layer 2 Switching Commands 442
Series 10G ports and on N1100-ON/N1500/N2000/N2100-ON/N3000/N3100-
ON 1G copper ports. Energy-detect mode is always enabled on N4000 series
10G ports and cannot be disabled. An error message (Unable to set
energy-detect mode) will be displayed if the user attempts to configure
energy-detect on a 10G port on a N1100-ON/N1500/N2000/N2100-
ON/N3000/N3100-ON series switch.
green-mode eee
Use the green-mode eee command in Interface Configuration mode to
enable EEE low power idle mode on an interface. The command enables both
send and receive sides of a link to disable some functionality for power savings
when lightly loaded. The transition to Low Power Idle mode does not change
the link status. Frames in transit are not dropped or corrupted in transition to
and from Low Power Idle mode.
On combo ports, eee mode can be enabled even if the port is using the fiber
interface. If enabled, eee mode is only active when the copper interface is
active.
Use the no form of the command to disable the feature.
Syntax
green-mode eee
no green-mode eee
Default Configuration
The default value is Enabled.
Command Mode
Interface Configuration
User Guidelines
This command is available in Ethernet interface configuration mode. Cable
diagnostics (show copper-ports commands) may give misleading results if
green mode is enabled on the port. Disable green mode prior to running any
Layer 2 Switching Commands 443
cable diagnostics. EEE mode is supported on N4000 series 10G copper ports
and on N1100-ON/N1500/N2000/N2100-ON/N3000/N3100-ON 1G copper
interfaces.
green-mode eee { tx-idle-time | tx-wake-time}
Use the green-mode eee {tx-idle-time | tx_wake-time} command in
Interface Configuration mode to control the transmit idle and wake time
parameters on an interface.
Use the no form of the command to return the configuration to the default.
Syntax
green-mode eee tx-idle-time <600-4294967295>
green-mode eee tx-wake-time <0-65535>
no green-mode eee {tx-idle-time|tx-wake-time}
Default Configuration
By default, the transmit idle time is 600 micro-seconds and the transmit wake
time is 8 micro-seconds.
Command Mode
Interface Configuration mode, Interface Range Configuration mode
User Guidelines
The tx-idle-time parameter sets the amount of time the link must be idle
before transitioning to the low power idle state. The tx-wake-time configures
the delay before transitioning to the active state (and transmitting the
pending packet) after transmitting a wake symbol to the link partner. The
transmit idle time and transmit wake time are configured in micro-seconds.
The default values are recommended unless there is good reason to adjust
them. Excessive wake times may cause link congestion. Excessive idle times
will reduce the savings from low power idle mode.
Layer 2 Switching Commands 444
This command is available in Ethernet interface configuration mode for
copper ports that are EEE capable. Configuring the values on interfaces that
do not support EEE will return an error.
Command History
Syntax added in 6.4 release.
clear green-mode statistics
Use the clear green-mode statistics command to clear:
• The EEE LPI event count, and LPI duration
• The EEE LPI history table entries
• The Cumulative Power savings estimates
for a specified interface or for all the interfaces based upon the argument.
Syntax
clear green-mode statistics {interface-id | all}
• interface-id—An Ethernet interface identifier.
See
Interface Naming
Conventions
for interface representation.
•all—All Ethernet interfaces.
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec
User Guidelines
This command has no user guidelines.
green-mode eee-lpi-history
Use the green-mode eee-lpi-history command in Global Configuration mode
to configure the Global EEE LPI history collection interval and buffer size.
This value is applied globally on all interfaces on the stack. LPI history is only
Layer 2 Switching Commands 445
collected on combo ports when the copper port is enabled. Use the no form of
the command to set the sampling interval or max-samples values to the
default.
Syntax
green-mode eee-lpi-history {sampling-interval 30 sec – 36000 sec| max-
samples 1 - 168}
•sampling-interval—The interval in seconds at which power consumption
data needs to be collected.
•max-samples—Maximum number of samples to keep.
Default Configuration
The sampling-interval default value is 3600 seconds and the max-samples
default value is 168.
Command Mode
Global Configuration
User Guidelines
EEE and energy-detect modes are only supported on N4000 series 10G
copper ports and on N1100-ON/N1500/N2000/N2100-ON/N3000/N3100-ON
1G copper ports.
Examples
Use the command below to set the EEE LPI History sampling interval to the
default.
console(config)# no green-mode eee-lpi-history sampling-interval
Use the command below to set the EEE LPI History max-samples to the
default.
console(config)#no green-mode eee-lpi-history max-samples
Layer 2 Switching Commands 446
show green-mode interface-id
Use the show green-mode interface-id command to display the green-mode
configuration and operational status of the port. This command is also used
to display the per port configuration and operational status of the green-
mode. The status is shown only for the modes supported on the
corresponding hardware platform whether enabled or disabled.
Syntax
show green-mode interface-id
•
interface-id
—An Ethernet interface identifier. See Interface Naming
Conventions for interface representation.
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec, Global Configuration mode and all Configuration submodes
User Guidelines
This command output provides the following information.
Term Description
Energy Detect
Energy-detect
admin mode
Energy-detect mode is enabled or disabled.
Energy-detect
operational status
Energy detect mode is currently active or inactive. The energy
detect mode may be administratively enabled, but the
operational status may be inactive. The reasons for the
operational status are described below.
Layer 2 Switching Commands 447
Reason for Energy-
detect current
operational status
The energy detect mode may be administratively enabled, but
the operational status may be inactive. The possible reasons are:
1
Port is currently operating in the fiber mode
2
Link is up.
If the energy-detect operational status is active, then the reason
field shows up as:
1
No energy Detected
EEE
EEE Admin Mode EEE Admin Mode is enabled or disabled.
Rx Low Power Idle
Event Count
This field is incremented each time MAC RX enters LP IDLE
state. Shows the total number of Rx LPI Events since EEE
counters are last cleared.
Rx Low Power Idle
Duration (μSec)
This field indicates duration of Rx LPI state in 10us
increments. Shows the total duration of Rx LPI since the EEE
counters are last cleared.
Tx Low Power Idle
Event Count
This field is incremented each time MAC TX enters LP IDLE
state. Shows the total number of Tx LPI Events since EEE
counters are last cleared.
Rx Low Power Idle
Duration (μSec)
This field indicates duration of Tx LPI state in 10us
increments. Shows the total duration of Tx LPI since the EEE
counters are last cleared.
Tw_sys_tx (μSec) Integer that indicates the value of Tw_sys that the local system
can support. This value is updated by the EEE DLL
Transmitter state diagram. This variable maps into the
aLldpXdot3LocTxTwSys attribute.
Tw_sys Echo (μSec) Integer that indicates the remote system’s Transmit Tw_sys that
was used by the local system to compute the Tw_sys that it
wants to request from the remote system. This value maps into
the aLldpXdot3LocTxTwSysEcho attribute.
Tw_sys_rx (μSec) Integer that indicates the value of Tw_sys that the local system
requests from the remote system. This value is updated by the
EEE Receiver L2 state diagram. This variable maps into the
aLldpXdot3LocRxTwSys attribute.
Term Description
Layer 2 Switching Commands 448
Tw_sys_rx Echo
(μSec)
Integer that indicates the remote systems Receive Tw_sys that
was used by the local system to compute the Tw_sys that it can
support. This value maps into the
aLldpXdot3LocRxTwSysEcho attribute.
Fallback Tw_sys
(μSec)
Integer that indicates the value of fallback Tw_sys that the local
system requests from the remote system. This value is updated
by the local system software.
Remote Tw_sys_tx
(μSec)
Integer that indicates the value of Tw_sys that the remote
system can support. This value maps from the
aLldpXdot3RemTxTwSys attribute.
Remote Tw_sys
Echo (μSec)
Integer that indicates the value Transmit Tw_sys echoed back
by the remote system. This value maps from the
aLldpXdot3RemTxTwSysEcho attribute.
Remote Tw_sys_rx
(μSec)
Integer that indicates the value of Tw_sys that the remote
system requests from the local system. This value maps from
the aLldpXdot3RemRxTwSys attribute.
Remote Tw_sys_rx
Echo (μSec)
Integer that indicates the value of Receive Tw_sys echoed back
by the remote system. This value maps from the
aLldpXdot3RemRxTwSysEcho attribute.
Remote Fallback
Tw_sys (μSec)
Integer that indicates the value of fallback Tw_sys that the
remote system is advertising.This attribute maps to the variable
RemFbSystemValue as defined in 78.4.2.3.
Tx_dll_enabled Initialization status of the EEE transmit Data Link Layer
management function on the local system.
Tx_dll_ready Data Link Layer ready: This variable indicates that the tx
system initialization is complete and is ready to update/receive
LLDPDU containing EEE TLV. This variable is updated by the
local system software.
Rx_dll_enabled Status of the EEE capability negotiation on the local system.
Rx_dll_ready Data Link Layer ready: This variable indicates that the rx
system initialization is complete and is ready to update/receive
LLDPDU containing EEE TLV. This variable is updated by the
local system software.
Power Saving (%) Percentage of Power saved by enabling EEE on the interface
since EEE counters are last cleared.
Term Description
Layer 2 Switching Commands 449
Example
console#show green-mode gi1/0/1
Energy Detect Admin Mode............ Enabled
Operational Status.................. Active
Reason.............................. No Energy Detected
Short Reach Feature................. Not Available
EEE Admin Mode...................... Enabled
Rx Low Power Idle Event Count....... 0
Rx Low Power Idle Duration (uSec)... 0
Tx Low Power Idle Event Count.... 0
Tx Low Power Idle Duration (uSec) 0
Tw_sys_tx (usec)..................17
Tw_sys_tx Echo(usec)..............17
Tw_sys_rx (usec)..................17
Tw_sys_tx Echo(usec)..............17
Fallback Tw_sys (usec)............17
Remote Tw_sys_tx (usec)...........21
Remote Tw_sys_tx Echo(usec).......21
Remote Tw_sys_rx (usec)...........21
Remote Tw_sys_tx Echo(usec).......21
Remote fallback Tw_sys (usec).....21
Tx DLL enabled....................Yes
Tx DLL ready......................Yes
Rx DLL enabled....................Yes
Rx DLL ready......................Yes
Cumulative Energy Saving (W * H)..2.37
Time Since Counters Last Cleared..1 day 20 hr 47 min 34 sec
show green-mode
Use the show green-mode command to display the green-mode configuration
for the whole system. The status is shown only for the modes supported on
the corresponding hardware platform whether enabled or disabled.
Time Since
Counters Last
Cleared
Time Since Counters Last Cleared (since the time of power up,
or after clear eee counters is executed)
Term Description
Layer 2 Switching Commands 450
Syntax
show green-mode
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec, Global Configuration mode and all Configuration submodes
User Guidelines
This command output provides the following information.
Example
console#show green-mode
Current Power Consumption (mW)................. 11545
Power Saving /Stack (%)........................ 3
Cumulative Energy Saving /Stack (W * H)........ 17
Unit Green Ethernet Features Supported
---- -----------------------------------------------------------------------
1 Energy-Detect EEE LPI-History LLDP-Cap-Exchg Pwr-Usg-Est
Interface Energy-Detect Short-Reach-Config Short-Reach EEE
Config Opr Auto Forced Opr Config
--------- --------- --------- --------- --------- ----------- --------
Gi1/0/1 Enabled Active Enabled Disabled In-Active Enabled
Gi1/0/2 Enabled Active Enabled Disabled In-Active Enabled
Term Description
Energy Detect
Energy-detect
Config
Energy-detect Admin mode is enabled or disabled.
Energy-detect Opr Energy detect mode is currently active or inactive. The energy
detect mode may be administratively enabled, but the
operational status may be inactive.
EEE
EEE Config EEE Admin Mode is enabled or disabled.
Layer 2 Switching Commands 451
Gi1/0/3 Enabled Active Enabled Disabled In-Active Enabled
Gi1/0/4 Enabled Active Enabled Disabled In-Active Enabled
Gi1/0/5 Enabled Active Enabled Disabled In-Active Enabled
Gi1/0/6 Enabled Active Enabled Disabled In-Active Enabled
Gi1/0/7 Enabled Active Enabled Disabled In-Active Enabled
Gi1/0/8 Enabled Active Enabled Disabled In-Active Enabled
show green-mode eee-lpi-history interface
Use the show green-mode eee-lpi-history interface command to display the
interface green-mode EEE LPI history.
Syntax
show green-mode eee-lpi-history interface interface-id
•
interface-id
—An Ethernet interface identifier. See Interface Naming
Conventions for interface representation.
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec, Global Configuration mode and all Configuration submodes
User Guidelines
On combo ports, samples are only collected on the copper ports when
enabled.
The following fields are displayed by this command.
Term Description
Sampling Interval Interval at which EEE LPI statistics is collected.
Total No. of
Samples to Keep
Maximum number of samples to keep.
Percentage LPI
Time per Stack
Percentage of total time spent in LPI mode by all ports in the
stack when compared to total time since reset.
Sample No. Sample index.
Layer 2 Switching Commands 452
Example
This example is on a platform capable of providing power consumption
details.
console#show green-mode eee-lpi-history interface gi1/0/1
Sampling Interval (sec)........................ 30
Total No. of Samples to Keep................... 10
Percentage LPI time per stack.................. 0
Percentage of Percentage of
Sample Time Since Time spent in Time spent in
No. The Sample LPI mode since LPI mode since
Was Recorded last sample last reset
------ -------------------- -------------- --------------
3 00:00:00:09 3 3
2 00:00:00:40 4 7
1 00:00:01:11 3 10
Sample Time Time since last reset.
%Time Spent in LPI
Mode Since Last
Sample
Percentage of time spent in LPI mode on this port when
compared to sampling interval.
%Time Spent in LPI
Mode Since Last
Reset
Percentage of total time spent in LPI mode on this port when
compared to time since reset.
Term Description
Layer 2 Switching Commands 453
GMRP Commands
Dell EMC Networking N1100-ON/N1500/N2000/N2100-
ON/N3000/N3100-ON/N4000 Series Switches
The GARP Multicast Registration Protocol (GMRP) provides a mechanism
that allows networking devices to dynamically register (and deregister) Group
membership information with the MAC networking devices attached to the
same segment, and for that information to be disseminated across all
networking devices in the bridged LAN that support Extended Filtering
Services. The operation of GMRP relies upon the services provided by the
Generic Attribute Registration Protocol (GARP). GMRP is supported as
described below.
The information registered, deregistered and disseminated via GMRP is in
the following forms:
1
Group Membership information: This indicates that there exists one or
more GMRP participants which are members of a particular Group, and
carry the group MAC addresses associated with the Group.
2
Group service requirements information: This indicates that one or more
GMRP participants require Forward all Groups or Forward Unregistered to
be the default filtering behavior.
NOTE: The Group Service capability is not supported.
Registration of group membership information allow networking devices to
be made aware that frames destined for that group MAC address concerned
should be forwarded in the direction of registered members of the group.
Forwarding of frames destined for that group MAC address occur on ports on
which such membership registration has been received.
Registration of group services requirement information allow networking
devices to be made aware that any of their ports that can forward frames in
the direction from which the group service requirement information has been
received should modify their default group behavior in accordance with the
group service requirement expressed.
The registration and deregistration of membership results in the multicast
table being updated with a new entry or the existing entry modified.
Layer 2 Switching Commands 454
This ensures that the networking device receives multicast frames from all
ports but forwards them through only those ports for which GMRP has
created Group registration entry (for that multicast address). Registration
entries created by GMRP ensures that frames are not transmitted on LAN
segments which neither have registered GMRP participants nor are in the
path through the active topology between the sources of the frames and the
registered group members.
NOTE: This feature is not available on the N3000 when loaded with the
AGGREGATION ROUTER enabled firmware (e.g., N3000_BGPvA.B.C.D.stk).
Commands in this Section
This section explains the following commands:
gmrp enable
Use the gmrp enable command in Global Configuration mode to enable
GMRP globally or Interface Configuration mode to enable GMRP on a port.
Syntax
gmrp enable
no gmrp enable
Default Configuration
GMRP is disabled by default.
Command Mode
Global Configuration and Interface Configuration modes
User Guidelines
IGMP snooping is incompatible with GMRP and must be disabled on any
VLANs running GMRP.
gmrp enable show gmrp configuration
clear gmrp statistics
–
Layer 2 Switching Commands 455
Example
In this example, GMRP is globally enabled.
console(config)#gmrp enable
clear gmrp statistics
Use the clear gmrp statistics command to clear all the GMRO statistics
information.
Syntax
clear gmrp statistics [{gigabitethernet unit/slot/port | port-channel port-
channel-number | tengigabitethernet unit/slot/port | fortygigabitethernet
unit/slot/port}]
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode
User Guidelines
This command has no user guidelines.
Example
The following example clears all the GMRP statistics information on port
Gi1/0/8.
console# clear gmrp statistics gigabitethernet 1/0/8
show gmrp configuration
Use the show gmrp configuration command in Global Configuration mode
and Interface Configuration mode to display GMRP configuration.
Syntax
show gmrp configuration
Layer 2 Switching Commands 456
Default Configuration
GMRP is disabled by default.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
This command has no user guidelines.
Example
console#show gmrp configuration
Global GVRP Mode: Disabled
Join Leave LeaveAll Port VLAN
Interface Timer Timer Timer GVRP Mode Create Register
(centisecs) (centisecs) (centisecs) Forbid Forbid
----------- ----------- ----------- ----------- ----------- ------ ------
Gi1/0/1 20 60 1000 Disabled
Gi1/0/2 20 60 1000 Disabled
Gi1/0/3 20 60 1000 Disabled
Gi1/0/4 20 60 1000 Disabled
Gi1/0/5 20 60 1000 Disabled
Gi1/0/6 20 60 1000 Disabled
Gi1/0/7 20 60 1000 Disabled
Gi1/0/8 20 90 1000 Enabled X
Gi1/0/9 20 60 1000 Disabled
Gi1/0/10 20 60 1000 Disabled
Gi1/0/11 20 60 1000 Disabled
Gi1/0/12 20 60 1000 Disabled
Gi1/0/13 20 60 1000 Disabled
Gi1/0/14 20 60 1000 Disabled
Gi1/0/15 20 60 1000 Disabled
Gi1/0/16 20 60 1000 Disabled
Gi1/0/17 20 60 1000 Disabled
Layer 2 Switching Commands 457
GVRP Commands
Dell EMC Networking N1100-ON/N1500/N2000/N2100-
ON/N3000/N3100-ON/N4000 Series Switches
GARP VLAN Registration Protocol (GVRP) is used to propagate VLAN
membership information throughout the network. GVRP is based on the
Generic Attribute Registration Protocol (GARP), which defines a method of
propagating a defined attribute (that is, VLAN membership) throughout the
network. GVRP allows both end stations and the networking device to issue
and revoke declarations relating to membership in VLANs. End stations that
participate in GVRP register VLAN membership using GARP Protocol Data
Unit (GPDU) messages. Networking devices that implement the GVRP
protocol and enable GVRP then process the GPDUs. The VLAN registration
is made in the context of the port that receives the GPDU. The networking
device propagates this VLAN membership on all of its other ports in the
active topology. Thus, the end station VLAN ID is propagated throughout the
network. GVRP is an application defined in the IEEE 802.1p standard that
allows for the control of 802.1Q VLANs.
NOTE: This feature is not available on the N3000 when loaded with the
AGGREGATION ROUTER enabled firmware (e.g., N3000_BGPvA.B.C.D.stk).
Commands in this Section
This section explains the following commands:
clear gvrp statistics
Use the clear gvrp statistics command to clear all the GVRP statistics
information.
clear gvrp statistics gvrp vlan-creation-forbid
garp timer show gvrp configuration
gvrp enable (Global Configuration) show gvrp error-statistics
gvrp enable (Interface Configuration) show gvrp statistics
gvrp registration-forbid
–
Layer 2 Switching Commands 458
Syntax
clear gvrp statistics [interface-id]
• interface-id—An Ethernet interface identifier or a port channel identifier
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode
User Guidelines
This command has no user guidelines.
Example
The following example clears all the GVRP statistics information on interface
Gi1/0/8.
console# clear gvrp statistics gigabitethernet 1/0/8
garp timer
Use the garp timer command in Interface Configuration mode to adjust the
GARP application join, leave, and leaveall GARP timer values. To reset the
timer to default values, use the no form of this command.
Syntax
garp timer {join | leave | leaveall} timer_value
no garp timer
•join — Indicates the time in centiseconds that PDUs are transmitted.
•leave — Indicates the time in centiseconds that the device waits before
leaving its GARP state.
•leaveall — Used to confirm the port within the VLAN. The time is the
interval between messages sent, measured in centiseconds.
• timer_value — Timer values in centiseconds. The range is 10-100 for join,
20-600 for leave, and 200-6000 for leaveall.
Layer 2 Switching Commands 459
Default Configuration
The default timer values are as follows:
• Join timer — 20 centiseconds
• Leave timer — 60 centiseconds
• Leaveall timer — 1000 centiseconds
Command Mode
Interface Configuration (gigabitethernet, port-channel, tengigabitethernet,
fortygigabitethernet) mode
User Guidelines
This command is available in Ethernet interface configuration mode and port
channel interface configuration mode. The following relationships for the
various timer values must be maintained:
• Leave time must be greater than or equal to three times the join time.
• Leaveall time must be greater than the leave time.
Set the same GARP timer values on all Layer 2-connected devices. If the
GARP timers are set differently on Layer 2-connected devices, the GARP
application will not operate successfully.
The timer_value setting must be a multiple of 10.
Example
The following example sets the leave timer for port 1/0/8 to 90 centiseconds.
console (config)# interface gigabitethernet 1/0/8
console (config-if-Gi1/0/8)# garp timer leave 90
gvrp enable (Global Configuration)
Use the gvrp enable (global) command in Global Configuration mode to
enable GVRP globally on the switch. To disable GVRP globally on the switch,
use the no form of this command.
Syntax
gvrp enable
Layer 2 Switching Commands 460
no gvrp enable
Default Configuration
GVRP is globally disabled.
Command Mode
Global Configuration mode
User Guidelines
This command has no user guidelines.
Example
The following example globally enables GVRP on the device.
console(config)#gvrp enable
gvrp enable (Interface Configuration)
Use the gvrp enable command in Interface Configuration mode to enable
GVRP on an interface. To disable GVRP on an interface, use the no form of
this command.
Syntax
gvrp enable
no gvrp enable
Default Configuration
GVRP is disabled on all interfaces by default.
Command Mode
Interface Configuration (gigabitethernet, port-channel, tengigabitethernet,
fortygigabitethernet) mode
Layer 2 Switching Commands 461
User Guidelines
This command is available in Ethernet interface configuration mode and port
channel interface configuration mode. An Access port cannot join
dynamically to a VLAN because it is always a member of only one VLAN.
Membership in untagged VLAN would be propagated in a same way as a
tagged VLAN. In such cases it is the administrator’s responsibility to set the
PVID to be the untagged VLAN VID.
Example
The following example enables GVRP on Gigabit Ethernet 1/0/8.
console(config)#interface gigabitethernet 1/0/8
console(config-if-Gi1/0/8)#gvrp enable
gvrp registration-forbid
Use the gvrp registration-forbid command in Interface Configuration mode
to deregister all VLANs on a port and prevent any dynamic registration on the
port. To allow dynamic registering for VLANs on a port, use the no form of
this command.
Syntax
gvrp registration-forbid
no gvrp registration-forbid
Default Configuration
Dynamic registering and deregistering for each VLAN on the port is not
forbidden.
Command Mode
Interface Configuration (gigabitethernet, port-channel, tengigabitethernet,
fortygigabitethernet) mode
User Guidelines
This command is available in Ethernet interface configuration mode and port
channel interface configuration mode.
Layer 2 Switching Commands 462
Example
The following example shows how default dynamic registering and
deregistering is forbidden for each VLAN on port 1/0/8.
console(config)#interface gigabitethernet 1/0/8
console(config-if-Gi1/0/8)#gvrp registration-forbid
gvrp vlan-creation-forbid
Use the gvrp vlan-creation-forbid command in Interface Configuration mode
to disable dynamic VLAN creation. To enable dynamic VLAN creation, use
the no form of this command.
Syntax
gvrp vlan-creation-forbid
no gvrp vlan-creation-forbid
Default Configuration
By default, dynamic VLAN creation is enabled.
Command Mode
Interface Configuration (gigabitethernet, port-channel, tengigabitethernet,
fortygigabitethernet) mode
User Guidelines
This command is available in Ethernet interface configuration mode and port
channel interface configuration mode.
Example
The following example disables dynamic VLAN creation on port 1/0/8.
console(config)#interface gigabitethernet 1/0/8
console(config-if-Gi1/0/8)#gvrp vlan-creation-forbid
Layer 2 Switching Commands 463
show gvrp configuration
Use the show gvrp configuration command to display GVRP configuration
information. Timer values are displayed. Other data shows whether GVRP is
enabled and which ports are running GVRP.
Syntax
show gvrp configuration [ interface-id ]
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
This command is valid for Ethernet and port-channel interfaces. If no
interface-id parameter is given, all interfaces are shown.
Example
The following example shows how to display GVRP configuration
information:
console# show gvrp configuration
Global GVRP Mode: Disabled
Join Leave LeaveAll Port VLAN
Interface Timer Timer Timer GVRP Mode Create Register
(centisecs) (centisecs) (centisecs) Forbid Forbid
----------- ----------- ----------- ----------- ----------- ------ ------
Gi1/0/1 20 60 1000 Disabled
Gi1/0/2 20 60 1000 Disabled
Gi1/0/3 20 60 1000 Disabled
Gi1/0/4 20 60 1000 Disabled
Gi1/0/5 20 60 1000 Disabled
Gi1/0/6 20 60 1000 Disabled
Gi1/0/7 20 60 1000 Disabled
Gi1/0/8 20 60 1000 Disabled
Gi1/0/9 20 60 1000 Disabled
Gi1/0/10 20 60 1000 Disabled
Layer 2 Switching Commands 464
Gi1/0/11 20 60 1000 Disabled
Gi1/0/12 20 60 1000 Disabled
Gi1/0/13 20 60 1000 Disabled
Gi1/0/14 20 60 1000 Disabled
show gvrp error-statistics
Use the show gvrp error-statistics command in User Exec mode to display
GVRP error statistics.
Syntax
show gvrp error-statistics [interface-id]
• interface-id—An Ethernet interface identifier or a port channel interface
identifier.
Default Configuration
This command has no default configuration.
Command Mode
User Exec mode, Privileged Exec mode, Global Configuration mode and all
Configuration submodes
User Guidelines
If no interface-id parameter is given, all interfaces are shown.
Example
The following example displays GVRP error statistics information.
console>show gvrp error-statistics
GVRP error statistics:
----------------
Legend:
INVPROT: Invalid Protocol Id INVATYP: Invalid Attribute Type
INVALEN: Invalid Attribute Length INVAVAL: Invalid Attribute Value
INVEVENT: Invalid Event
Port INVPROT INVATYP INVAVAL INVALEN INVEVENT
---- ------- ------- ------- ------- --------
Layer 2 Switching Commands 465
Gi1/0/1 0 0 0 0 0
Gi1/0/2 0 0 0 0 0
Gi1/0/3 0 0 0 0 0
Gi1/0/4 0 0 0 0 0
show gvrp statistics
Use the show gvrp statistics command in User Exec mode to display GVRP
statistics.
Syntax
show gvrp statistics [interface-id]
• interface-id —A physical interface identifier or a port channel interface
identifier.
Default Configuration
This command has no default configuration.
Command Mode
User Exec mode, Privileged Exec mode, Global Configuration mode and all
Configuration submodes
User Guidelines
This command has no user guidelines.
Example
This example shows output of the show gvrp statistics command.
console>show gvrp statistics
GVRP statistics:
------------------------------
Legend:
rJE : Join Empty Received rJIn : Join In Received
rEmp : Empty Received rLIn : Leave In Received
rLE : Leave Empty Received rLA : Leave All Received
sJE : Join Empty Sent JIn : Join In Sent
sEmp : Empty Sent sLIn : Leave In Sent
sLE : Leave Empty Sent sLA : Leave All Sent
Layer 2 Switching Commands 466
Port rJE rJIn rEmp rLIn rLE rLA sJE sJIn sEmp sLIn sLE sLA
---- --- ---- ---- ---- --- --- --- --- --- ---- ---- ---
Gi1/0/1 0 0 0 0 0 0 0 0 0 0 0 0
Gi1/0/2 0 0 0 0 0 0 0 0 0 0 0 0
Gi1/0/3 0 0 0 0 0 0 0 0 0 0 0 0
Gi1/0/4 0 0 0 0 0 0 0 0 0 0 0 0
Gi1/0/5 0 0 0 0 0 0 0 0 0 0 0 0
Gi1/0/6 0 0 0 0 0 0 0 0 0 0 0 0
Gi1/0/7 0 0 0 0 0 0 0 0 0 0 0 0
Gi1/0/8 0 0 0 0 0 0 0 0 0 0 0 0
Layer 2 Switching Commands 467
IGMP Snooping Commands
Dell EMC Networking N1100-ON/N1500/N2000/N2100-
ON/N3000/N3100-ON/N4000 Series Switches
Snooping of Internet Group Management Protocol (IGMP) messages is a
feature that allows Dell EMC Networking switches to forward multicast
traffic intelligently on the switch. Multicast traffic is traffic that is destined to
a host group. Host groups are identified by the destination MAC address, i.e.
the range 01:00:5e:00:00:00-01:00:5e:7f:ff:ff:ff for IPv4 multicast traffic or
33:33:xx:xx:xx:xx for IPv6 multicast traffic. Based on the IGMP query and
report messages, the switch forwards traffic only to the ports that request the
multicast traffic. This prevents the switch from broadcasting the traffic to all
ports and possibly affecting network performance.
IGMP snooping switches build forwarding lists by monitoring for, and in
some cases intercepting, IGMP messages. Although the software processing
the IGMP messages could maintain state information based on the full IP
group addresses, the forwarding tables in Dell EMC Networking are mapped
to link layer addresses.
The Multicast Forwarding Database (MFDB) manages the forwarding
address table for Layer 2 multicast protocols, such as IGMP Snooping.
The IGMP Snooping code in the CPU ages out IGMP entries in the MFDB.
If a report for a particular group on a particular interface is not received
within a certain time interval (query interval), the IGMP Snooping code
deletes that interface from the group. The value for query interval time is
configurable using management.
If an IGMP Leave Group message is received on an interface, the IGMP
Snooping code sends a query on that interface and waits a specified length of
time (maximum response time). If no response is received within that time,
that interface is removed from the group. The value for maximum response
time is configurable using management.
In addition to building and maintaining lists of multicast group
memberships, the snooping switch also maintains a list of multicast routers.
When forwarding multicast packets, they should be forwarded on ports that
have joined using IGMP and also on ports on which multicast routers are
attached. The reason for this is that in IGMP there is only one active query
mechanism. This means that all other routers on the network are suppressed
Layer 2 Switching Commands 468
and thus not detectable by the switch. If a query is not received on an
interface within a specified length of time (multicast router present
expiration time), that interface is removed from the list of interfaces with
multicast routers attached. The multicast router present expiration time is
configurable using management. The default value for the multicast router
expiration time is zero, which indicates an infinite time-out (that is, no
expiration).
Commands in this Section
This section explains the following commands:
ip igmp snooping
Use the ip igmp snooping command in Global Configuration mode without
parameters to globally enable Internet Group Management Protocol (IGMP)
snooping. Use the vlan form of the command to enable IGMP snooping on a
specific VLAN. Use the no form of this command to disable IGMP snooping
globally.
Syntax
ip igmp snooping [vlan vlan-id]
no ip igmp snooping [vlan vlan-id]
•
vlan-id
—Specifies a VLAN ID value.
ip igmp snooping ip igmp snooping vlan groupmembership-
interval
show ip igmp snooping ip igmp snooping vlan last-member-query-
interval
show ip igmp snooping groups ip igmp snooping vlan mcrtrexpiretime
show ip igmp snooping mrouter ip igmp snooping report-suppression
ip igmp snooping vlan immediate-leave ip igmp snooping unregistered floodall
–
ip igmp snooping vlan mrouter
Layer 2 Switching Commands 469
Default Configuration
IGMP snooping is enabled globally and on all VLANs by default.
Command Mode
Global Configuration mode
User Guidelines
Use this command without parameters to globally enable IGMP snooping.
Use the no form of the command to disable IGMP snooping. Use the vlan
parameter to enable IGMP snooping on a specific VLAN. GMRP is
incompatible with IGMP snooping and should be disabled on any VLANs on
which IGMP snooping is enabled. It is recommended that MLD snooping
should be enabled whenever IGMP snooping is enabled to ensure that
unwanted pruning of multicast protocol packets used by other protocols does
not occur.
Enabling IGMP snooping on a VLAN in which L3 multicast is enabled is
recommended. If a multicast source is connected to a VLAN on which both
L3 multicast and IGMP/MLD snooping are enabled, the multicast source is
forwarded to the mrouter ports, including the internal mrouter port. If IGMP
snooping is disabled, multicast data plane packets are flooded in the VLAN.
IGMP snooping (and IGMP querier) validates IGMP packets. As part of the
validation, IGMP checks for the router alert option. If other devices in the
network do not send IGMP packets with the router alert option, IGMP
snooping (and snooping querier) will discard the packet. Use the no ip igmp
snooping router-alert-check command to disable checking for the router alert
option. IGMP packets are intended to be confined to the local link, IGMP
snooping validates that the IP TTL is 1 and discards packets with other
values.
Example
console(config)#ip igmp snooping
console(config)#no ip igmp snooping vlan 1
Command History
Revised in 6.3.5 release.
Layer 2 Switching Commands 470
show ip igmp snooping
Use the show ip igmp snooping command to display the IGMP snooping
configuration and SSM statistics.
Syntax
show ip igmp snooping [vlan vlan-id]
•
vlan-id
—Specifies a VLAN ID value.
Default Configuration
This command has no default configuration.
Command Mode
User Exec, Privileged Exec, Global Configuration mode and all Configuration
submodes
User Guidelines
This command has no user guidelines.
Example
console(config)#show ip igmp snooping
Admin Mode..................................... Enable
IGMP Router-Alert check........................ Enabled
Multicast Control Frame Count.................. 0
SSM FDB Capacity............................... 0
SSM FDB Current Entries........................ 0
SSM FDB High Water Mark. ...................... 0
Flooding Unregistered to All Ports............. Disabled
Vlan 1:
--------
IGMP Snooping Admin Mode....................... Enabled
Immediate Leave Mode........................... Disabled
Group Membership Interval...................... 260
Last Member Query Interval..................... 10
Multicast Router Expiry Time................... 300
Report Suppression Mode........................ Enabled
Layer 2 Switching Commands 471
show ip igmp snooping groups
Use the show ip igmp snooping groups command in User Exec mode to
display the Multicast groups learned by IGMP snooping and IGMP SSM
entries.
Syntax
show ip igmp snooping groups [vlan vlan-id] [address ip-multicast-address]
• vlan-id — Specifies a VLAN ID value.
• ip-multicast-address — Specifies an IP Multicast address.
Default Configuration
This command has no default configuration.
Command Mode
User Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
To see the full Multicast address table (including static addresses) use the
show mac address-table
command.
Example
This example shows IGMPv2 snooping entries
console(config)#show ip igmp snooping groups
Vlan Group Type OIFs
---- ----------------------- ------- ------------------------------------
1 224-239.129|1.2.3 Dynamic Te1/0/1,Te1/0/17
IGMP SSM Entries:
-------------------
VLAN Group Reporter Filter IIF Source Address
---- ------------------ ----------------- ------- ---------- ---------------
1 224.2.2.2 192.168.10.2 include Te1/0/1 1.1.1.2
2.2.2.2
Layer 2 Switching Commands 472
1 224.3.3.3 192.168.10.2 include Te1/0/1 4.4.4.4
VLAN Group Reporter Filter IIF Source Address
---- --------------------- ----------------- ------- ---------- -----------
1 224.2.2.2 192.168.10.2 include Te1/0/1 1.1.1.2
console(config)#show ip igmp snooping
Admin Mode..................................... Enable
IGMP Router-Alert check........................ Disabled
Multicast Control Frame Count.................. 6847
SSM FDB Capacity............................... 128
SSM FDB High Water Mark........................ 1
SSM FDB Current Entries........................ 1
Flooding Unregistered to All Ports............. Disabled
Vlan 1:
--------
IGMP Snooping Admin Mode....................... Enabled
Immediate Leave Mode........................... Disabled
Group Membership Interval...................... 260
Last Member Query Interval..................... 10
Multicast Router Expiry Time................... 300
Report Suppression Mode........................ Enabled
show ip igmp snooping mrouter
Use the show ip igmp snooping mrouter command to display information on
dynamically learned Multicast router interfaces.
Syntax
show ip igmp snooping mrouter
Default Configuration
This command has no default configuration.
Command Mode
User Exec, Privileged Exec mode, Global Configuration mode and all
Configuration submodes
Layer 2 Switching Commands 473
User Guidelines
This command has no user guidelines.
Example
The following example shows IGMP snooping mrouter information.
console#show ip igmp snooping mrouter
VLAN ID Port
------- -----------
10 Gi2/0/1
ip igmp snooping vlan immediate-leave
This command enables or disables IGMP Snooping immediate-leave mode
on a selected VLAN. Enabling immediate-leave allows the switch to
immediately remove the layer 2 LAN interface from its forwarding table entry
upon receiving an IGMP leave message for that multicast group without first
sending out MAC-based general queries to the interface. The no form of this
command disables IGMP Snooping immediate-leave mode on a VLAN.
You should enable immediate-leave admin mode only on VLANs where only
one host is connected to each layer 2 LAN port. This setting prevents the
inadvertent dropping of the other hosts that were connected to the same layer
2 LAN port but were still interested in receiving multicast traffic directed to
that group. Also, immediate-leave processing is supported only with IGMP
version 2 hosts.
Syntax
ip igmp snooping vlan vlan-id immediate-leave
no ip igmp snooping vlan vlan-id immediate-leave
• vlan id — A VLAN identifier (range 1-4093).
Default Configuration
IGMP snooping immediate-leave mode is disabled on VLANs by default.
Command Mode
Global Configuration mode
Layer 2 Switching Commands 474
User Guidelines
This command has no user guidelines.
Example
The following example enables IGMP snooping immediate-leave mode on
VLAN 2.
console(config)#ip igmp snooping vlan 2 immediate-leave
ip igmp snooping vlan groupmembership-interval
This command sets the IGMP Group Membership Interval time on a VLAN.
The Group Membership Interval time is the amount of time in seconds that a
switch waits for a report from a particular group on a particular interface
before deleting the interface from the entry. This value must be greater than
the IGMPv3 Maximum Response time value. The range is 2 to 3600 seconds.
The no form of this command sets the IGMPv3 Group Membership Interval
time to the default value.
Syntax
ip igmp snooping vlan vlan-id groupmembership-interval time
no ip igmp snooping vlan vlan-id groupmembership-interval
• vlan-id — A VLAN identifier (Range 1-4093).
• time — IGMP group membership interval time in seconds. (Range: 2–
3600)
Default Configuration
The default group membership interval time is 260 seconds.
Command Mode
Global Configuration mode
User Guidelines
This command has no user guidelines.
Layer 2 Switching Commands 475
Example
The following example configures an IGMP snooping group membership
interval of 1500 seconds on VLAN 2.
console(config)#ip igmp snooping vlan 2 groupmembership-interval 1500
ip igmp snooping vlan last-member-query-
interval
This command sets the last-member-query interval on a particular VLAN.
The last-member-query-interval is the amount of time in seconds after which
a host is considered to have left the group. This value must be less than the
IGMP Query Interval time value. The range is 1 to 25 seconds. The no form
of this command sets the last-member-query-interval on the VLAN to the
default value.
Syntax
ip igmp snooping vlan vlan-id last-member-query-interval time
no ip igmp snooping vlan vlan-id last-member-query-interval
• vlan-id — A VLAN identifier (Range 1-4093).
• time — Number of seconds after which a host is considered to have left
the group. (Range: 1-25)
Default Configuration
The default maximum response time is 10 seconds.
Command Mode
Global Configuration mode
User Guidelines
When using IGMP Snooping Querier, this parameter should be less than the
value for the IGMP Snooping Querier query interval.
Example
The following example sets the maximum response time to 7 seconds on
VLAN 2.
Layer 2 Switching Commands 476
console(config)#ip igmp snooping vlan 2 last-member-query-interval 7
ip igmp snooping vlan mcrtrexpiretime
This command sets the Multicast Router Present Expiration time. The time
is set on a particular VLAN. This is the amount of time in seconds that a
switch waits for a query to be received on an interface before the interface is
removed from the list of interfaces with multicast routers attached. The range
is 1–2147483647 seconds. A value of 0 indicates an infinite time-out (no
expiration). The no form of this command sets the Multicast Router Present
Expiration time to 0. The time is set for a particular VLAN.
Syntax
ip igmp snooping vlan vlan-id mcrtexpiretime time
no ip igmp snooping vlan vlan-id mcrtexpiretime time
• vlan-id — A VLAN identifier (Range 1-4093).
• time— Multicast router present expiration time. (Range: 1–3600)
Default Configuration
The default multicast router present expiration time is 300 seconds.
Command Mode
Global Configuration mode
User Guidelines
The mcrexpiretime should be less than the group membership interval.
Example
The following example sets the multicast router present expiration time on
VLAN 2 to 60 seconds.
console(config)#ip igmp snooping vlan 2 mcrtrexpiretime 1500
ip igmp snooping report-suppression
This command enables IGMP report suppression on a specific VLAN. The no
form of this command disables report suppression.
Layer 2 Switching Commands 477
Syntax
ip igmp snooping vlan vlan-id report-suppression
no ip igmp snooping vlan vlan-id report-suppression
• vlan-id — A VLAN identifier (Range 1-4093).
Default Configuration
Report suppression is enabled by default.
Command Mode
Global Configuration mode
User Guidelines
When IGMP report suppression is enabled, the switch only sends the first
report received for a group in response to a query. Report suppression is only
applicable to IGMPv1 and IGMPv2.
Example
The following example sets the snooping report suppressions time to 10
seconds.
console(config)#ip igmp snooping vlan 10 report-suppression
ip igmp snooping unregistered floodall
This command enables flooding of unregistered multicast traffic to all ports
in the VLAN. Use the no form of this command to only flood unregistered
multicast traffic to multicast router ports.
Syntax
ip igmp snooping unregistered floodall
no ip igmp snooping unregistered floodall
Default Configuration
Unregistered multicast traffic is only flooded to router ports by default.
Layer 2 Switching Commands 478
Command Mode
Global Configuration mode.
User Guidelines
There is no equivalent MLD command since this setting applies to both
protocols.
Example
console(config)#ip igmp snooping unregistered floodall
ip igmp snooping vlan mrouter
This command statically configures a port as connected to a multicast router
for a specified VLAN. Use the no form of this command to remove the static
binding.
Syntax
ip igmp snooping vlan vlan-id mrouter interface interface-id
no ip igmp snooping vlan vlan-id mrouter interface interface-id
• vlan-id — A VLAN identifier (Range 1-4093).
• interface-id—The next-hop interface to the multicast router. Ethernet
interface identifiers and port channel identifiers are allowed.
Default Configuration
There are no multicast router ports configured by default.
Command Mode
Global Configuration mode.
User Guidelines
It is preferable to configure mrouter ports for IGMP snooping as opposed to
configuring a static MAC address entry for the router. A static MAC address
entry is tied to a specific port whereas an mrouter configuration will
dynamically learn the MAC address of the router. Multiple mrouter ports may
be configured for a VLAN.
Layer 2 Switching Commands 479
IGMP snooping will consider that an mrouter is active if an mrouter port is
defined in the VLAN, regardless of whether the mrouter port is up or not. If
an mrouter port is defined, IGMP snooping will not flood multicast source
packets received in the VLAN. This behavior can be used to ensure that
IGMP snooping will selectively forward IPv4 multicast data traffic in a VLAN
even if no dynamically discovered IPv4 multicast router has been discovered.
Multicast data plane traffic from multicast sources in a VLAN is always
forwarded to the mrouter ports in the VLAN. Multicast control plane packets
(those addressed to the reserved 224.0.0.X address) are always flooded in the
VLAN, regardless of whether an mrouter port is defined or not.
Example
console(config)#ip igmp snooping vlan 10 mrouter interface Gi1/0/2
Layer 2 Switching Commands 480
IGMP Snooping Querier Commands
Dell EMC Networking N1100-ON/N1500/N2000/N2100-
ON/N3000/N3100-ON/N4000 Series Switches
The IGMP Snooping Querier is an extension to the IGMP Snooping feature.
IGMP Snooping Querier allows the switch to simulate an IGMP router in a
Layer 2-only network, thus removing the need to have an IGMP Router to
collect and refresh the multicast group membership information. The querier
function simulates a small subset of the IGMP router functionality. IGMP
Snooping Querier is not recommended for networks in which a multicast
router is reachable.
In a network with IP multicast routing, an IP multicast router acts as the
IGMP querier. However, if it is required that the IP-multicast traffic in a
VLAN be switched and no multicast router is present in the network, the Dell
EMC Networking switch can be configured as an IGMP querier. When IGMP
Snooping Querier is enabled, the Querier sends out periodic IGMP General
Queries that trigger the multicast listeners/members to send their joins to the
querier so as to receive the multicast data traffic. IGMP snooping listens to
these reports to establish the appropriate L2 forwarding table entries.
The Dell EMC Networking supports version IGMP V1 and 2 for snooping
IGMP queries.
Commands in this Section
This section explains the following commands:
ip igmp snooping querier
This command enables IGMP Snooping Querier on the system (Global
Configuration mode) or on a VLAN. Using this command, you can specify
the IP address that the snooping querier switch should use as the source
ip igmp snooping querier ip igmp snooping querier timer expiry
ip igmp snooping querier election
participate
ip igmp snooping querier version
ip igmp snooping querier query-interval show ip igmp snooping querier
Layer 2 Switching Commands 481
address when generating periodic queries. The no form of this command
disables IGMP Snooping Querier on the system. Use the optional address
parameter to set or reset the querier address.
If a VLAN has IGMP Snooping Querier enabled, and IGMP Snooping is
operationally disabled on the VLAN, IGMP Snooping Querier functionality is
disabled on that VLAN. IGMP Snooping Querier functionality is reenabled if
IGMP Snooping becomes operational on the VLAN.
The IGMP Snooping Querier application sends periodic general queries on
the VLAN to solicit membership reports.
Syntax
ip igmp snooping querier [vlan vlan-id] [address ip-address]
no ip igmp snooping querier [vlan vlan-id][address]
• vlan-id — A valid VLAN number.
• ip-address — An IPv4 address used for the source address.
Default Configuration
The IGMP Snooping Querier feature is globally disabled on the switch.
When enabled, the IGMP Snooping Querier stops sending queries if it
detects IGMP queries from a multicast-enabled router. The Snooping
Querier periodically (querier timer expiry) wakes up and listens for IGMP
queries, and if found, goes back to sleep. If no IGMP queries are heard, then
the Snooping Querier will resume querying.
Command Mode
Global Configuration mode
User Guidelines
When using the command in Global Configuration mode to configure a
snooping querier source address, the IPv4 address is the global querier
address. When using the command in VLAN Configuration mode to
configure a snooping querier source address, the IPv4 address is the querier
address for the VLAN. If there are no global or VLAN querier addresses
configured, then the management IP address is used as the IGMP snooping
querier source address. Using all zeros for the querier IP address disables it.
Layer 2 Switching Commands 482
The VLAN IP address takes precedence over the global IP address when both
are configured. IGMP Querier does not detect when the local switch is
configured as a multicast router. It is not recommended to configure both L3
multicast routing and IGMP Querier on the same switch.
IGMP snooping (and IGMP querier) validates IGMP packets. As part of the
validation, IGMP checks for the router alert option. If other devices in the
network do not send IGMP packets with the router alert option, IGMP
snooping (and snooping querier) will discard the packet. Use the no ip igmp
snooping router-alert-check command to disable checking for the router alert
option.
Example
The following example enables IGMP snooping querier in Global
Configuration mode.
console(config)#ip igmp snooping querier vlan 1 address 10.19.67.1
ip igmp snooping querier election participate
This command enables the Snooping Querier to participate in the Querier
Election process when it discovers the presence of another Snooping Querier
in the VLAN. When election mode is enabled, if the Snooping Querier finds
that the other Querier source address is numerically higher than the
Snooping Querier address, it stops sending periodic queries. The Snooping
Querier with the numerically lower IP address wins the election, and
continues sending periodic queries. The no form of this command sets the
snooping querier not to participate in the querier election but to stop sending
queries as soon as it discovers the presence of another querier in the VLAN.
Syntax
ip igmp snooping querier election participate vlan-id
no ip igmp snooping querier election participate vlan-id
Parameters
• vlan-id—The VLAN identifier on which the querier is expected to operate.
Range 1-4093.
Layer 2 Switching Commands 483
Default Configuration
The snooping querier is configured to not participate in the querier election
by default.
Command Mode
Global Configuration mode
User Guidelines
If the switch detects another querier in the VLAN, it will cease sending
queries for the querier timeout period.
Example
The following example configures the snooping querier to participate in the
querier election on VLAN 10.
console(config)#ip igmp snooping querier election participate 10
ip igmp snooping querier query-interval
This command sets the IGMP Querier Query Interval time, which is the
amount of time in seconds that the switch waits before sending another
periodic query. The no form of this command sets the IGMP Querier Query
Interval time to its default value.
Syntax
ip igmp snooping querier query-interval interval-count
no ip igmp snooping querier query-interval
• interval–count — Amount of time in seconds that the switch waits before
sending another general query. (Range: 1-1800)
Default Configuration
The query interval default is 60 seconds.
Command Mode
Global Configuration mode
Layer 2 Switching Commands 484
User Guidelines
The value of this parameter should be larger than the IGMP Max Response
Time value inserted into general query messages by the querier. The default
IGMP Max Response Time is defined in RFC 3376 as 10 seconds. Dell EMC
Networking queriers use this value when sending general query messages.
Use the show ip igmp snooping querier vlan command to display the
operational max response time value.
Example
The following example sets the query interval to 1800:
console(config)#ip igmp snooping querier query-interval 1800
ip igmp snooping querier timer expiry
This command sets the IGMP Querier timer expiration period which is the
time period that the switch remains in Non-Querier mode after it has
discovered that there is a Multicast Querier in the network. The no form of
this command sets the IGMP Querier timer expiration period to its default
value.
Syntax
ip igmp snooping querier timer expiry seconds
no ip igmp snooping querier timer expiry
• seconds — The time in seconds that the switch remains in Non-Querier
mode after it has discovered that there is a multicast querier in the
network. The range is 60–300 seconds.
Default Configuration
The query interval default is 60 seconds.
Command Mode
Global Configuration mode
User Guidelines
This command has no user guidelines.
Layer 2 Switching Commands 485
Example
The following example sets the querier timer expiry time to 100 seconds.
console(config)#ip igmp snooping querier timer expiry 100
ip igmp snooping querier version
This command sets the IGMP version of the query that the snooping switch
is going to send periodically. The no form of this command sets the IGMP
Querier Version to its default value.
Syntax
ip igmp snooping querier version version
no ip igmp snooping querier version
• version — IGMP version. (Range: 1–2)
Default Configuration
The querier version default is 2.
Command Mode
Global Configuration mode
User Guidelines
This command has no user guidelines.
Example
The following example sets the IGMP version of the querier to 1.
console(config)#ip igmp snooping querier version 1
show ip igmp snooping querier
This command displays IGMP Snooping Querier information. Configured
information is displayed whether or not IGMP Snooping Querier is enabled.
If a querier is active in the network and IGMP snooping querier is enabled,
the querier’s IP address is shown in the Last Querier Address field.
Layer 2 Switching Commands 486
Syntax
show ip igmp snooping querier [detail | vlan vlan-id]
• vlan-id —Specifies a VLAN ID value.
Default Configuration
This command has no default configuration.
Command Mode
User Exec, Privileged Exec mode, Global Configuration mode and all
submodes
User Guidelines
When the optional argument vlan-id is not used, the command shows the
following information.
When a value is given for vlan-id, the following information appears.
Parameter Description
IGMP Snooping
Querier
Indicates whether or not IGMP Snooping Querier is active on
the switch.
IGMP Version Indicates the version of IGMP that will be used while sending
out the queries.
Querier Address Shows the IP address that is used in the IPv4 header when
sending out IGMP queries. It can be configured using the
appropriate command.
Querier Query
Interval
Shows the amount of time in seconds that a Snooping Querier
waits before sending out the periodic general query.
Querier Expiry
Interval
Displays the amount of time to wait in the Non-Querier
operational state before moving to a Querier state.
Parameter Description
IGMP Snooping
Querier VLAN
Mode
Indicates whether IGMP Snooping Querier is active on the
VLAN.
Layer 2 Switching Commands 487
If no querier has been elected, the Elected Querier output is not shown. If the
querier has not received any queries, then the Last Querier Address
information is not shown. When the optional argument detail is used, the
command shows the global information and the information for all Querier
enabled VLANs.
Example
The following example shows querier information for VLAN 1.
console#show ip igmp snooping querier vlan 1
Vlan 1 : IGMP Snooping querier status
----------------------------------------------
IGMP Snooping Querier Vlan Mode................ Enable
Querier Election Participate Mode.............. Disable
Querier Vlan Address........................... 10.19.67.1
Operational State Indicates whether IGMP Snooping Querier is in the Querier or
Non-Querier state. When the switch is in Querier state it sends
out periodic general queries. When in Non-Querier state it
waits for moving to Querier state and does not send out any
queries.
VLAN Operational
Max Response Time
Indicates the time to wait before removing a Leave from a host
upon receiving a Leave request. This value is calculated
dynamically from the Queries received from the network. If the
Snooping Switch is in Querier state, then it is equal to the
configured value.
Querier Election
Participate Mode
Indicates whether the IGMP Snooping Querier participates in
querier election if it discovers the presence of a querier in the
VLAN.
Last Address Indicates the IP address of the most recent Querier from which
a Query was received.
Operational Version Indicates the IGMP version of the most recent Querier from
which a Query was received on this VLAN.
Elected Querier Indicates the IP address of the Querier that has been
designated as the Querier based on its source IP address. This
field will be 0.0.0.0 when Querier Election Participate mode is
disabled.
Parameter Description
Layer 2 Switching Commands 488
Operational State.............................. Querier
Operational version............................ 1
Layer 2 Switching Commands 489
Interface Error Disable and Auto
Recovery
Dell EMC Networking N1100-ON/N1500/N2000/N2100-
ON/N3000/N3100-ON/N4000 Series Switches
Interface error disable automatically disables an interface when an error is
detected; no traffic is allowed until the interface is either manually re-enabled
or, if auto recovery is configured, the configured auto recovery time interval
has passed.
For interface error disable and auto recovery, when an error condition is
detected for an interface, the interface is placed in a diagnostic disabled state
by shutting down the interface. The error disabled interface does not allow
any traffic until the interface is re-enabled. The error disabled interface can
be manually enabled using the no shutdown command. Alternatively
administrator can enable auto recovery feature. Dell EMC Networking Auto
Recovery re-enables the interface after the expiry of configured time interval.
Commands in this Section
This section explains the following commands:
errdisable recovery cause
Use the errdisable recovery cause command to enable automatic recovery of
any interface when disabled from the listed cause. Use the no form of the
command to disable auto-recovery globally or for a specific cause.
Syntax
errdisable recovery cause {all | arp-inspection | bpduguard | dhcp-rate-
limit | sfp-mismatch | sfpplus-mismatch | udld | ucast-storm | bcast-storm
| mcast-storm | bpdustorm | loop-protect | port-security}
• All — Recovery for all possible causes is enabled.
errdisable recovery cause show errdisable recovery
errdisable recovery interval show interfaces status err-disabled
Layer 2 Switching Commands 490
• arp-inspection — Recovery for the dynamic ARP inspection cause is
enabled.
• dhcp-rate-limit — Recovery for the DHCP rate limit cause is enabled.
• bcast-storm — Recovery for broadcast storm disabled interfaces is enabled.
• bpdustorm — Recovery for BPDU storm disabled interfaces is enabled.
• bpduguard — Recovery for BPDU protection disabled interfaces is
enabled.
• loop-protect — Recovery for loop protection disabled interfaces is enabled.
• mcast-storm — Recovery for multicast storm disabled interfaces is
enabled.
• port-security — Recovery for port security violations is enabled.
• sfp-mismatch — Recovery for insertion of an unsupported transceiver.
• sfpplus-mismatch — Recovery for insertion of an SFP+ transceiver in an
SFP port.
• udld — Recovery for UDLD disabled interfaces is enabled.
• ucast-storm — Recovery for unicast storm disabled interfaces is enabled.
Default Configuration
No recovery causes are enabled by default.
Command Mode
Global Configuration mode
User Guidelines
Error disabled interfaces indicate that a problem occurred that must be
resolved by the administrator. This could be a configuration problem or a
physical problem (wiring) and does not necessarily indicate a problem with
the switch.
This command enables auto-recovery of an interface for the specified cause
(e.g., bpduguard) or all causes. An interface in the disabled state due to the
configured cause is recovered (link up) when the recovery interval expires. If
Layer 2 Switching Commands 491
the interface continues to encounter errors (from any listed cause), it may be
placed back in the diag-disable state and the interface will be disabled (link
down).
Interfaces in the disabled state due to a listed cause may be manually
recovered by entering the no shutdown command for the interface.
Interfaces in the disabled state may be manually shut down. These interfaces
will not be recovered.
Auto-recovery applies to physical interfaces and link aggregation groups.
Command History
Implemented in version 6.3.0.1 firmware.
Example
The following example enables auto-recovery for all causes.
console(config)#errdisable recovery cause all
errdisable recovery interval
Use the errdisable recovery interval command to configure the interval for
error recovery of interfaces disabled due to any cause. Use the no form of the
command to reset the interval to the default.
Syntax
errdisable recovery interval interval
• interval — The interval in seconds. The range is 30-3600 seconds. The
default is 300 seconds.
Default Configuration
The default interval is 300 seconds. Range 30-3600 seconds.
No recovery causes are enabled by default.
Command Mode
Global Configuration mode
Layer 2 Switching Commands 492
User Guidelines
Error disabled interfaces indicate that a problem that must be resolved by the
administrator. This could be a configuration problem or a physical problem
and does not necessarily indicate a problem with the switch.
When the interval expires, the system examines the error disabled interfaces
and recovers them if recovery for the indicated cause is enabled. Only a single
timer is used and recovery occurs when the timer expires, not when the
interface time expires.
Interfaces recovered by auto-recovery issue a log message indicating that
recovery is being attempted.
<13> Sep 25 14:38:32 10.130.135.107-1 UDLD[nim_t]: udld_util.c(1829) 87 %%
Interface Gi1/0/1 is restored from the error disabled state.
Command History
Implemented in version 6.3.0.1 firmware.
Example
The following example sets the error recovery timer to 30 seconds.
console(config)#errdisable recovery interval 30
show errdisable recovery
Use the show errdisable recovery command to display the error disable
configuration for each possible cause.
Syntax
show errdisable recovery
Default Configuration
By default, no recovery causes are enabled.
Command Mode
Global Configuration mode
Layer 2 Switching Commands 493
User Guidelines
Error disabled interfaces indicate that a problem that must be resolved by the
administrator. This could be a configuration problem or a physical problem
and does not necessarily indicate a problem with the switch.
When the interval expires, the system examines the error disabled interfaces
and recovers them if recovery for the indicated cause is enabled. Only a single
timer is used and recovery occurs when the timer expires, not when the
interface time expires.
Interfaces recovered by auto-recovery issue a log message indicating that
recovery is being attempted.
<13> Sep 25 14:38:32 10.130.135.107-1 UDLD[nim_t]: udld_util.c(1829) 87 %%
Interface Gi1/0/1 is restored from the error disabled state.
The following information is displayed.
Command History
Implemented in version 6.3.0.1 firmware.
Term Description
ARP inspection ARP inspection auto-recovery.
BPDU Guard BPDU guard auto-recovery.
Broadcast Storm Broadcast storm auto-recovery.
BPDU Storm BPDU storm auto-recovery.
DHCP Rate Limit DHCP rate limit auto-recovery.
Loop Protection Loop protection auto-recovery.
Multicast Storm Multicast storm auto-recovery.
SFP Mismatch SFP mismatch auto-recovery.
SFP Plus Mismatch SFP Plus mismatch auto-recovery.
UDLD UDLD auto-recovery.
Unicast Storm Unicast storm auto-recovery.
Port MAC Locking Port security auto-recovery.
Denial Of Service Denial of Service auto-recovery.
Time interval for auto-recovery in seconds.
Layer 2 Switching Commands 494
Example
console(config)#show errdisable recovery
Reason Auto-recovery Status
------------------ ---------------------
ARP Inspection Disabled
BPDU Guard Disabled
Broadcast Storm Disabled
BPDU Storm Disabled
DHCP Rate Limit Disabled
Loop Protect Disabled
Multicast Storm Disabled
SFP Mismatch Disabled
SFP Plus Mismatch Disabled
UDLD Disabled
Unicast Storm Disabled
Port MAC Locking Disabled
Denial of Service Disabled
Interval for auto-recovery of error disabled interfaces: 300 seconds
show interfaces status err-disabled
Use the show interfaces status err-disabled command to display the
interfaces that are error disabled by the system.
Syntax
show interfaces status err-disabled
Default Configuration
No recovery causes are enabled by default.
Command Mode
Privileged Exec mode, Global Configuration mode and all submodes
User Guidelines
Error disabled interfaces indicate that a problem that must be resolved by the
administrator. This could be a configuration problem or a physical problem
and does not necessarily indicate a problem with the switch.
Layer 2 Switching Commands 495
When the interval expires, the system examines the error disabled interfaces
and recovers them if recovery for the indicated cause is enabled. Only a single
timer is used and recovery occurs when the timer expires, not when the
interface time expires. The recovery delay time indicates the number of
seconds until the interface is eligible for recovery if auto-recovery is enabled
for the indicated cause.
Interfaces recovered by auto-recovery issue a log message indicating that
recovery is being attempted.
<13> Sep 25 14:38:32 10.130.135.107-1 UDLD[nim_t]: udld_util.c(1829) 87 %%
Interface Gi1/0/1 is restored from the error disabled state.
The possible causes for error disabled interfaces are:
Command History
Implemented in version 6.3.0.1 firmware.
Term Description
ARP inspection ARP inspection auto-recovery.
BPDU Guard BPDU guard auto-recovery.
Broadcast Storm Broadcast storm auto-recovery.
BPDU Storm BPDU storm auto-recovery.
DHCP Rate Limit DHCP rate limit auto-recovery.
Loop Protection Loop protection auto-recovery.
Multicast Storm Multicast storm auto-recovery.
SFP Mismatch SFP mismatch auto-recovery.
SFP Plus Mismatch SFP Plus mismatch auto-recovery.
UDLD UDLD auto-recovery.
Unicast Storm Unicast storm auto-recovery.
Port MAC Locking Port security auto-recovery.
Denial Of Service Denial of Service auto-recovery.
Time interval for auto-recovery in seconds.
Layer 2 Switching Commands 496
Example
The following example
console#show interfaces status err-disabled
Interface Reason Recovery Delay
---------- ----------------- --------------
Gi1/0/1 UDLD 279
Gi1/0/2 BPDU Guard 285
Gi1/0/3 BPDU Storm 291
Layer 2 Switching Commands 497
IPv6 Access List Commands
Dell EMC Networking N1100-ON/N1500/N2000/N2100-
ON/N3000/N3100-ON/N4000 Series Switches
Access to a switch or router can be made more secure through the use of
Access Control Lists (ACLs) to control the type of traffic allowed into or out
of specific ports. An ACL consists of a series of rules, each of which describes
the type of traffic to be processed and the actions to take for packets that
meet the classification criteria. Rules within an ACL are evaluated
sequentially until a match is found, if any. Every ACL is terminated by an
implicit deny all rule, which covers any packet not matching a preceding
explicit rule. ACLs can help to ensure that only authorized users have access
to specific resources while blocking out any unwarranted attempts to reach
network resources.
ACLs may be used to restrict contents of routing updates, decide which types
of traffic are forwarded or blocked and, above all, provide security for the
network. ACLs are normally used in firewall routers that are positioned
between the internal network and an external network, such as the Internet.
They can also be used on a router positioned between two parts of the
network to control the traffic entering or exiting a specific part of the internal
network.
The Dell EMC Networking ACL feature allows classification of packets based
upon Layer 2 through Layer 4 header information. An Ethernet IPv6 packet is
distinguished from an IPv4 packet by its unique EtherType value; thus all
IPv6 classifiers implicitly include the EtherType field.
Multiple ACLs per interface are supported. The ACLs can be combination of
Layer 2 and/or Layer 3/4 ACLs. ACL assignment is appropriate for both
Ethernet ports and LAGs. ACLs can also be time based.
Commands in this Section
This section explains the following commands:
deny | permit (IPv6 ACL) ipv6 traffic-filter
ipv6 access-list show ipv6 access-lists
ipv6 access-list rename
–
Layer 2 Switching Commands 498
deny | permit (IPv6 ACL)
This command creates a new rule for the current IPv6 access list. Each rule is
appended to the list of configured rules for the list.
A rule may either deny or permit traffic according to the specified
classification fields. At a minimum, either the every keyword or the protocol,
source address, and destination address values must be specified. The source
and destination IPv6 address fields may be specified using the keyword any to
indicate a match on any value in that field. The remaining command
parameters are all optional, but the most frequently used parameters appear
in the same relative order as shown in the command format. An IPv6 ACL
implicitly includes the EtherType in the match criteria.
The assign-queue parameter allows specification of a particular hardware
queue for handling traffic that matches this rule. The assign-queue parameter
is valid only for a permit rule.
The command is enhanced to accept the optional time-range parameter. The
time-range parameter allows imposing a time limitation on the IPv6 ACL rule
as defined by the parameter
time-range-name
. If a time range with the
specified name does not exist, and the IPv6 ACL containing this ACL rule is
applied to an interface or bound to a VLAN, then the ACL rule is applied
immediately. If a time range with the specified name exists, and the IPv6
ACL containing this ACL rule is applied to an interface or bound to a VLAN,
then the ACL rule is applied when the time-range with a specified name
becomes active. The ACL rule is removed when the time-range with a
specified name becomes inactive.
Syntax
[sequence-number] deny | permit (IPV6 ACL)
[sequence number] {deny | permit} {ipv6-protocol | number | every}
{source-ipv6-prefix/prefix-length | any | host source-ipv6-address} [{range
{portkey | startport} {portkey | endport} | {eq | neq | lt | gt} {portkey | 0-
65535}] {destination-ipv6-prefix/prefix-length | any | host destination-ipv6-
address} [{range {portkey | startport} {portkey | endport} | {eq | neq | lt |
gt} {portkey | 0-65535}] [flag [+fin | -fin] [+syn | -syn] [+rst | -rst] [+psh
| -psh] [+ack | -ack] [+urg | -urg] [established]] [flow-label value] [icmp-
type icmp-type [icmp-code icmp-code] | icmp-message icmp-message]
Layer 2 Switching Commands 499
[routing] [fragments] [dscp dscp]}} [time-range time-range-name] [log]
[assign-queue queue-id] [{mirror | redirect} interface-id] [rate-limit rate
burst-size]
no [sequence-number]
• sequence-number — Identifies the order of application of the permit/deny
statement. If no sequence number is assigned, permit/deny statements are
assigned a sequence number beginning at 1000 and incrementing by 10.
Statements are applied in hardware beginning with the lowest sequence
number. Sequence numbers only have applicability within an access group,
i.e. the ordering applies within the access-group scope. The range for
sequence numbers is 1– 2147483647.
•{deny | permit}–Specifies whether the IP ACL rule permits or denies the
matching traffic.
• {ipv6-protocol | number| every }—Specifies the protocol to match for the
IP ACL rule.
– IPv6 protocols: icmpv6, ipv6, sctp, tcp and udp
–Every: Match any protocol (don’t care)
• source-ipv6-prefix/prefixlength | any | host src-ipv6-address—Specifies a
source IP address and netmask to match for the IP ACL rule.
– For IPv6 ACLs, “any” implies a 0::/128 prefix and a mask of all ones.
– Specifying “host X::X” implies a prefix length as “/128” and a mask of
0::/128.
• [{range {portkey | startport} {portkey | endport} | {eq | neq | lt | gt}
{portkey | 0-65535}]—Specifies the layer 4 destination or source port
match condition for the IP/TCP/UDP ACL rule. A source or destination
port number, which ranges from 0-65535, can be entered, or a portkey,
which can be one of the following keywords: bgp, domain, echo, ftp, ftp-
data, http, ntp, pop2, pop3, rip, smtp, snmp, telnet, tftp, telnet, time, who
and www. Each of these keywords translates into its equivalent destination
port number.
– When “range” is specified, IPv6 ACL rule matches only if the layer 4
port number falls within the specified port range. The startport and
endport parameters identify the first and last ports that are part of the
port range. They have values from 0 to 65535. The ending port must
Layer 2 Switching Commands 500
have a value equal or greater than the starting port. The starting port,
ending port, and all ports in between will be part of the layer 4 port
range.
– When “eq” is specified, IPv6 ACL rule matches only if the layer 4 port
number is equal to the specified port number or portkey.
– When “lt” is specified, IPv6 ACL rule matches if the layer 4
destination port number is less than the specified port number or
portkey. It is equivalent to specifying the range as 0 to <specified port
number – 1>.
– When “gt” is specified, IPv6 ACL rule matches if the layer 4
destination port number is greater than the specified port number or
portkey. It is equivalent to specifying the range as <specified port
number + 1> to 65535.
– When “neq” is specified, IPv6 ACL rule matches only if the layer 4
destination port number is not equal to the specified port number or
portkey.
– IPv6 TCP port names: bgp, domain, echo, ftp, ftp-data, http, smtp,
telnet, www, pop2, pop3
– IPv6 UDP port names: domain, echo, ntp, rip, snmp, time, who
• destination-ipv6-prefix/prefix-length | any | host destination-ipv6-
address—Specifies a destination IP address and netmask for match
condition of the IP ACL rule.
– For IPv6 ACLs, “any” implies 0::/128 prefix and a mask of all ones.
– Specifying host implies prefix length as “/128” and a mask of 0::/128.
•[dscp dscp]—Specifies a match of DSCP values.
• flag [+fin | -fin] [+syn | -syn] [+rst | -rst] [+psh | -psh] [+ack | -ack]
[+urg | -urg] [established]—Specifies that the IP/TCP/UDP ACL rule
matches on the TCP flags.
– When “+<tcpflagname>” is specified, a match occurs if specified
<tcpflagname> flag is set in the TCP header.
– When “-<tcpflagname>” is specified, a match occurs if specified
<tcpflagname> flag is *NOT* set in the TCP header.
– When “established” is specified, a match occurs if specified either
RST or ACK bits are set in the TCP header.
Layer 2 Switching Commands 501
– This option is visible only if the protocol is tcp.
–Ack – Acknowledgment bit
–Fin – Finished bit
–Psh – push bit
–Rst – reset bit
–Syn – Synchronize bit
–Urg – Urgent bit
• [icmp-type icmp-type [icmp-code icmp-code] | icmp-message icmp-
message]—Specifies a match condition for ICMP packets.
– When icmp-type is specified, IP ACL rule matches on the specified
ICMP message type, a number from 0 to 255.
– When icmp-code is specified, IP ACL rule matches on the specified
ICMP message code, a number from 0 to 255.
– Specifying icmp-message implies both icmp-type and icmp-code are
specified.
– ICMP message is decoded into corresponding ICMP type and ICMP
code within that ICMP type. This option is visible only if the protocol
is “icmpv6”.
– ICMPv6 message types: destination-unreachable echo-reply echo-
request header hop-limit mld-query mld-reduction mld-report nd-na
nd-ns next-header no-admin no-route packet-too-big port-
unreachable router-solicitation router-advertisement router-
renumbering time-exceeded unreachable
– The icmpv6 message types are available only if the protocol is icmpv6.
• flow-label—Specifies a match on the identified flow label. Range 0–
1048575.
• fragments—Specifies the rule matches packets that are non-initial
fragments (fragment bit asserted). Not valid for rules that match L4
information such as TCP port number since that information is carried in
the initial packet. IPv6 fragments contain an IPv6 Fragment extension
header.
• routing—Specifies that IP ACL rule matches on routed packets. Routed
packets contain an IPv6 “routing” extension header.
Layer 2 Switching Commands 502
• log—Specifies that this rule is to be logged when the rule has been
matched one or more times since the expiry of the last logging interval.
The logging interval is five minutes.
• time-range time-range-name—Allows imposing time limitation on the
ACL rule as defined by the parameter time-range-name. If a time range
with the specified name does not exist and the ACL containing this ACL
rule is applied to an interface or bound to a VLAN, then the ACL rule is
applied immediately. If a time range with specified name exists and the
ACL containing this ACL rule is applied to an interface or bound to a
VLAN, then the ACL rule is applied when the time-range with specified
name becomes active. The ACL rule is removed when the time-range with
specified name becomes inactive.
• assign-queue queue-id—Specifies the assign-queue, which is the queue
identifier to which packets matching this rule are assigned.
• {mirror | redirect} interface-id—Specifies the mirror or redirect Ethernet
interface to which packets matching this rule are copied or forwarded,
respectively.
• rate-limit rate burst-size—Specifies the allowed rate of traffic as per the
configured rate in Kbps, and burst-size in kbytes.
– Rate – the committed rate in kilobits per second
– Burst-size – the committed burst size in Kilobytes.
Default Configuration
An implicit deny all condition is added by the system after the last MAC or
IP/IPv6 access group if no route-map is configured on the interface.
Command Mode
IPv6-Access-List Configuration mode
User Guidelines
Users are permitted to add rules, but if a packet does not match any user-
specified rules, the packet is dropped by the implicit “deny all” rule.
In order to provide the greatest amount of flexibility in configuring ACLs, the
permit/deny syntax allows combinations of matching criteria that may not
make sense when applied in practice.
Layer 2 Switching Commands 503
Any – is equivalent to ::/0 for IPv6 access lists.
Host - indicates /128 prefix length for IPv6.
Port ranges are not supported for egress (out) IPv6 traffic-filters. This means
that only the eq operator is supported for egress (out) ACLs.
The protocol type must be SCTP, TCP or UDP to specify a port range. The
protocol type must be IPv6, SCTP, TCP, ICMPv6, or UDP to specify a flow
label.
The IPv6 “fragment” and “routing” keywords are not supported on egress
(out) access groups. The log action is supported for both permit and deny
rules.
If a permit|deny clause is entered with the same sequence number as an
existing rule, the configuration is denied with an error message.
An implicit deny all condition is added by the system after the last MAC or
IP/IPv6 access group if no route-map is configured on the interface.
Every permit/deny rule that does not have a rate-limit parameter is assigned a
counter. If counter resources become exhausted, a warning is issued and the
rule is applied to the hardware without the counter.
If a permit|deny clause is entered with the same sequence number as an
existing rule, an error is displayed and the existing rule is not updated with
the new information.
Since ACLs have an implicit deny all at the end of the last access-group, IPv6
ACLs need an explicit permit icmp any any nd-na and permit icmp any any
nd-ns statements as match conditions. These additional conditions allow for
ICMPv6 neighbor discovery to occur.
For the N4000 series:
• The IPv6 ACL “routing” keyword is not supported when an IPv6 address is
specified.
• For ingress (in) ACLs, the IPv6 ACL “fragment” keyword matches only on
the first two IPv6 extension headers for the fragment header (next header
code 44). If the fragment header appears in the third or subsequent header,
it is not matched.
The rate-limit command is not supported for egress (out) access groups.
Layer 2 Switching Commands 504
For the N1100-ON/N1500/N2000/N2100-ON/N3000/N3100-ON series
switches, for ingress (in) ACLs:
• The IPv6 ACL “fragment” keyword matches only on the first IPv6
extension header for the fragment header (next header code 44). If the
fragment header appears in the second or a subsequent header, it is not
matched.
• The IPv6 ACL “routing” keyword matches only on the first IPv6 extension
header for the routing header (next header code 43). If the fragment
header appears in the second or a subsequent header, it is not matched.
• For all series switches, port ranges are not supported on egress (out) ACLs.
Only the eq operator is supported in an egress ACL.
Command History
Updated in 6.3.0.1 firmware.
Example and description updated in the 6.4 release.
Example
The following example creates rules in an IPv6 ACL named "STOP_HTTP"
to discard any HTTP traffic from the 2001:DB8::0/32 network, but allow all
other traffic from that network:
console(config)#ipv6 access-list STOP_HTTP
console(Config-ipv6-acl)#deny tcp 2001:DB8::0/32 any eq http
console(Config-ipv6-acl)#permit every
ipv6 access-list
The ipv6 access-list command creates an IPv6 Access Control List (ACL)
consisting of classification fields defined for the IP header of an IPv6 frame.
The
name
parameter is a case-sensitive alphanumeric string from 1 to 31
characters uniquely identifying the IPv6 access list.
If an IPv6 ACL with this name already exists, this command enters Ipv6-
Access-List Configuration mode to update the existing IPv6 ACL.
Use the no form of the command to delete an IPv6 ACL from the system.
Layer 2 Switching Commands 505
Syntax
ipv6 access-list name
no ipv6 access-list name
• name — Alphanumeric string of 1 to 31 characters uniquely identifying
the IPv6 access list.
Default Configuration
There is no default configuration for this command.
Command Mode
Global Configuration mode
User Guidelines
There are no user guidelines for this command
Example
The following example creates an IPv6 ACL named “DELL_IP6” and enters
the IPv6-Access-List Configuration mode:
console(config)#ipv6 access-list DELL_IP6
console(Config-ipv6-acl)#
ipv6 access-list rename
The ipv6 access-list rename command changes the name of an IPv6 Access
Control List (ACL). This command fails if an IPv6 ACL with the new name
already exists.
Syntax
ipv6 access-list rename name newname
• name — the name of an existing IPv6 ACL.
• newname — alphanumeric string from 1 to 31 characters uniquely
identifying the IPv6 access list.
Default Configuration
There is no default configuration for this command.
Layer 2 Switching Commands 506
Command Mode
Global Configuration mode
User Guidelines
There are no user guidelines for this command.
Example
console(config)#ipv6 access-list rename DELL_IP6 DELL_IP6_NEW_NAME
ipv6 traffic-filter
The ipv6 traffic-filter command either attaches a specific IPv6 Access
Control List (ACL) to an interface or associates it with a VLAN ID in a given
direction.
Dell EMC Networking switches support configuration of multiple access
groups on interfaces. An optional sequence number may be specified to
indicate the order of this access list relative to other IPv6 access lists already
assigned to this interface and direction. A lower number indicates higher
precedence order. If a sequence number is already in use for this interface and
direction, the specified IPv6 access list replaces the currently attached IPv6
access list using that sequence number. If the sequence number is not
specified for this command, a sequence number that is one greater than the
highest sequence number currently in use for this interface and direction is
used.
Use the “no” form of the command to remove an IPv6 ACL from the
interface(s) in a given direction.
Syntax
ipv6 traffic-filter name [in | out | control-plane][seq-num]
no ipv6 traffic-filter name [in | out | control-plane]
•name — Alphanumeric string of 1 to 31 characters uniquely identifying
the IPv6 access list.
• in — The access list is applied to ingress packets.
• out—The access list is applied to egress packets.
Layer 2 Switching Commands 507
• control-plane—The access list is applied to ingress control plane packets.
This parameter is only available in Global Configuration mode.
• seq-num — Order of access list relative to other access lists already
assigned to this interface and direction. (Range: 1–4294967295)
Default Configuration
No IPv6 traffic filters are configured by default.
Command Modes
Global Configuration mode, Interface Configuration (Ethernet, Port-
channel, VLAN) mode
User Guidelines
This command specified in Interface Configuration mode only affects a
single interface, whereas the Global Configuration mode setting is applied to
all interfaces. The optional control-plane keyword allows application of an
ACL on the CPU port ingress queue. Control plane packets (e.g., BPDUs) are
dropped because of the implicit deny all rule added at the end of every access
control list. To mitigate this behavior, permit rules must be added by the
operator to allow the appropriate control plane packets to ingress the CPU
(i.e., ARP, DHCP, LACP, STP BPDU, etc.). The control-plane keyword does
not filter traffic received over the out-of-band port.
Example
The following example attaches an IPv6 access control list to an interface.
console(config-if-Gi1/0/1)#ipv6 traffic-filter DELL_IP6 in
Command History
Syntax updated in the 6.4 release.
show ipv6 access-lists
Use the show ipv6 access-lists command in User Exec and Privileged Exec
mode to display an IPv6 access list and all of the rules that are defined for the
IPv6 ACL. Use the [name] parameter to identify a specific IPv6 ACL to
display.
Layer 2 Switching Commands 508
Syntax
show ipv6 access-lists [name]
•
name
—
The name used to identify the IPv6 ACL.
Default Configuration
There is no default configuration for this command.
Command Mode
User Exec, Privileged Exec mode, Global Configuration mode and all
Configuration submodes
User Guidelines
There are no user guidelines for this command.
Example
console#show ipv6 access-lists
Current number of ACLs: 4 Maximum number of ACLs: 100
ACL Name Rules Interface(s) Direction
Count
------------------------------- ----- ------------------------- --------- --
-------
IPv6-ACL 1 Gi1/0/8 Inbound
43981900
asdasd 2 Gi1/0/7 Inbound
3981901
console#show ipv6 access-lists IPv6-ACL
IPV6 ACL Name: IPv6-ACL
Inbound Interface(s):
Gi1/0/8
Rule Number: 1
Action......................................... permit
Match All...................................... FALSE
Protocol....................................... 6(tcp)
Layer 2 Switching Commands 509
Source IPV6 Address............................ fe80::2121/128
Destination IPV6 Address....................... fe80::1212/128
Destination Layer 4 Operator................... Equal To
Destination L4 Port Keyword.................... 800
Flow Label..................................... 65535
TCP Flags...................................... FIN (Set)
SYN (Ignore)
RST (Ignore)
PSH (Ignore)
ACK (Ignore)
URG (Ignore)
ACL Hit Count.................................. 43981900
Layer 2 Switching Commands 510
IPv6 MLD Snooping Commands
Dell EMC Networking N1100-ON/N1500/N2000/N2100-
ON/N3000/N3100-ON/N4000 Series Switches
In IPv6, Multicast Listener Discover (MLD) snooping performs functions
similar to IGMP snooping in IPv4. With MLD snooping, IPv6 multicast data
is selectively forwarded to a list of ports that want to receive the data, instead
of being flooded to all ports in a VLAN. This list is constructed by snooping
IPv6 multicast control packets.
MLD is a protocol used by IPv6 multicast routers to discover the presence of
multicast listeners (nodes wishing to receive IPv6 multicast packets) on its
directly-attached links and to discover which multicast packets are of interest
to neighboring nodes. MLD is derived from IGMP. MLD version 1 (MLDv1)
is equivalent to IGMPv2. MLD version 2 (MLDv2) is equivalent to IGMPv3.
MLD is a subprotocol of Internet Control Message Protocol version 6
(ICMPv6), and MLD messages are a subset of ICMPv6 messages, identified
in IPv6 packets by a preceding Next Header value of 58.
Dell EMC Networking switches can snoop on both MLDv1 and MLDv2
protocol packets and bridge IPv6 multicast data based on destination IPv6
Multicast MAC Addresses. The switch can be configured to perform MLD
Snooping and IGMP Snooping simultaneously. The Dell EMC Networking
implementation is compliant to RFC 4541.
Commands in this Section
This section explains the following commands:
ipv6 mld snooping vlan groupmembership-
interval
ipv6 mld snooping vlan mrouter
ipv6 mld snooping vlan immediate-leave ipv6 mld snooping (Global)
ipv6 mld snooping listener-message-
suppression
show ipv6 mld snooping
ipv6 mld snooping vlan last-listener-query-
interval
show ipv6 mld snooping groups
ipv6 mld snooping vlan mcrtrexpiretime show ipv6 mld snooping mrouter
Layer 2 Switching Commands 511
ipv6 mld snooping vlan groupmembership-
interval
The ipv6 mld snooping vlan groupmembership-interval command sets the
MLD Group Membership Interval time on a VLAN or interface. The Group
Membership Interval time is the amount of time in seconds that a switch
waits for a report from a particular group on a particular interface before
deleting the interface from the entry. This value must be greater than the
MLDv2 Maximum Response time value. The range is 2 to 3600 seconds.
Syntax
ipv6 mld snooping vlan vlan-id groupmembership-interval time
no ipv6 mld snooping vlan-id groupmembership-interval time
• vlan-id — A VLAN identifier (Range 1-4093).
•time — MLD group membership interval time in seconds. (Range: 2-
3600)
Default Configuration
The default group membership interval time is 260 seconds.
Command Mode
Global Configuration mode
User Guidelines
This command has no user guidelines.
Example
console(config)#ipv6 mld snooping vlan 2 groupmembership-interval 1500
ipv6 mld snooping vlan immediate-leave
This command enables or disables MLD Snooping immediate-leave mode on
a selected VLAN. Enabling immediate-leave allows the switch to immediately
remove the layer 2 LAN interface from its forwarding table entry upon
receiving an MLD done message for that multicast group without first
sending out MAC-based general queries to the interface.
Layer 2 Switching Commands 512
You should enable immediate-leave admin mode only on VLANs where only
one host is connected to each layer 2 LAN port. This prevents the inadvertent
dropping of the other hosts that were connected to the same layer 2 LAN
port, but were still interested in receiving multicast traffic directed to that
group. Also, immediate-leave processing is supported only with MLD version
1 hosts.
Syntax
ipv6 mld snooping vlan vlan-id immediate-leave
• vlan-id— A VLAN identifier (Range 1-4093).
Default Configuration
Immediate leave is disabled on all VLANs by default.
Command Mode
Global Configuration mode.
User Guidelines
There are no user guidelines for this command.
Example
This example enables mld snooping immediate-leave for VLAN 2.
console(config)#ipv6 mld snooping vlan 2 immediate-leave
ipv6 mld snooping listener-message-suppression
This command enables MLD listener message suppression on a specific
VLAN. Use the no form of this command to disable listener message
suppression.
Syntax
ipv6 mld snooping vlan vlan-id listener-message-suppression
no ipv6 mld snooping vlan vlan-id listener-message-suppression
• vlan-id — A VLAN identifier (Range 1-4093).
Layer 2 Switching Commands 513
Default Configuration
Listener message suppression is enabled by default.
Command Mode
Global Configuration mode.
User Guidelines
MLD listener message suppression is equivalent to IGMP report suppression.
When MLD listener message suppression is enabled, the switch only sends
the first report received for a group in response to a query. Listener message
suppression is only applicable to MLDv1.
Example
console(config)#ipv6 mld snooping vlan 10 listener-message-suppression
ipv6 mld snooping vlan last-listener-query-
interval
The ipv6 mld snooping vlan last-listener-query-interval command sets the
number of seconds after which a host is considered to have left the group.
This value must be less than the MLD Query Interval time value. The range
is 1 to 25 seconds.
Syntax
ipv6 mld snooping vlan vlan-id last-listener-query-interval time
no ipv6 mld snooping vlan vlan-id last-listener-query-interval
• vlan-id — A VLAN identifier (Range 1-4093).
• time — The number of seconds after which a host is considered to have
left the group. (Range: 1–25 seconds)
Default Configuration
The default maximum response time is 10 seconds.
Command Mode
Global Configuration mode
Layer 2 Switching Commands 514
User Guidelines
This command has no user guidelines.
Example
console(config)#ipv6 mld snooping vlan 2 last-listener-query-interval 7
ipv6 mld snooping vlan mcrtrexpiretime
The ipv6 mld snooping mcrtrexpiretime command sets the Multicast Router
Present Expiration time. The time is set for a particular interface or VLAN.
This is the amount of time in seconds that a switch waits for a query to be
received on an interface before the interface is removed from the list of
interfaces with multicast routers attached. The range is 1 to 3600 seconds.
Syntax
ipv6 mld snooping vlan vlan-id mcrtrexpiretime time
no ipv6 mld snooping vlan vlan-id mcrtrexpiretime
• vlan-id — A VLAN identifier (Range 1-4093).
• time — Multicast router present expiration time in seconds. (Range: 1–
3600)
Default Configuration
The default multicast router present expiration time is 300 seconds.
Command Mode
Global Configuration mode.
User Guidelines
This command has no user guidelines
Example
console(config)#ipv6 mld snooping vlan 2 mcrtrexpiretime 1500
Layer 2 Switching Commands 515
ipv6 mld snooping vlan mrouter
This command statically configures a port as connected to a multicast router
for a specified VLAN. The no form of this command removes the static
binding.
Syntax
ipv6 mld snooping vlan vlan-id mrouter interface interface
no ipv6 mld snooping vlan vlan-id mrouter interface interface
• vlan-id — A VLAN identifier (Range 1-4093).
• interface-id— The next-hop interface to the Multicast router.
Default Configuration
There are no multicast router ports configured by default.
Command Mode
Global Configuration mode.
User Guidelines
MLD snooping will forward IPv6 multicast data packets in the VLAN if a
static mrouter port is configured. This behavior can be used to ensure that
MLD snooping will selectively forward IPv6 multicast data traffic even if no
dynamically discovered IPv6 multicast router has been discovered.
Example
console(config)#ipv6 mld snooping vlan 10 mrouter interface Gi1/0/2
ipv6 mld snooping (Global)
Use the ipv6 mld snooping (Global) command to globally enable MLD
Snooping on the system (Global Configuration Mode). Use the no form of
the command to disable MLD snooping. Use the vlan parameter to enable
MLD Snooping on a specific VLAN.
Syntax
ipv6 mld snooping [vlan vlan-id]
Layer 2 Switching Commands 516
no ipv6 mld snooping [vlan vlan-id]
• vlan-id — A VLAN identifier (Range 1-4093).
Default Configuration
MLD Snooping is enabled globally and on all VLANs by default.
Command Mode
Global Configuration mode.
User Guidelines
Use this command without parameters to globally enable MLD Snooping.
Use the no form of the command to disable MLD Snooping. Use the vlan
parameter to enable MLD Snooping on a specific VLAN.
It is recommended that IGMP snooping should be enabled whenever MLD
snooping is enabled to ensure that unwanted pruning of multicast protocol
packets used by other protocols does not occur.
Enabling MLD snooping on an IPv6 L3 multicast router is recommended. If a
multicast source is connected to a VLAN on which both L3 multicast and
IGMP/MLD snooping are enabled, the multicast source is forwarded to the
mrouter ports as well as the internal mrouter port. MLD snooping does not
flood IPv6 multicast data plane packets in the VLAN if IPv6 L3 routing is
enabled. If MLD snooping is disabled, the switch will flood multicast data
plane packets in the VLAN.
Example
console(config)#ipv6 mld snooping
console(config)#no ipv6 mld snooping vlan 1
show ipv6 mld snooping
The show ipv6 mld snooping command displays MLD Snooping information
and SSM statistics. Configured information is displayed whether or not MLD
Snooping is enabled.
Syntax
show ipv6 mld snooping [interface interface-id | vlan vlan-id}]
Layer 2 Switching Commands 517
• interface-id—A physical interface identifier or a port channel identifier
• vlan-id—A VLAN identifier.
Default Configuration
This command has no default configuration
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
With no optional arguments, the command displays the following
information:
• Admin Mode — Indicates whether or not MLD Snooping is active on the
switch.
• Multicast Control Frame Count— Displays the total number of IGMP or
PIM packets which have been received (same as IPv4).
• Flooding Unregistered to All Ports—Indicates if Flooding Unregistered to
All Ports is enabled. If enabled, multicast data traffic for which no listeners
have registered is flooded to all ports in a VLAN instead of only flooded to
multicast router ports.
• SSM FDB Capacity—The capacity of the SSM FDB.
• SSM FDB Current Entries—The current count of SSM FDB entries.
• SSM FDB High Water Mark—The highest count of FDB entries since the
last clear counters.
When you specify an interface or VLAN, the following information displays:
• MLD Snooping Admin Mode — Indicates whether MLD Snooping is
active on the interface or VLAN.
• Fast Leave Mode — Indicates whether MLD Snooping Fast-leave is active
on the VLAN.
• Group Membership Interval — Shows the amount of time in seconds that
a switch will wait for a report from a particular group on a particular
interface, which is participating in the VLAN, before deleting the interface
from the entry. This value may be configured.
Layer 2 Switching Commands 518
• Last Listener Query Interval—Displays the amount of time the switch
waits after it sends a query on an interface, participating in the VLAN,
because it did not receive a report for a particular group on that interface.
This value may be configured.
• Multicast Router Present Expiration Time — Displays the amount of time
to wait before removing an interface that is participating in the VLAN
from the list of interfaces with multicast routers attached. The interface is
removed if a query is not received. This value may be configured.
• Listener Message Suppression Mode—Sends only the first report received
in response to a query to the router.
Example
console(config)#show ipv6 mld snooping
Admin Mode..................................... Enable
Multicast Control Frame Count.................. 6255
SSM FDB Capacity............................... 64
SSM FDB High Water Mark........................ 1
SSM FDB Current Entries........................ 1
Flooding Unregistered to All Ports............. Disabled
Vlan 1:
--------
MLD Snooping Admin Mode........................ Enabled
Immediate Leave Mode........................... Disabled
Group Membership Interval...................... 260
Last Listener Query Interval................... 10
Multicast Router Expiry Time................... 300
Listener Message Suppression Mode.............. Enabled
show ipv6 mld snooping groups
The show ipv6 mld snooping groups command displays the MLD Snooping
and SSM entries in the MFDB table.
Syntax
show ipv6 mld snooping groups [{vlan vlan-id | address ipv6-multicast-
address}]
• vlan-id — A VLAN identifier (Range 1-4093).
• ipv6-multicast-address — Specifies an IPv6 Multicast address.
Layer 2 Switching Commands 519
Default configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
This user guideline applies to all switch models.To see the full Multicast
address table (including static addresses) use the
show mac address-table
multicast
command.
Example
This example shows MLDv2 snooping entries
console#show ipv6 mld snooping groups
Vlan Group Type OIFs
---- ----------------------- ------- ------------------------------------
1 3333.0000.0003 Dynamic Te1/0/1,Te1/0/17
MLD SSM Entries :
-----------------
VLAN Group Reporter Filter IIF Source Address
---- ---------------- ---------------- --------- ---------- ----------------
1 ff1e:2222:2222: fe80::200:3ff:f include Te1/0/1 2001::2
2222:2222:2222: e00:b00
2222:2222
show ipv6 mld snooping mrouter
Use the show ipv6 mld snooping mrouter command to display information
on dynamically learned Multicast router interfaces.
Syntax
show ipv6 mld snooping mrouter
Layer 2 Switching Commands 520
Default configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
MLD snooping forwards IPv6 multicast data plane packets to mrouter ports,
including statically configured mrouter ports. If a static mrouter port is
configured in a VLAN, MLD snooping will forward multicast data plane
packets received on the VLAN even if the interface is down. This behavior can
be used to ensure that MLD snooping will selectively forward IPv6 multicast
data traffic even if no dynamically discovered IPv6 multicast router has been
discovered.
Example
console#show ipv6 mld snooping mrouter
VLAN ID Port
-------- ----------
10 Gi1/0/2 (static)
Layer 2 Switching Commands 521
IPv6 MLD Snooping Querier
Commands
Dell EMC Networking N1100-ON/N1500/N2000/N2100-
ON/N3000/N3100-ON/N4000 Series Switches
The MLD Snooping Querier is an extension of the MLD Snooping feature.
MLD Snooping Querier allows the switch to simulate an MLD router in a
Layer 2-only network, thus removing the need to have an MLD Router to
collect the multicast group membership information. The querier function
simulates a small subset of the MLD router functionality.
In a network with IP multicast routing, the IP multicast router acts as the
MLD querier. However, if it is required that the IP-multicast traffic in a
VLAN be switched, the switch can be configured as an MLD querier. When
MLD Snooping Querier is enabled, the Querier sends out periodic MLD
General Queries that trigger the Multicast listeners/member to send their
joins so as to receive the Multicast data traffic. MLD Snooping listens to
these reports to establish the appropriate forwarding table entries.
Commands in this Section
This section explains the following commands:
ipv6 mld snooping querier
Use the ipv6 mld snooping querier command to enable MLD Snooping
Querier on the system. Use the no form of this command to disable MLD
Snooping Querier.
ipv6 mld snooping querier ipv6 mld snooping querier query-interval
ipv6 mld snooping querier (VLAN mode) ipv6 mld snooping querier timer expiry
ipv6 mld snooping querier address show ipv6 mld snooping querier
ipv6 mld snooping querier election
participate
–
Layer 2 Switching Commands 522
Syntax
ipv6 mld snooping querier
no ipv6 mld snooping querier
Default Configuration
MLD Snooping Querier is disabled by default.
Command Mode
Global Configuration mode
User Guidelines
It is not recommended the MLD Snooping Querier be enabled on a switch
enabled for IPv6 multicast routing.
Example
console(config)#ipv6 mld snooping querier
ipv6 mld snooping querier (VLAN mode)
Use the ipv6 mld snooping querier command in VLAN mode to enable MLD
Snooping Querier on a VLAN. Use the no form of this command to disable
MLD Snooping Querier on a VLAN.
Syntax
ipv6 mld snooping querier vlanvlan-id
no ipv6 mld snooping querier vlan vlan-id
• vlan-id — A VLAN identifier. (Range: 1–4093)
Default Configuration
MLD Snooping Querier is disabled by default on all VLANs.
Command Mode
Global Configuration mode
Layer 2 Switching Commands 523
User Guidelines
There are no user guidelines for this command.
Example
console(config)#ipv6 mld snooping querier vlan 10
ipv6 mld snooping querier address
Use the ipv6 mld snooping querier address command to set the global MLD
Snooping Querier address. Use the no form of this command to reset the
global MLD Snooping Querier address to the default.
Syntax
ipv6 mld snooping querier address prefix[/prefix-length]
no ipv6 mld snooping querier address
• prefix — An IPv6 address prefix.
• prefix-length — Designates how many of the high-order contiguous bits of
the address make up the prefix.
Default Configuration
There is no global MLD Snooping Querier address configured by default.
Command Mode
Global Configuration mode
User Guidelines
There are no user guidelines for this command.
Example
console(config)#ipv6 mld snooping querier address Fe80::5
ipv6 mld snooping querier election participate
Use the ipv6 mld snooping querier election participate command to enable
the Snooping Querier to participate in the Querier Election process when it
discovers the presence of another Querier in the VLAN. When this mode is
Layer 2 Switching Commands 524
enabled, if the Snooping Querier finds that the other Querier's source address
is numerically lower than the Snooping Querier's address, it stops sending
periodic queries. If the Snooping Querier wins the election then it will
continue sending periodic queries. Use the no form of this command to
disable election participation on a VLAN.
Syntax
ipv6 mld snooping querier election participate vlan-id
no ipv6 mld snooping querier election participate vlan-id
• vlan-id — A VLAN identifier (Range: 1 - 4093)
Default Configuration
Election participation is disabled by default.
Command Mode
Global Configuration mode
User Guidelines
If there is another querier in the network and the local querier is in election
mode, then the querier with the lower IP address is elected and the other
querier stops querying. If the local querier is not in election mode and
another querier is detected, the local querier stops querying.
Example
console(config-vlan)#ipv6 mld snooping querier election participate 10
ipv6 mld snooping querier query-interval
Use the ipv6 mld snooping querier query-interval command to set the MLD
Querier Query Interval time. It is the amount of time in seconds that the
switch waits before sending another general query. Use the no form of this
command to reset the Query Interval to the default.
Syntax
ipv6 mld snooping querier query-interval interval
ipv6 mld snooping querier query-interval
Layer 2 Switching Commands 525
• interval — Amount of time that the switch waits before sending another
general query. (Range: 1–1800 seconds)
Default Configuration
The default query interval is 60 seconds.
Command Mode
Global Configuration mode
User Guidelines
There are no user guidelines for this command
Example
console(config)#ipv6 mld snooping querier 120
ipv6 mld snooping querier timer expiry
Use the ipv6 mld snooping querier timer expiry command to set the MLD
Querier timer expiration period. It is the time period that the switch remains
in Non-Querier mode once it has discovered that there is another Multicast
Querier in the network. Use the no form of this command to reset the timer
expiration period to the default.
Syntax
ipv6 mld snooping querier timer expiry timer
ipv6 mld snooping querier timer expiry
• timer — The time that the switch remains in Non-Querier mode after it
has discovered that there is a multicast querier in the network. (Range: 60–
300 seconds)
Default Configuration
The default timer expiration period is 60 seconds.
Command Mode
Global Configuration mode
Layer 2 Switching Commands 526
User Guidelines
There are no user guidelines for this command.
Example
console(config)#ipv6 mld snooping querier timer expiry 222
show ipv6 mld snooping querier
Use the show ipv6 mld snooping querier command to display MLD
Snooping Querier information. Configured information is displayed whether
or not MLD Snooping Querier is enabled.
Syntax
show ipv6 mld snooping querier [detail | vlan vlan-id]
• vlan-id — A VLAN identifier (Range: 1 - 4093)
Default Configuration
There is no default configuration for this command.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
When the optional argument vlan vlan-id is not used, the command shows
the following information:
Parameter Description
MLD Snooping Querier
Mode
Indicates whether or not MLD Snooping Querier is
active on the switch.
Querier Address Shows the IP Address which will be used in the IPv6
header while sending out MLD queries.
MLD Version Indicates the version of MLD that will be used while
sending out the queries. This is defaulted to MLD v1
and it can not be changed.
Layer 2 Switching Commands 527
When the optional argument vlan vlan-id is used, the following additional
information appears:
When the optional argument detail is used, the command shows the global
information and the information for all Querier enabled VLANs as well as the
following information:
Querier Query Interval Shows the amount of time that a Snooping Querier
waits before sending out a periodic general query.
Querier Expiry Interval Displays the amount of time to wait in the Non-Querier
operational state before moving to a Querier state.
Parameter Description
MLD Snooping Querier
VLAN Mode
Indicates whether MLD Snooping Querier is active on
the VLAN.
Querier Election
Participate Mode
Indicates whether the MLD Snooping Querier
participates in querier election if it discovers the
presence of a querier in the VLAN.
Querier VLAN Address Shows the IP Address which will be used in the IPv6
header while sending out MLD queries.
Operational State Indicates whether MLD Snooping Querier is in
“Querier” or “Non-Querier” state. When the switch is
in Querier state it will send out periodic general queries.
When in Non-Querier state it will wait for moving to
Querier state and does not send out any queries.
Operational Version Indicates the version of MLD that will be used while
sending out the queries. This is defaulted to MLD v1
and it can not be changed.
Operational Max Response
Time
Displays the maximum response time the local querier
waits for a response from a multicast router.
Last Querier Address Indicates the IP address of the most recent Querier from
which a Query was received.
MLD Version Indicates the version of MLD.
Layer 2 Switching Commands 528
IP Source Guard Commands
Dell EMC Networking N1100-ON/N1500/N2000/N2100-
ON/N3000/N3100-ON/N4000 Series Switches
IP Source Guard (IPSG) is a security feature that filters IP packets based on
source ID. The source ID may either be source IP address or a {source IP
address, source MAC address} pair. The network administrator configures
whether enforcement includes the source MAC address. The network
administrator can configure static authorized source IDs. The DHCP
Snooping binding database and static IPSG entries identify authorized source
IDs. IPSG may be enabled on physical and LAG ports. IPSG is disabled by
default.
If the network administrator enables IPSG on a port where DHCP snooping is
disabled or where DHCP snooping is enabled but the port is trusted, all IP
traffic received on that port is dropped depending upon the admin-
configured IPSG entries. IPSG cannot be enabled on a port-based routing
interface.
IPSG uses two enforcement mechanisms: the L2FDB to enforce the source
MAC address and ingress VLAN and an ingress classifier to enforce the source
IP address or {source IP, source MAC} pair.
Commands in this Section
This section explains the following commands:
ip verify source
Use the ip verify source command in Interface Configuration mode to enable
filtering of IP packets from hosts which have not been assigned an IP address
via DHCP on the specified interface.
Use the no form of the command to enable unverified traffic to flow over the
interfaces.
ip verify source show ip verify
ip verify binding show ip verify source
–
show ip source binding
Layer 2 Switching Commands 529
Syntax
ip verify source {port-security}
no ip verify source
•
port-security
—Enables filtering based on IP address, VLAN, and MAC
address. When not specified, filtering is based upon IP address.
Default Configuration
By default, no sources are blocked.
Command Mode
Interface Configuration mode (physical and port channel)
User Guidelines
DHCP snooping should be enabled on any ports for which ip verify source is
configured. If ip verify source is configured on an interface for which DHCP
snooping is disabled, or for which DHCP snooping is enabled and the port is
trusted, incoming traffic on the interface is dropped.
Incoming traffic is filtered based on the source IP address and VLAN. When
the port-security keyword is configured, filtering occurs based upon source IP
address, VLAN and source MAC address.
IP source guard also interacts with the port security component. Use the
switchport port-security command in interface mode to optionally add
checking of learned MAC addresses. When port security is enabled, MAC
learning coordinates with the IP Source Guard to verify that the MAC address
is in the DHCP binding database. If it is not, port security is notified that the
frame is in violation of the security policy.
Example
console(config)#ip dhcp snooping
console(config)#ip dhcp snooping vlan 1
console(config)#interface gi1/0/1
console(config-if-Gi1/0/1)#ip verify source
Layer 2 Switching Commands 530
ip verify binding
Use the ip verify binding command in Global Configuration mode to
configure static bindings. Use the no form of the command to remove the
IPSG entry.
Syntax
ip verify binding
macaddr
vlan
ipaddr
interface
Default Configuration
By default, there are no static bindings configured.
Command Mode
Global Configuration mode
User Guidelines
The configured IP address and MAC address are used to match the source IP
address and source MAC address for packets received on the interface. Hosts
sending packets using the configured source IP address and source MAC
address are trusted on the interface.
Example
console(config)#ip verify binding 00:11:22:33:44:55 vlan 1 1.2.3.4 interface
gigabitethernet 1/0/2
show ip verify
Use the show ip verify command to display the IP Source Guard
configuration on all interfaces or the specified interface.
Syntax
show ip verify [interface interface-id]
• interface-id—An Ethernet interface identifier or a port channel interface
identifier.
Layer 2 Switching Commands 531
Default Configuration
There is no default configuration for this command.
Command Modes
User Exec, Privileged Exec (all show modes)
User Guidelines
The filter type is one of the following values:
• ipv4-mac: IPv4 plus MAC address filtering
• ip: IPv4 address filtering
• ipv6: IPv6 address filtering
• ipv6-mac: IPv6 plus MAC address filtering
• N/A: No filtering is configured on the interface
Example
console(config-if-Gi1/0/5)#show ip verify
Interface Filter Type
----------- -----------
Gi1/0/1 ip
Gi1/0/2 ipv4-mac
Gi1/0/3 N/A
Gi1/0/4 N/A
Gi1/0/5 ipv4-mac
Gi1/0/6 N/A
Gi1/0/7 N/A
Gi1/0/8 N/A
Gi1/0/9 N/A
console(config-if-Gi1/0/5)#show ip verify interface gi1/0/5
Interface Filter Type
----------- -----------
Gi1/0/5 ipv6-mac
show ip verify source
Use the show ip verify source command to display the bindings configured on
a particular interface or all interfaces.
Layer 2 Switching Commands 532
Syntax
show ip verify source [interface interface-id]
• interface-id: A valid physical interface identifier or port-channel identifier
Default Configuration
There is no default configuration for this command.
Command Mode
User Exec, Privileged Exec mode, Global Configuration mode and all
Configuration submodes
User Guidelines
This command has no user guidelines.
Example
console#show ip verify source interface gigabitethernet 1/0/1
Interface Filter Type IP Address MAC Address Vlan
----------- ----------- --------------- ----------------- -----
Gi1/0/1 ip 1.2.3.4 00:12:32:43:54:66 1
show ip source binding
Use the show ip source binding command to display all bindings (static and
dynamic).
Syntax
show ip source binding
Default Configuration
There is no default configuration for this command.
Command Mode
User Exec, Privileged Exec mode, Global Configuration mode and all
Configuration submodes
Layer 2 Switching Commands 533
User Guidelines
This command has no user guidelines.
Example
console#show ip source binding
MAC Address IP Address Type VLAN Interface
------------ ---------- ----- ----- -------------
0011.2233.4455 1.2.3.4 static 1 Gi1/0/2
Layer 2 Switching Commands 534
iSCSI Optimization Commands
Dell EMC Networking N2000/N2100-ON/N3000/N3100-ON/N4000
Series Switches
iSCSI Optimization provides a means of performing configuration specific to
storage traffic and optionally giving traffic between iSCSI initiator and target
systems special Quality of Service (QoS) treatment.
iSCSI Optimization is best applied to mixed-traffic networks where iSCSI
packets constitutes a portion of overall traffic. In these cases, the assignment
of iSCSI packets to non-default CoS queues can provide flows with lower
latency and avoid queue resource contention.
If iSCSI frames comprise most of the traffic passing through the switch, the
system provides optimal throughput when all traffic is assigned to the default
queue. An example of this situation is a Storage Area Network (SAN) where
the switch is dedicated to interconnecting iSCSI Targets with Initiators.
Using the default queue for this homogeneous traffic provides the best
performance in traffic burst handling and the most accurate 802.3x Flow
Control Pause Frame generation. In these cases, the application of QoS
treatment other than the default policy may result in less overall throughput
or more packet loss.
By default, iSCSI optimization is enabled and iSCSI QoS treatment is
disabled.
LLDP is used to detect the presence of EqualLogic storage arrays. When
iSCSI optimization is enabled, and LLDP detects an EQL array on a port,
that port configuration is changed to enable portfast and disable unicast
storm control. Configuration changes appear in the running config and are
not removed by disabling the feature or disconnecting the EQL array.
QoS treatment is accomplished by monitoring traffic to detect packets used
by iSCSI stations to establish iSCSI sessions and connections. Data from
these exchanges is used to create classification rules that assign the traffic
between the stations to a configured traffic class. Packets in the flow are
queued and scheduled for egress on the destination port based on these rules.
In addition, if configured, the packets can be updated with IEEE 802.1p or
IP-DSCP values. This is done by enabling remark. Remarking packets with
priority data provides special QoS treatment as the packets continue through
the network.
Layer 2 Switching Commands 535
iSCSI Optimization borrows ACL lists from the global system pool. ACL lists
allocated by iSCSI Optimization reduce the total number of ACLs available
for use by the network operator. Enabling iSCSI Optimization uses one ACL
list to monitor for iSCSI sessions. Each monitored iSCSI session utilizes two
rules from additional ACL lists up to a maximum of two ACL lists. This
means that the maximum number of ACL lists allocated by iSCSI is three.
NOTE: This feature is not available on the N3000 when loaded with the
AGGREGATION ROUTER-enabled firmware (e.g., N3000_BGPvA.B.C.D.stk).
Commands in this Section
This section explains the following commands:
iscsi aging time
The iscsi aging time command sets the time out value for iSCSI sessions. To
reset the aging time to the default value, use the no form of this command.
Syntax
iscsi aging time time
no iscsi aging time
• time — The number of minutes a session must not be active prior to it's
removal. (Range: 1-43,200)
Default Configuration
The default aging time is 10 minutes.
Command Mode
Global Configuration mode.
iscsi aging time iscsi target port
iscsi cos show iscsi
iscsi enable show iscsi sessions
Layer 2 Switching Commands 536
User Guidelines
Changing the aging time has the following behavior:
• When aging time is increased, current sessions will be timed out according
to the new value.
• When aging time is decreased, any sessions that have been dormant for a
time exceeding the new setting will be immediately deleted from the table.
All other sessions will continue to be monitored against the new time out
value.
Example
The following example sets the aging time for iSCSI sessions to 100 minutes.
console(config)#iscsi aging time 100
iscsi cos
Use the iscsi cos command in Global Configuration mode to set the quality
of service profile that will be applied to iSCSI flows. To return the VPT/DSCP
setting to the default value, use the no form of this command. VPT/DSCP
values can be configured independently from the application of QoS
treatment.
Syntax
iscsi cos {enable | disable | vpt vpt | dscp dscp} [remark]
no iscsi cos
•enable—Enables application of preferential QoS treatment to iSCSI
frames.
•disable—Disables application of preferential QoS treatment to iSCSI
frames.
• vpt/dscp—The VLAN Priority Tag or DSCP value to assign received iSCSI
session packets.
•remark—Mark the iSCSI frames with the configured DSCP when
egressing the switch.
Layer 2 Switching Commands 537
Default Configuration
By default, frames are not remarked. The default vpt setting for iSCSI is 4,
which the default class of service 802.1p mapping assigns to queue 2.
Command Mode
Global Configuration mode.
User Guidelines
The remark option only applies to DSCP values. Remarking is not available
for vpt values.
In general, the use of iSCSI CoS is not required. By default, iSCSI flows are
assigned to the highest VPT/DSCP value that is mapped to the highest queue
not used for stack management or the voice VLAN. Make sure you configure
the relevant Class of Service parameters for the queue in order to complete
the setting.
Configuring the VPT/DSCP value sets the QoS profile which selects the
egress queue to which the frame is mapped. The default setting for egress
queues scheduling is Weighted Round Robin (WRR).
You may alter the QoS setting by configuring the relevant ports to work in
other scheduling and queue management modes via the Class of Service
settings. These choices may include strict priority for the queue used for
iSCSI traffic. The downside of strict priority is that, in certain circumstances
(under heavy high priority traffic), other lower priority traffic may get starved.
In WRR, the queue to which the flow is assigned to can be set to get the
required percentage using the min-bandwidth settings.
If an EqualLogic array is detected when QoS is enabled, two additional TCP
ports receive preferential QoS treatment (TCP ports 25555 and 9876). This
QoS policy is applied globally. The iscsi cos enable command enables
the generation of the iSCSI Application Priority TLV over DCBX using the
value set by the iscsi cos vpt command on switches that support
DCBX.
Example
The following example configures iSCSI packets to receive CoS treatment
using DiffServ Code Point AF 41 and configures remarking of transmitted
iSCSI packets.
Layer 2 Switching Commands 538
console(config)#iscsi cos dscp 41 remark
iscsi enable
The iscsi enable command globally enables iSCSI optimization. To disable
iSCSI optimization, use the no form of this command.
Syntax
iscsi enable
no iscsi enable
Default Configuration
iSCSI is enabled by default.
Command Mode
Global Configuration mode
User Guidelines
This command modifies the running config to enable flow control on all
interfaces.
Connectivity fault management is not compatible with iSCSI monitoring.
Disable CFM before enabling iSCSI monitoring.
Monitoring for EqualLogic Storage arrays via LLDP is also enabled by this
command. Upon detection of an EQL array, the specific interface involved
will have spanning-tree portfast enabled and unicast storm control disabled.
These changes appear in the running config. Disabling iSCSI Optimization
does not disable flow control, portfast or storm control configuration applied
as a result of enabling iSCSI Optimization.
On the N4000 switches, enabling iSCSI will locally generate a DCBX
Application Priority TLV with the following parameters when the following
conditions are met:
• DCBX is enabled
• CoS Queuing is enabled on the port using VPT (
iscsi cos enable
)
The Application Priority TLV sent will contain the following information in
addition to any other information contained in the TLV:
Layer 2 Switching Commands 539
AE Selector = 1
AE Protocol = 3260
AE Priority = priority configured for iSCSI PFC (the VPT value above). This
TLV is sent in addition to any Application Priority TLV information received
from the configuration source. If the configuration source is sending iSCSI
application priority information, it is not necessary to enable iscsi cos to send
the iSCSI Application Priority TLV.
Example
In the following example, iSCSI is globally enabled.
console(config)#iscsi enable
iscsi target port
Use the iscsi target port command in Global Configuration mode to
configure iSCSI port(s), target addresses and names. To delete iSCSI port(s)
or target ports, use the no form of this command.
Syntax
iscsi target port tcp-port-1 [tcp-port-2.… tcp-port-16 [address ip-address]
[name targetname]
no iscsi target port tcp-port-1 [tcp-port-2.… tcp-port-16 [address ip-address]
• tcp-port —TCP port number or list of TCP port numbers on which iSCSI
target(s) listen to requests. Up to 16 TCP ports can be defined in the
system in one command or by using multiple commands.
• ip-address—IP address of the iSCSI target. When the no form is used, and
the tcp port to be deleted is one bound to a specific IP address, the address
field must be present.
• targetname—iSCSI name of the iSCSI target. The name can be statically
configured; however, it can be obtained from iSNS or from sendTargets
response. The initiator MUST present both its iSCSI Initiator Name and
the iSCSI Target Name to which it wishes to connect in the first login
request of a new session or connection. The target name can consist of any
printable character except for a question mark as the first character. The
name can contain embedded blanks if enclosed in double quotes.
Layer 2 Switching Commands 540
Default Configuration
iSCSI well-known ports 3260 and 860 are configured by default but can be
removed as any other configured target.
Command Mode
Global Configuration mode.
User Guidelines
• When working with private iSCSI ports (not IANA assigned iSCSI ports
3260/860), it is recommended to specify the target IP address as well, so
the switch will only snoop frames with which the TCP destination port is
one of the configured TCP ports, AND their destination IP is the target's
IP address. This way the CPU is not be falsely loaded by non-iSCSI flows
(if by chance other applications also choose to use these {non-standard}
ports).
• When a port is already defined and not bound to an IP address, and you
want to bind the port to an IP address, first remove the port by using the
no form of the command and then add it again, this time together with
the relevant IP address.
• Target names are only for display when using the show iscsi command.
These names are not used to match (or for doing any sanity check) with
the iSCSI session information acquired by snooping.
• A maximum of 16 TCP ports can be configured either bound to IP or not.
Example
The following example configures TCP Port 49154 to target IP address
172.16.1.20.
console(config)#iscsi target port 49154 address 172.16.1.20
show iscsi
Use the show iscsi command to display the iSCSI configuration.
Syntax
show iscsi
Layer 2 Switching Commands 541
Default Configuration
There is no default configuration for this command.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
There are no user guidelines for this command.
Example
The following example displays the iSCSI configuration.
console#show iscsi
iSCSI enabled
iSCSI CoS enabled
iSCSI vpt is 5
Session aging time: 10 min
Maximum number of sessions is 192
------------------------------------------------
iSCSI Targets and TCP Ports:
------------------------------------------------
TCP Port Target IP Address Name
860 - -
3260 - -
30001 172.16.1.1iqn.1993-11.com.disk
vendor:diskarrays.sn.45678.tape:sys1.xyz
30033172.16.1.10
------------------------------------------------
iSCSI Static Rule Table
------------------------------------------------
Index TCP Port IP Address IP Address Mask
TCP Port Target IP AddressName
show iscsi sessions
Use the show iscsi sessions command to display the iSCSI status.
Syntax
show iscsi sessions [detailed]
•detailed — Displayed list has additional data when this option is used.
Layer 2 Switching Commands 542
Default Configuration
If not specified, sessions are displayed in short mode (not detailed).
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
The N2000/N2100-ON/N3000/N3100-ON Series switches support monitoring
for up to 1024 sessions. The N4000 switches support monitoring for up to 512
sessions.
Example
The following examples show summary and detailed information about the
iSCSI sessions.
console#show iscsi sessions
Target: iqn.1993-11.com.disk-vendor:diskarrays.sn.45678
-----------------------------------------------------
Initiator: iqn.1992-04.com.os-vendor.plan9:cdrom.12
ISID: 11
Initiator: iqn.1995-05.com.os-vendor.plan9:cdrom.10
ISID: 222
-----------------------------------------------------
Target: iqn.103-1.com.storage-vendor:sn.43338.
storage.tape:sys1.xyz
Session 3:
Initiator: iqn.1992-04.com.os-vendor.plan9:cdrom.12
Session 4:
Initiator: iqn.1995-05.com.os-vendor.plan9:cdrom.10
Console# show iscsi sessions detailed
Target: iqn.1993-11.com.disk-vendor:diskarrays.sn.45678
-----------------------------------------------------
Session 1:
Initiator: iqn.1992-04.com.os
vendor.plan9:cdrom.12.storage:sys1.xyz
-----------------------------------------------------
Time started: 17-Jul-2008 10:04:50
Time for aging out: 10 min
ISID: 11
Layer 2 Switching Commands 543
Initiator Initiator Target Target
IP address TCP port IP address IP port
172.16.1.3 49154 172.16.1.20 30001
172.16.1.4 49155 172.16.1.21 30001
172.16.1.5 49156 172.16.1.22 30001
Session 2:
-----------------------------------------------------
Initiator: iqn.1995-05.com.os-vendor.plan9:cdrom.10
Time started: 17-Aug-2008 21:04:50
Time for aging out: 2 min
ISID: 22
Initiator Initiator Target Target
IP address TCP port IP address IP port
172.16.1.30 49200 172.16.1.20 30001
172.16.1.30 49201 172.16.1.21 30001
Layer 2 Switching Commands 544
Link Dependency Commands
Dell EMC Networking N1100-ON/N1500/N2000/N2100-
ON/N3000/N3100-ON/N4000 Series Switches
Link dependency allows the link status of a group of interfaces to be made
dependent on the link status of other interfaces. The effect is that the link
status of a group that depends on another interface either mirrors or inverts
the link status of the depended-on interface. Circular dependencies are not
allowed. For example, if port-channel 1 in group 1 depends on port-channel 2.
Then the system will not allow the operator to configure another link
dependency group where port-channel 2 depends on port-channel 1.
Commands in this Section
This section explains the following commands:
action
Use the action command in Link Dependency mode to indicate if the link-
dependency group should mirror or invert the status of the depended-on
interfaces.
Syntax
action {down|up}
•down—Mirror the depended on interface(s) status.
•up—Invert the depended on interface(s) status.
Default Configuration
The default configuration for a group is down, i.e. the group members will
mirror the depended-on link status by going down when all depended-on
interfaces are down.
action
–
link-dependency group depends-on
add show link-dependency
Layer 2 Switching Commands 545
Command Mode
Link Dependency mode
User Guidelines
The action up command will cause the group members to be up when no
depended-on interfaces are up.
Example
console(config-depend-1)#action up
link-dependency group
Use the link-dependency group command to enter the link-dependency
mode and configure a link-dependency group.
Syntax
link-dependency group GroupId
no link-dependency group GroupId
• GroupId — Link dependency group identifier. (Range: 1–72)
Default Configuration
This command has no default configuration.
Command Mode
Global Configuration mode
User Guidelines
The preference of a group is to remain in the up state. A group will be in the
up state if any depends-on interface is up and will be in the down state only if
all depends-on interfaces are down.
Example
console(config)#link-dependency group 1
console(config-linkDep-group-1)#
Layer 2 Switching Commands 546
add
Use this command to add member ten Gigabit or Gigabit Ethernet port(s) or
port channels to the dependency list.
Syntax
add intf-list
• intf-list — List of Ethernet interface identifiers or port channel identifiers
or ranges. Separate nonconsecutive ports with a comma and no spaces. Use
a hyphen to designate the range of ports.
Default Configuration
This command has no default configuration.
Command Mode
Link Dependency mode
User Guidelines
Adding an interface to a dependency list brings the interface down until the
depends-on command is entered. The link status will then follow the
interface specified in the depends-on command.
To avoid bringing down interfaces, enter the depends-on command prior to
entering the add command.
Example
console(config-depend-1)#add gigabitethernet 1/0/1
console(config-depend-1)#add tengigabitethernet 1/0/1
console(config-depend-1)#add port-channel 10-12
depends-on
Use this command to add the dependent Ethernet ports or port channels list.
Use the no depends-on command to remove the dependent Ethernet ports or
port-channels list.
Syntax
depends-on intf-list
Layer 2 Switching Commands 547
no depends-on intf-list
• intf-list — List of Ethernet interface identifiers or port channel interface
identifiers or ranges.Separate nonconsecutive items with a comma and no
spaces. Use a hyphen to designate the range of ports or port-channel
numbers.
Default Configuration
This command has no default configuration.
Command Mode
Link Dependency mode
User Guidelines
Circular dependencies are not allowed, i.e. interfaces added to the group may
not also appear in the depends-on list of the same group or a different group.
If an interface appears in the add list of any group, the interfaces in the
corresponding depends-on list may not refer back to the interfaces in the add
group.
Examples
console(config-linkDep-group-1)#depends-on gigabitethernet 1/0/10
console(config-linkDep-group-1)#depends-on port-channel 6
show link-dependency
Use the show link-dependency command to show the link dependencies
configured for a particular group. If no group is specified, then all the
configured link-dependency groups are displayed.
Syntax
show link-dependency [group GroupId] [detail]
• GroupID—Link dependency group identifier. (Range: Valid Group Id, 1–
16)
•detail—Show detailed information about the state of members and the
dependent ports.
Layer 2 Switching Commands 548
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec, Global Configuration mode and all Configuration submodes
User Guidelines
Configure a link dependency group prior to using this command.
Example
The following command shows link dependencies for all groups.
console#show link-dependency
GroupId Member Ports Ports Depended On Link Action Group State
------- -----------------------------------------------------
1 Gi4/0/2-3,Gi4/0/5 Gi4/0/10-12 Link Up Up/Down
The following command shows link dependencies for group 1 only.
console#show link-dependency group 1
GroupId Member Ports Ports Depended On Link Action Group State
------- -----------------------------------------------------
1 Gi4/0/2-3,Gi4/0/5 Gi4/0/10-12 Link Up Up/Down
The following command shows detailed information for group 1.
console#show link-dependency group 1 detail
GroupId: 1
Link Action: Link UpGroup
State: Up
Ports Depended On State:
Link Up: Gi4/0/10
Link Down: Gi4/0/11-12
Member Ports State:
Link Up: Gi4/0/2-3
Link Down: Gi4/0/5
Layer 2 Switching Commands 549
LLDP Commands
Dell EMC Networking N1100-ON/N1500/N2000/N2100-
ON/N3000/N3100-ON/N4000 Series Switches
The IEEE 802.1AB standard defines the Link Layer Discovery Protocol
(LLDP). This protocol allows stations residing on an IEEE802 LAN to
advertise major capabilities, physical descriptions, and management
information to physically adjacent devices, allowing a network management
system (NMS) to access and display this information.
The standard is designed to be extensible, providing for the optional
exchange of organizational specific information and data related to other
IEEE standards. The base implementation supports only the required basic
management set of type length values (TLVs).
LLDP is a one-way protocol; there are no request/response sequences.
Information is advertised by stations implementing the transmit function.
The information is received and processed by stations implementing the
receive function. Devices are not required to implement both transmit and
receive functions and each function can be enabled or disabled separately by
the network manager. Dell EMC Networking supports both the transmit and
receive functions in order to support device discovery.
The LLDP component transmit and receive functions can be
enabled/disabled separately per physical port. By default, both transmit and
receive functions are enabled on all ports. The application starts each
transmit and receive state machine appropriately based on the configured
status and operational state of the port.
The transmit function is configurable with respect to packet construction and
timing parameters. The required Chassis ID, Port ID, and Time to Live
(TTL) TLVs are always included in the Link Layer Discovery Protocol Data
Unit (LLDPDU). However, inclusion of the optional TLVs in the
management set is configurable by the administrator. By default, they are not
included. The transmit function extracts the local system information and
builds the LLDPDU based on the specified configuration for the port. In
addition, the administrator has control over timing parameters affecting the
TTL of LLDPDUs and the interval in which they are transmitted.
Layer 2 Switching Commands 550
The receive function accepts incoming LLDPDU frames and stores
information about the remote stations. Both local and remote data may be
displayed by the user interface and retrieved using SNMP as defined in the
LLDP MIB definitions. The component maintains one remote entry per
physical network connection.
The LLDP component manages a number of statistical parameters
representing the operation of each transmit and receive function on a per-port
basis. These statistics may be displayed by the user interface and retrieved
using SNMP as defined in the MIB definitions.
Commands in this Section
This section explains the following commands:
clear lldp remote-data
Use the clear lldp remote-data command to delete all LLDP information
from the remote data table.
Syntax
clear lldp remote-data
clear lldp remote-data lldp notification-interval show lldp local-device
clear lldp statistics lldp receive show lldp med
dcb enable lldp timers show lldp med interface
lldp med lldp transmit show lldp med local-device
detail
lldp med confignotification lldp transmit-mgmt show lldp med remote-
device
lldp med
faststartrepeatcount
lldp transmit-tlv show lldp remote-device
lldp med transmit-tlv show lldp show lldp statistics
lldp notification show lldp interface
–
Layer 2 Switching Commands 551
Default Configuration
By default, data is removed only on system reset.
Command Mode
Privileged Exec mode
User Guidelines
This command has no user guidelines.
Example
The following example displays how to clear the LLDP remote data.
console#clear lldp remote-data
clear lldp statistics
Use the clear lldp statistics command to reset all LLDP statistics.
Syntax
clear lldp statistics
Default Configuration
By default, the statistics are only cleared on a system reset.
Command Mode
Privileged Exec mode
User Guidelines
This command has no user guidelines.
Example
The following example displays how to reset all LLDP statistics.
console#clear lldp statistics
Layer 2 Switching Commands 552
dcb enable
This command enables the sending of DCBX information in LLDP frames.
Syntax
dcb enable
no dcb enable
Command Mode
Global Configuration mode
Default Value
The sending of DCBX information in enabled by default.
User Guidelines
Use this command to disable the sending of DCBX information when it is
desirable to utilize legacy QoS and disable the automatic configuration of
CNAs based on transmitted DCBX information.
Example
console(config)#no dcb enable
lldp med
This command is used to enable/disable LLDP-MED on an interface. By
enabling MED, the transmit and receive functions of LLDP are effectively
enabled.
Syntax
lldp med
no lldp med
Command Mode
Interface Configuration (Ethernet) mode
Layer 2 Switching Commands 553
Default Value
Transmission and reception of LLDP-MED TLVs is enabled on all supported
interfaces.
User Guidelines
No specific guidelines.
Example
console(config)#interface gigabitethernet 1/0/1
console(config-if-Gi1/0/1)#lldp med
lldp med confignotification
This command is used to enable sending topology change notifications.
Syntax
lldp med confignotification
no lldp med confignotification
Command Mode
Interface Configuration (Ethernet) mode
Default Value
By default, notifications are disabled on all physical interfaces.
User Guidelines
There are no guidelines for this command.
Example
console(config)#lldp med confignotification
lldp med faststartrepeatcount
This command is used to set the value of the fast start repeat count.
Layer 2 Switching Commands 554
Syntax
lldp med faststartrepeatcount count
no lldp med faststartrepeatcount
• count — Number of LLDPPDUs that are transmitted when the protocol is
enabled. (Range 1–10)
Command Mode
Global Configuration
Default Value
3
User Guidelines
No specific guidelines.
Example
console(config)# lldp med faststartrepeatcount 2
lldp med transmit-tlv
This command is used to specify which optional TLVs in the LLDP MED set
are transmitted in the LLDPDUs. There are certain conditions that have to
be met for a port to be MED compliant. These conditions are explained in
the normative section of the ANSI/TIA-1057 specification. For example, the
MED TLV 'capabilities' is mandatory. By disabling transmission of the MED
capabilities TLV, MED is effectively disabled on the interface.
Syntax
lldp med transmit-tlv [capabilities] [network-policy] [ex-pse] [ex-pd]
no lldp med transmit-tlv [capabilities] [network-policy] [ex-pse] [ex-pd]
Command Mode
Interface Configuration (Ethernet)
Layer 2 Switching Commands 555
User Guidelines
The optional ex-pse (extended PSE) and ex-pd (extended PD) parameters are
only available on PoE capable switches.
Default Value
By default, the capabilities and network policy TLVs are included in LLDP
packets sent on interfaces enabled for MED. On PoE capable switches, the
extended PD TLV and extended PSE TLV are transmitted.
Example
console(config)#interface gigabitethernet 1/0/1
console(config-if-Gi1/0/1)#lldp med transmit-tlv capabilities
console(config-if-Gi1/0/1)#lldp med transmit-tlv network-policies
lldp notification
Use the lldp notification command in Interface Configuration mode to
enable remote data change notifications. To disable notifications, use the no
form of this command.
Syntax
lldp notification
no lldp notification
Default Configuration
By default, notifications are disabled on all supported interfaces.
Command Mode
Interface Configuration (Ethernet) mode
User Guidelines
This command has no user guidelines.
Example
The following example displays how to enable remote data change
notifications.
Layer 2 Switching Commands 556
console(config-if-Gi1/0/3)#lldp notification
lldp notification-interval
Use the lldp notification-interval command in Global Configuration mode
to limit how frequently remote data change notifications are sent. To return
the notification interval to the factory default, use the no form of this
command.
Syntax
lldp notification-interval interval
no lldp notification-interval
• interval — The smallest interval in seconds at which to send remote data
change notifications. (Range: 5–3600 seconds)
Default Configuration
The default value is 5 seconds.
Command Mode
Global Configuration mode
User Guidelines
This command has no user guidelines.
Example
The following example displays how to set the interval value to 10 seconds.
console(config)#lldp notification-interval 10
lldp receive
Use the lldp receive command in Interface Configuration mode to enable the
LLDP receive capability. To disable reception of LLDPDUs, use the no form
of this command.
Syntax
lldp receive
Layer 2 Switching Commands 557
no lldp receive
Default Configuration
The default lldp receive mode is enabled.
Command Mode
Interface Configuration (Ethernet) mode
User Guidelines
This command has no user guidelines.
Example
The following example displays how to enable the LLDP receive capability.
console(config-if-Gi1/0/3)#lldp receive
lldp timers
Use the lldp timers command in Global Configuration mode to set the
timing parameters for local data transmission on ports enabled for LLDP. To
return any or all parameters to factory default, use the no form of this
command.
Syntax
lldp timers [interval transmit-interval] [hold hold-multiplier] [reinit reinit-
delay]
no lldp timers [interval] [hold] [reinit]
• transmit-interval — The interval in seconds at which to transmit local data
LLDPDUs. (Range: 5–32768 seconds)
• hold-multiplier — Multiplier on the transmit interval used to set the TTL
in local data LLDPDUs. (Range: 2–10)
• reinit-delay — The delay in seconds before reinitialization. (Range: 1–10
seconds)
Default Configuration
The default transmit interval is 30 seconds.
Layer 2 Switching Commands 558
The default hold-multiplier is 4.
The default delay before reinitialization is 2 seconds.
Command Mode
Global Configuration mode
User Guidelines
This command has no user guidelines.
Examples
The following example displays how to configure LLDP to transmit local
information every 1000 seconds.
console(config)#lldp timers interval 1000
The following example displays how to set the timing parameter at 1000
seconds with a hold multiplier of 8 and a 5 second delay before
reinitialization.
console(config)#lldp timers interval 1000 hold 8 reinit 5
lldp transmit
Use the lldp transmit command in Interface Configuration mode to enable
the LLDP advertise (transmit) capability. To disable local data transmission,
use the no form of this command.
Syntax
lldp transmit
no lldp transmit
Default Configuration
LLDP is enabled on all supported interfaces.
Command Mode
Interface Configuration (Ethernet) mode
Layer 2 Switching Commands 559
User Guidelines
This command has no user guidelines.
Example
The following example displays how enable the transmission of local data.
console(config-if-Gi1/0/3)#lldp transmit
lldp transmit-mgmt
Use the lldp transmit-mgmt command in Interface Configuration mode to
include transmission of the local system management address information in
the LLDPDUs. To cancel inclusion of the management information, use the
no form of this command.
Syntax
lldp transmit-mgmt
no lldp transmit-mgmt
Default Configuration
By default, management address information is not included.
Command Mode
Interface Configuration (Ethernet) mode
User Guidelines
This command has no user guidelines.
Example
The following example displays how to include management information in
the LLDPDU.
console(config-if-Gi1/0/3)#lldp transmit-mgmt
Layer 2 Switching Commands 560
lldp transmit-tlv
Use the lldp transmit-tlv command in Interface Configuration mode to
specify which optional type-length-value settings (TLVs) in the AB basic
management set will be transmitted in the LLDPDUs. To remove an optional
TLV, use the no form of this command.
Syntax
lldp transmit-tlv [sys-desc][sys-name][sys-cap][port-desc]
no lldp transmit-tlv [sys-desc][sys-name][sys-cap][port-desc]
•sys-name — Transmits the system name TLV. This is the configured host
name for the system.
•sys-desc — Transmits the system description TLV
•sys-cap — Transmits the system capabilities TLV
•port-desc — Transmits the port description TLV
Default Configuration
By default, the port-desc and sys-name TLVs are transmitted.
Command Mode
Interface Configuration (Ethernet) mode
User Guidelines
The string configured by the hostname command is transmitted by in the sys-
name TLV.
Use the show lldp remote-device all command to see the advertised LLDP
neighbor information.
Example
The following example shows how to include the system description TLV in
local data transmit.
console(config-if-Gi1/0/3)#lldp transmit-tlv sys-desc
Layer 2 Switching Commands 561
show lldp
Use the show lldp command to display the current LLDP configuration
summary.
Syntax
show lldp
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
This command has no user guidelines.
Example
The following example displays the current LLDP configuration summary.
console#show lldp
LLDP Global Configuration
Transmit Interval............................ 30 seconds
Transmit Hold Multiplier..................... 4
Reinit Delay................................. 2 seconds
Notification Interval........................ 5 seconds
Command History
Example updated in the 6.4 release.
show lldp interface
Use the show lldp interface command to display the current LLDP interface
state.
Layer 2 Switching Commands 562
Syntax
show lldp interface {gigabitethernet unit/slot/port | tengigabitethernet
unit/slot/port | fortygigabitethernet unit/slot/port| all}
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
This command has no user guidelines.
Examples
This example show how the information is displayed when you use the
command with the all parameter.
console#show lldp interface all
Interface Link Transmit Receive Notify TLVs Mgmt
--------- ---- -------- -------- -------- ------- ----
Gi1/0/1 Up Enabled Enabled Enabled 0,1,2,3 Y
Gi1/0/2 Down Enabled Enabled Disabled Y
Gi1/0/3 Down Disabled Disabled Disabled 1,2 N
TLV Codes: 0 – Port Description, 1 – System Name, 2 – System Description, 3 –
System Capability
console# show lldp interface Gi1/0/1
Interface Link Transmit Receive Notify TLVs Mgmt
--------- ---- -------- -------- -------- ------- ----
Gi1/0/1 Up Enabled Enabled Enabled 0,1,2,3 Y
TLV Codes: 0 – Port Description, 1 – System Name, 2 – System Description, 3 –
System Capability
show lldp local-device
Use the show lldp local-device command to display the advertised LLDP
local data. This command can display summary information or detail for each
interface.
Layer 2 Switching Commands 563
Syntax
show lldp local-device {detail interface | interface | all}
•detail — includes a detailed version of the local data.
• interface — Specifies a valid physical interface on the device. Specify
either
gigabitethernet
unit/slot/port
or tengigabitethernet
unit/slot/port
or fortygigabitethernet
unit/slot/port.
•all — Shows lldp local device information on all interfaces.
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
This command has no user guidelines.
Examples
These examples show advertised LLDP local data in two levels of detail.
console#show lldp local-device all
LLDP Local Device Summary
Interface Port ID Port Description
--------- -------------------- --------------------
Gi1/0/1 Gi1/0/1
console# show lldp local-device detail Gi1/0/1
LLDP Local Device Detail
Interface: Gi1/0/1
Chassis ID Subtype: MAC Address
Chassis ID: 00:62:48:00:00:00
Port ID Subtype: Interface Name
Port ID: Gi1/0/1
System Name:
System Description: Routing
Port Description:
System Capabilities Supported: bridge, router
System Capabilities Enabled: bridge
Layer 2 Switching Commands 564
Management Address:
Type: IPv4
Address: 192.168.17.25
show lldp med
This command displays a summary of the current LLDP MED configuration.
Syntax
show lldp med
Command Mode
Privileged Exec, Global Configuration mode and all Configuration submodes
Default Value
Not applicable
User Guidelines
No specific guidelines.
Example
console(config)#show lldp med
LLDP MED Global Configuration
Fast Start Repeat Count: 3
Device Class: Network Connectivity
show lldp med interface
This command displays a summary of the current LLDP MED configuration
for a specific interface.
Syntax
show lldp med interface {gigabitethernet unit/slot/port | tengigabitethernet
unit/slot/port| all}
•all — Shows information for all valid LLDP interfaces.
Layer 2 Switching Commands 565
Command Mode
Privileged Exec, Global Configuration mode and all Configuration submodes
Default Value
Not applicable
Example
console#show lldp med interface all
LLDP MED Interface Configuration
Interface Link configMED operMED ConfigNotify TLVsTx
--------- ------ --------- -------- ------------ -----------
Gi1/0/1 Detach Enabled Enabled Enabled0,1
Gi1/0/2 Detach Disabled Disabled Disabled 0,1
Gi1/0/3 Detach Disabled Disabled Disabled 0,1
Gi1/0/4 Detach Disabled Disabled Disabled 0,1
Gi1/0/5 Detach Disabled Disabled Disabled 0,1
console #show lldp med interface gi1/0/1
LLDP MED Interface Configuration
Interface Link configMED operMED ConfigNotify TLVsTx
--------- ------ -------- -------- -------- -------
Gi1/0/1 Up Enabled Enabled Disabled 0,1
TLV Codes: 0- Capabilities, 1- Network Policy
2-Location, 3- Extended PSE, 4- Extended PD, 5-Inventory
show lldp med local-device detail
This command displays the advertised LLDP local data in detail.
Syntax
show lldp med local-device detail {gigabitethernet unit/slot/port |
tengigabitethernet unit/slot/port}
Command Mode
Privileged Exec, Global Configuration mode and all Configuration submodes
Layer 2 Switching Commands 566
Default Value
Not applicable
Example
Console#show lldp med local-device detail gi1/0/8
LLDP MED Local Device Detail
Interface: Gi1/0/8
Network Policies
Media Policy Application Type : voice
Vlan ID: 10
Priority: 5
DSCP: 1
Unknown: False
Tagged: True
Media Policy Application Type : streamingvideo
Vlan ID: 20
Priority: 1
DSCP: 2
Unknown: False
Tagged: True
Inventory
Hardware Rev: xxx xxx xxx
Firmware Rev: xxx xxx xxx
Software Rev: xxx xxx xxx
Serial Num: xxx xxx xxx
Mfg Name: xxx xxx xxx
Model Name: xxx xxx xxx
Asset ID: xxx xxx xxx
Location
Subtype: elin
Info: xxx xxx xxx
Extended POE
Device Type: pseDevice
Extended POE PSE
Available: 0.3 watts
Source: primary
Priority: critical
Layer 2 Switching Commands 567
Extended POE PD
Required: 0.2 watts
Source: local
Priority: low
show lldp med remote-device
This command displays the current LLDP MED remote data. This command
can display summary information or detail for each interface.
Syntax
show lldp med remote-device {gigabitethernet unit/slot/port |
tengigabitethernet unit/slot/port | all}
show lldp med remote-device detail {gigabitethernet unit/slot/port |
tengigabitethernet unit/slot/port}
•all — Indicates all valid LLDP interfaces.
•detail — Includes a detailed version of remote data for the indicated
interface.
Command Mode
Privileged Exec, Global Configuration mode and all Configuration submodes
Default Value
Not applicable
Example
console#show lldp med remote-device all
LLDP Remote Device Summary
Local
Interface RemoteID Device Class
--------- ---------- --------------------
Gi1/0/13 1 Class I
Gi1/0/16 2 Class II
Gi1/0/23 6 Not Defined
Console#show lldp med remote-device detail Gi1/0/1
LLDP MED Remote Device Detail
Layer 2 Switching Commands 568
Local Interface: 1/0/1
Capabilities
MED Capabilities Supported: capabilities, networkpolicy, location,
extendedpse
MED Capabilities Enabled: capabilities, networkpolicy
Device Class: Endpoint Class I
Network Policies
Media Policy Application Type : voice
Vlan ID: 10
Priority: 5
DSCP: 1
Unknown: False
Tagged: True
Media Policy Application Type : streamingvideo
Vlan ID: 20
Priority: 1
DSCP: 2
Unknown: False
Tagged: True
Inventory
Hardware Rev: xxx xxx xxx
Firmware Rev: xxx xxx xxx
Software Rev: xxx xxx xxx
Serial Num: xxx xxx xxx
Mfg Name: xxx xxx xxx
Model Name: xxx xxx xxx
Asset ID: xxx xxx xxx
Location
Subtype: elin
Info: xxx xxx xxx
Extended POE
Device Type: pseDevice
Extended POE PSE
Available: 0.3 Watts
Source: primary
Priority: critical
Extended POE PD
Layer 2 Switching Commands 569
Required: 0.2 Watts
Source: local
Priority: low
show lldp remote-device
Use the lldp remote-device command to display the current LLDP remote
data. This command can display summary information or detail for each
interface.
Syntax
show lldp remote-device {detail interface | interface | all}
• detail — Includes detailed version of remote data.
• interface — Specifies a valid physical interface on the device. Substitute
gigabitethernet
unit/slot/port
or tengigabitethernet
unit/slot/port
or
fortygigabitethernet
unit/slot/port
}
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
This command has no user guidelines.
Examples
These examples show current LLDP remote data, including a detailed
version.
console#show lldp remote-device all
LLDP Remote Device Summary
Local
Interface RemID Chassis ID Port ID System Name
-------- ------- ------------------ ------------------- -----------------
Gi1/0/7 12 14:18:77:15:23:68 14:18:77:15:23:6A console
Layer 2 Switching Commands 570
Gi1/0/19 7 00:1E:C9:AA:AB:FD Gi1/0/5
console#show lldp remote-device detail Gi1/0/13
LLDP Remote Device Detail
Local Interface: Gi1/0/13
Remote Identifier: 1
Chassis ID Subtype: MAC Address
Chassis ID: F8:B1:56:2B:A4:FA
Port ID Subtype: Interface Name
Port ID: Gi1/0/13
System Name:
System Description:
Port Description: Gi1/0/13
System Capabilities Supported:
System Capabilities Enabled:
Time to Live: 113 seconds
show lldp statistics
Use the show lldp statistics command to display the current LLDP traffic
statistics.
Syntax
show lldp statistics {unit/slot/port | all}
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
This command has no user guidelines.
Examples
The following examples shows an example of the display of current LLDP
traffic statistics. The output is abbreviated for the all form of the command.
console#show lldp statistics all
Layer 2 Switching Commands 571
LLDP Device Statistics
Last Update.................................. 0 days 22:58:29
Total Inserts................................ 1
Total Deletes................................ 0
Total Drops.................................. 0
Total Ageouts................................ 1
Tx Rx TLV TLV TLV TLV TLV
Interface Total Total Discards Errors Ageout Discards Unknowns MED 802.3 UPOE
--------- ----- ----- -------- ------ ------ -------- -------- ---- ----- -----
Gi1/0/1 29395 82562 0 0 1 0 0 0 1 4
Gi1/0/2 0 0 0 0 0 0 0 0 0 0 0
Gi1/0/3 0 0 0 0 0 0 0 0 0 0 0
Gi1/0/4 0 0 0 0 0 0 0 0 0 0 0
console#show lldp statistics Gi1/0/7
LLDP Device Statistics
Last Update.................................. 0 days 00:38:16
Total Inserts................................ 13
Total Deletes................................ 0
Total Drops.................................. 0
Total Ageouts................................ 0
Tx Rx TLV TLV TLV TLV TLV
Interface Total Total Discards Errors Ageout Discards Unknowns MED 802.1 802.3
--------- ----- ----- -------- ------ ------ -------- -------- ---- ----- -----
Gi1/0/7 2297 2298 0 0 0 0 0 0 0 10
The following table explains the fields in this example.
Fields Description
Last Update The value of system of time the last time a remote data entry
was created, modified, or deleted.
Total Inserts The number of times a complete set of information advertised
by a remote device has been inserted into the table.
Layer 2 Switching Commands 572
Total Deletes The number of times a complete set of information advertised
by a remote device has been deleted from the table.
Total Drops Number of times a complete set of information advertised by a
remote device could not be inserted due to insufficient
resources.
Total Ageouts Number of times any remote data entry has been deleted due to
time-to-live (TTL) expiration.
Transmit Total Total number of LLDP frames transmitted on the indicated
port.
Receive Total Total number of valid LLDP frames received on the indicated
port.
Discards Number of LLDP frames received on the indicated port and
discarded for any reason.
Errors Number of non-valid LLDP frames received on the indicated
port.
Ageouts Number of times a remote data entry on the indicated port has
been deleted due to TTL expiration.
TLV Discards Number LLDP TLVs (Type, Length, Value sets) received on the
indicated port and discarded for any reason by the LLDP agent.
TLV Unknowns Number of LLDP TLVs received on the indicated port for a type
not recognized by the LLDP agent.
TLV MED Number of OUI specific MED (Media Endpoint Device) TLVs
received.
TLV Number of OUI specific TLVs received.
TLV 802.3 Number of OUI specific 802.3 specific TLVs received.
TLV UPOE Number of PoE TLVs received
Fields Description
Layer 2 Switching Commands 573
Loop Protection
Dell EMC Networking N1100-ON/N1500/N2000/N2100-
ON/N3000/N3100-ON/N4000 Series Switches
Loop protection detects physical and logical loops between Ethernet ports on
a device. Loop protection must be enabled globally before it can be enabled at
the interface level.
Commands in this Section
This section explains the following commands:
keepalive (Interface Config)
Use the keepalive command in Interface Configuration mode to enable loop
protection on an interface. Use the no form of the command to return the
configuration to the defaults.
Syntax
keepalive
no keepalive
Default Configuration
Loop protection is disabled globally by default and disabled on all interfaces
by default.
Command Mode
Interface (Physical) Configuration mode
keepalive (Interface Config) show keepalive
keepalive (Global Config) show keepalive statistics
keepalive action
–
Layer 2 Switching Commands 574
User Guidelines
Loop protection operates by unicasting a Configuration Test Protocol (CTP)
reply packet with the following field settings:
• Source MAC Address:switch L3 MAC address
• Destination MAC Address: Switch L3 MAC address
• Ether Type: 0x0900 (LOOP)
• Skip Count: 0
• Functions: Reply
• Receipt Number: 0
• Data: 0
Since all switch ports share the same MAC address, if any interface receives
CTP packets transmitted by the switch in excess of the configured limit, that
interface is error disabled with a Loop Protection cause.
The switch never sends a response to received CTP packets. The switch may
flood the first few CTP packets it receives until a MAC address entry is placed
in the CAM.
The CTP protocol operates on physical Ethernet interfaces only. It does not
operate over Link Aggregation Groups. It may be configured to operate on
LAG members.
The CTP protocol does not operate over the out-of-band interface.
Command History
Implemented in version 6.3.0.1 firmware.
Example
The following example enables loop protection on an interface:
console(config)#keepalive
console(config)#interface gi1/0/1
console(config-if-Gi1/0/1)#keepalive
This example disables loop protection on an interface:
console(config)#interface gi1/0/1
console(config-if-Gi1/0/1)#no keepalive
Layer 2 Switching Commands 575
keepalive (Global Config)
Use the keepalive command in Global Configuration mode to enable
keepalive or to configure the loop protection timer and packet count. Use the
no form of the command to return the configuration to the defaults.
Syntax
keepalive [ period [ count ] ]
no keepalive
• period – Configures the interval for the transmission of keepalive packets.
Default: 10 seconds
• count – Configures the number of consecutive CTP packets addressed to
and received by the local switch before the interface is error disabled.
Default: 3 packets.
Default Configuration
Loop protection is disabled globally by default.
The default period is 10 seconds.
The default count is 3 packets.
Command Mode
Global Configuration mode
User Guidelines
Loop protect must be enabled individually on a physical interface as well as
globally.
If only the period parameter is specified, the count parameter remains
unchanged.
Loop protection may only be enabled on physical interfaces, not on port
channels or any virtual interfaces.
Command History
Implemented in version 6.3.0.1 firmware.
Layer 2 Switching Commands 576
Example
The following example configures the CTP transmit interval to transmit CTP
packets every 5 seconds.
console(config)#keepalive 5
This example configures the CTP transmit interval to 5 seconds. If an
interface receives two CTP packets, it error disables the interface.
console(config)#keepalive 5 2
In the next example, if the CTP transmit interval is configured to 5 seconds,
if an interface receives three CTP packets, it will error disable the interface.
console(config)#no keepalive
keepalive action
Use the keepalive action command to configure the action taken when a loop
is detected on an interface. Use the no form of the command to return the
action to the default.
Syntax
keepalive action {error-disable | log-only}
no keepalive action
•
error-disable
— When a loop is detected, the interface is disabled and a
log message is issued.
•
log-only
— When a loop is detected, a log message is issued and the
interface is not error disabled.
Default Configuration
The default is to error disable the interface when a loop is detected.
Command Mode
Interface Configuration mode
Layer 2 Switching Commands 577
User Guidelines
Error disabled interfaces can be configured to auto-recover using the
errdisable recovery cause loop-protect command. Keep-alive should only be
configured on interfaces that do not participate in spanning-tree. Keep-alive
may disable interfaces in the spanning-tree designated (blocked) role.
Command History
Implemented in version 6.3.0.1 firmware. Syntax corrected in 6.4 release.
Example
The following example configures loop protection to log detected loop
conditions without error disabling the port.
console(config)#interface gi1/0/1
console(config-if-Gi1/0/1)#keepalive action log
show keepalive
Use the show keepalive command to display the global loop protect
configuration.
Syntax
show keepalive
Default Configuration
There is no default configuration.
Command Mode
Privileged Exec mode and configuration submodes.
User Guidelines
The following information is displayed.
Field Description
Keepalive Service The Keepalive service configuration
(Enabled, Disabled).
Layer 2 Switching Commands 578
Command History
Implemented in version 6.3.0.1 firmware. Example updated in 6.4 version.
Example
console#show keepalive
Keepalive Service.............................. Enabled
Transmit Interval.............................. 10
Retry Count.................................... 3
show keepalive statistics
Use the show keepalive statistics command to display the loop protect status
for one or all interfaces.
Syntax
show keepalive statistics {interface-id | all}
•
interface-id
— Displays the statistics for the specified Ethernet (Physical)
interface.
•
all
— Displays statistics for all interfaces.
Default Configuration
There is no default configuration.
Command Mode
Privileged Exec mode and all configuration sub modes
Transmit Interval The transmission interval in seconds.
Retry Count The number of times a keepalive packet
must be seen before a looped state is
declared.
Field Description
Layer 2 Switching Commands 579
User Guidelines
The following information is displayed.
Command History
Implemented in version 6.3.0.1 firmware.
Example
console#show keepalive statistics gi1/0/3
Keep Loop Loop Time Since Rx Port
Port Alive Detected Count Last Loop Action Status
-------- --------- ----------- -------- ------------- ------------- --------
Gi1/0/3 Yes No Error disable Enable
Field Description
Port The interface identifier.
Keep Alive Are keepalives transmitted on this interface (Yes,
No)?
Loop Detected Has a loop been detected (Yes, No)?
Loop Count The number of CTP packets detected.
Time Since Last Loop The last time a loop was detected.
Rx Action Action when a loop is detected (Error disable, Log).
Port Status Current port status (Enable, Disable).
Layer 2 Switching Commands 580
MLAG Commands
Dell EMC Networking N2000/N2100-ON/N3000/N3100-ON/N4000
Series Switches
MLAG enables a LAG to be created across two independent switches, so that
some member ports of a MLAG can reside on one switch and the other
members of a MLAG can reside on another switch. The partner switch on the
remote side can be a MLAG-unaware unit. To the MLAG unaware switch, the
MLAG appears to be a single LAG connected to a single switch.
NOTE: This feature is not available on the N3000 when loaded with the
AGGREGATION ROUTER-enabled firmware (e.g., N3000_BGPvA.B.C.D.stk).
Commands in this Section
This section explains the following commands:
clear vpc statistics
Use the clear vpc statistics command to clear the counters for the keepalive
messages transmitted and received by the MLAG switch.
Syntax
clear vpc statistics {peer-keepalive | peer-link}
clear vpc statistics show vpc consistency-parameters
feature vpc show vpc consistency-features
peer detection enable show vpc peer-keepalive
peer detection interval show vpc role
peer-keepalive destination show vpc statistics
peer-keepalive enable system-mac
peer-keepalive timeout system-priority
role priority vpc
show vpc vpc domain
show vpc brief vpc peer-link
Layer 2 Switching Commands 581
Default Configuration
There is no default configuration for this command.
Command Modes
Privileged Exec mode
User Guidelines
There are no user guidelines for this command.
Example
console#clear vpc statistics
feature vpc
The feature vpc command globally enables MLAG. Use the no form of the
command to globally disable MLAG.
Syntax
feature vpc
no feature vpc
Default Configuration
By default, the MLAG feature is not globally enabled.
Command Modes
Global Configuration mode
User Guidelines
The MLAG configuration is retained even when the feature is disabled. The
peer link will not be enabled if the VPC feature is not enabled.
MLAG role election occurs if the MLAG feature is enabled and the keepalive
state machine is enabled.
Example
console#configure terminal
console(config)#feature vpc
Layer 2 Switching Commands 582
peer detection enable
Use the peer detection enable command to enable the Dual Control Plane
Detection Protocol. This enables the detection of peer MLAG switches and
suppresses state transitions out of the secondary state in the presence of peer
link failures.
Use the no form of the command to disable the dual control plane detection
protocol.
Syntax
peer detection enable
no peer detection enable
Default Configuration
Dual Control Plane Detection Protocol is disabled by default.
Command Modes
MLAG Domain Configuration mode
Usage Guidelines
Use of the Dual Control Plane Detection Protocol is optional. It provides a
second layer of redundancy beyond that provided by the peer link protocol.
System that operate without the DCPDP protocol enabled (and use static
LAGs) run the risk of a split brain scenario in the case of peer link failure.
Example
console(config)#vpc domain 1
console(config-vpc 1)#peer-keepalive enable
console(config-vpc 1)#peer-keepalive destination 192.168.0.2 source
192.168.0.1
console(config-vpc 1)#peer detection enable
console(config-vpc 1)#exit
peer detection interval
Use this command to configure the peer detection transmission interval and
the detection interval. Use the no form of the command to return the
transmission and detection intervals to the default.
Layer 2 Switching Commands 583
Syntax
peer detection interval interval-msecs timeout timeout-msecs
no peer detection interval
• interval-msecs—The peer keepalive timeout in seconds. The range is 200–
4000 milliseconds.
• timeout-msecs—The peer timeout value in milliseconds. The range is
700–14000 milliseconds.
Default Configuration
The default transmission interval is 1000 milliseconds. The default reception
timeout is 3500 milliseconds.
Command Modes
VPC Domain mode
User Guidelines
This command configures the DCPDP transmission and timeout values. If an
MLAG switch does not receive DCPDP messages from the peer for the
configured timeout value, it takes the decision to transition its role (if
required).
Command History
Introduced in version 6.2.0.1 firmware.
Example
console(config-vpc 1)#peer detection interval 750 timeout 3000
peer-keepalive destination
Use the peer-keepalive destination command to enable the Dual Control
Plane Detection Protocol with the configured IP address of the peer MLAG,
the local source address and the peer timeout value. The UDP port on which
the MLAG switch listens to the Dual Control Plane Detection Protocol
messages is also configurable with this command.
Use the no form of the command to return the configuration to the default.
Layer 2 Switching Commands 584
Syntax
peer-keepalive destination ipaddress source srcaddr [udp-port port]
no peer-keepalive destination
• ipaddress—The ip address of the MLAG peer.
• port—The UDP port number to use to listen for peer Dual Control Plane
Detection Protocol packets.
• srcaddr—The local source address to use.
Default Configuration
There are no Dual Control Plane Detection Protocol peers configured by
default.
Command Modes
MLAG Domain Configuration mode
User Guidelines
Changes to the DCPDP configuration do not take effect until the protocol is
disabled and then re-enabled. Both the local switch and the MLAG peer
switch must be configured identically. The recommended procedure to
update these parameters is to disable the DCPDP protocol on both switches,
configure the new parameters on both switches, and then re-enable the
DCPDP protocol on both switches.
The Dual Control Plane Detection Protocol is a UDP-based protocol. The
administrator must configure this protocol on an IP interface with a VLAN
that is not shared with any of the MLAG interfaces. This can include the out-
of-band port. When enabled, the dual-control plane detection protocol sends
a control plane detection message to the peer once every second. The
message is unidirectional and contains the sender’s MAC address. When a
switch receives a control plane detection message it sets the ‘peer is UP’
variable to TRUE to indicate that a peer is detected.
Do not configure DCPDP to use a port reserved by the switch. UDP, TCP and
RAW ports reserved by the switch and unavailable for use or configuration
are:
Ports 1, 17, 58, 255, 546, 547, 2222, 4567, 6343, 49160
Layer 2 Switching Commands 585
Example
console(config)#vpc domain 1
console(config-vpc 1)#peer-keepalive enable
console(config-vpc 1)#peer-keepalive destination 192.168.0.2 source
192.168.0.1
console(config-vpc 1)#peer detection enable
console(config-vpc 1)#exit
peer-keepalive enable
Use the peer-keepalive enable command to enable the peer keepalive
protocol on the peer link. When enabled, if an MLAG switch does not receive
keepalive messages from the peer within the timeout value and DCPDP is
disabled, the switch begins the process of transitioning to the primary role (if
standby).
Use the no form of the command to disable the peer keepalive protocol.
Syntax
peer-keepalive enable
no peer-keepalive enable
Default Configuration
The peer keepalive protocol is disabled by default.
Command Modes
MLAG Domain Configuration mode
User Guidelines
MLAG will not become operational until the peer keepalive protocol detects
a peer and syncs the peer information. Peer keepalive timeout state
transitions are suppressed if the Dual Control Plan Detection (DCPDP) is
enabled and detects that the peer is still alive.
Two failure situations cause state transitions:
• The peer device fails: A peer does not receive any more advertisements and
the timeout timer expires.
Layer 2 Switching Commands 586
• Secondary device fails: All MLAG members’ port information
regarding the secondary device that the primary switch maintains are
removed from the primary switch. Forwarding and control processing
continues on the local MLAG ports on the primary switch. Once the
secondary comes back up again, it starts the keepalive protocol and, if
successful in contacting the primary device, moves to the secondary
state. It then initiates an FDB sync and becomes operational again.
• Primary device fails: The secondary device transitions to primary state
and continues forwarding traffic on its local MLAG ports. It also starts
processing control messages. The MLAG connected devices see a
change in the source MAC address. Once the peer device comes up
again, it starts the keepalive protocol and transitions to the secondary
state.
• The peer-link fails: This occurs when either switch cannot contact the peer
through the peer keepalive protocol and the DCPDP protocol. The
secondary switch transitions to a primary role which results in two primary
switches. Both primaries continue forwarding traffic. Each primary also
processes control traffic and sends LACP and BPDU packets with a unique
source MAC address (the system MAC of the local switch). The MLAG
connected devices become aware that they are connected to two devices
and, if LACP is enabled, block the links to one of the peers as a new actor
ID is received. STP re-convergence may also occur in this scenario.
Example
console(config)#vpc domain 1
console(config-vpc 1)#peer-keepalive enable
console(config-vpc 1)#peer-keepalive destination 192.168.0.2 source
192.168.0.1
console(config-vpc 1)#peer detection enable
console(config-vpc 1)#exit
peer-keepalive timeout
Use this command to configure the peer keepalive timeout value, in seconds.
Use the no form of this command to return the timeout value to the default.
Syntax
peer-keepalive timeout value
Layer 2 Switching Commands 587
no peer-keepalive timeout
• value—The peer keepalive timeout value in seconds. The range is 2 to 15
seconds.
Default Configuration
By default, the keepalive timeout value is 5 seconds.
Command Modes
VPC Domain
User Guidelines
This command configures the peer keepalive timeout value (in seconds). If an
MLAG switch does not receive keepalive messages from the peer for this
timeout value, it takes the decision to transition its role (if required).
The keepalive state machine is not restarted if keepalive priority is modified
post election.
Command History
Introduced in version 6.2.0.1 firmware.
Example
console(config-vpc 1)# peer-keepalive timeout 10
role priority
Use the role priority command to configure the priority value used on a
switch for primary/secondary role selection. The primary switch is responsible
for maintaining and propagating spanning-tree and link-aggregation to the
secondary switch.
Use the no form of the command to return the switch priority to the default
value.
Syntax
role priority value
no role priority
Layer 2 Switching Commands 588
• Value—The local switch priority value. (The range is 1-255.)
Default Configuration
The default priority value is 100.
Command Modes
MLAG Domain Configuration mode
User Guidelines
This value is used for the MLAG role election and is sent to the MLAG peer
in the MLAG keepalive messages. The MLAG switch with the numerically
lower priority value becomes the Primary and the switch with higher priority
becomes the Secondary. If both the MLAG peer switches have the same role
priority, the device with lower system MAC address becomes the Primary
switch.
Changes to the priority value are not preemptive. The keepalive role selection
state machine is not restarted even if the keepalive priority is modified post
election. This means that priority value changes in a running MLAG domain
do not affect the selection of the primary and secondary switches. In order for
changes to take effect, disable the VPC with the no feature vpc command
and re-enable it.
Example
console(config-vpc 1)#role priority 30
show vpc
Use the show vpc command to display MLAG information. The
configuration and operational modes of the MLAG are displayed. The MLAG
is operationally enabled if all preconditions are met. The port channel
configured as an MLAG interface is also displayed along with the member
ports on the current switch and peer switch (plus their link status).
Syntax
show vpc id
• id—A valid MLAG identifier.
Layer 2 Switching Commands 589
Default Configuration
There is no default configuration for this command.
Command Modes
Privileged Exec mode and above
User Guidelines
There are no user guidelines for this command.
Example
(console)# show vpc 10
VPC Id 10
-----------------
Configuration mode......................Enabled
Operational mode........................Enabled
Port channel................................Po1
Self member ports Status
------------------------ ---------
Gi1/0/2 Up
Gi1/0/6 Down
show vpc brief
Use the show vpc brief command to display the MLAG global status. The
command displays the current MLAG operational mode as well as the
peerlink and keepalive status is also displayed. The number of configured and
operational MLAGs along with the system MAC and role are also displayed.
Syntax
show vpc brief
Default Configuration
There is no default configuration for this command.
Command Modes
Privileged Exec mode and above
Layer 2 Switching Commands 590
User Guidelines
A VPC domain ID must be configured for this command to display the VPC
status.
Only the Primary switch maintains the member status of the Secondary
switch. The Secondary switch does not maintain or show the status of the
Primary switch peer members.
A VPC instance may show as enabled even if all of the port-channels that are
members of the VPC are disabled or all of the links in the port channels are
disabled. A VPC will show as disabled if peer-link (or DCPDP) connectivity is
lost.
The Keepalive admin status field shows the status of the peer-link protocol.
The VPC operational status shows the overall MLAG status.
The Peer detection admin status field shows the status of the DCPDP
protocol.
Example
console#show vpc brief
VPC domain id is not configured.
console#show vpc brief
VPC Domain ID...................................2
VPC admin status................................Disabled
Keepalive admin status..........................Disabled
VPC operational status..........................Disabled
Self role.......................................None
Peer role.......................................None
Peer detection admin status.....................Disabled
Operational VPC MAC.............................F8B1.562B.A1D6
Operational VPC system priority................ 100
Peer-Link details
-----------------
Interface.......................................Po1
Peer-link admin status..........................Enabled
Peer-link STP admin status......................Disabled
Configured VLANs................................1,10,11,12,13,14,15,16,17
VPC Details
-----------
Layer 2 Switching Commands 591
Number of VPCs configured...................... 2
Number of VPCs operational..................... 2
VPC id# 1
-----------
Interface...................................... Po2
Configured Vlans............................... 1,10,11,12,13,14,15,16,17
VPC Interface State............................ Active
Local MemberPorts Status
----------------- ------
Gi1/0/23 UP
Gi1/0/24 UP
Peer MemberPorts Status
---------------- ------
Gi1/0/23 UP
Gi1/0/24 UP
VPC id# 2
-----------
Interface...................................... Po3
Configured Vlans............................... 1,10,11,12,13,14,15,16,17
VPC Interface State............................ Active
show vpc consistency-parameters
Use the show vpc consistency parameters on both MLAG peers to display
MLAG related configuration information in a format suitable for comparison
with the other MLAG peer.
Syntax
show vpc consistency-parameters { global | interface port-channel-number }
• port-channel-number—A valid port-channel identifier.
Default Configuration
There is no default configuration for this command.
Command Modes
Privileged Exec mode and above
Layer 2 Switching Commands 592
User Guidelines
There are no user guidelines for this command.
Command History
Introduced in 6.2.0.1 firmware.
Updated in 6.3.0.1 firmware.
Example
console# show vpc consistency-parameters global
Parameter Value
--------------------- -------------------------------------------
STP Mode Enabled
STP Version IEEE 802.1s
BPDU Filter Mode Enabled
BPDU Guard Mode Enabled
MST Instances 1,2,4
FDB Aging Time 300 seconds
VPC System MAC Address <AA:BB:CC:DD:EE:FF>
VPC System Priority 32767
VPC System MAC Address 00:1E:C9:DE.A2:08
VPC System Priority 32767
VPC Domain ID 1
MST VLAN Configuration
Instance Associated VLANs
------------- -----------------------------------
1 7,8,10,20
2 4,5,40-50
4 30,32,34-38
RSTP-PV Configuration
Direct Rapid Convergence: Enabled/Disabled
DRC Update Rate: <0-32000> per second
Indirect Rapid Convergence: Enabled/Disabled
VLAN STP STP Hello Forward Maximum Priority
Mode Root Time Time Age
----- -------- ------- ----- ------- -------- ---------
4 Enabled Primary 2 15 15 0
switch# show vpc consistency-parameters interface port-channel 2
Layer 2 Switching Commands 593
Parameter
Name Value
---------------- ---------------------------
Port Channel Mode Enabled
STP Mode Enabled
BPDU Filter Mode Enabled
BPDU Flood Mode Enabled
Auto-edge FALSE
TCN Guard True
Port Cost 2
Edge Port True
Root Guard True
Loop Guard True
Hash Mode 3
Minimum Links 1
Channel Type Static
Configured VLANs 4,5,7,8
MTU 1518
Active Port Speed Duplex
------------ --------- --------
Gi1/0/1 100 Full
Gi1/0/2 100 Full
MST VLAN Configuration
Instance Associated VLANS
------------- -----------------------------------
1 7,8
2 4,5
RSTP-PV Configuration:
STP Port Priority: <0-240>
VLAN Port Priority Cost
------- ----------------- ---------------------------
<ID> <0-240> Auto | <1- 200000000>
show vpc consistency-features
Use the show vpc consistency parameters on both MLAG peers to display
MLAG related configuration information in a format suitable for comparison
with the other MLAG peer.
Layer 2 Switching Commands 594
Syntax
show vpc consistency-features { global | interface port-channel-number }
• port-channel-number—A valid port-channel identifier.
Default Configuration
There is no default configuration for this command.
Command Modes
Privileged Exec mode and above
User Guidelines
There are no user guidelines for this command.
show vpc peer-keepalive
Use the show vpc peer-keepalive command to display the peer MLAG
switch’s IP address used by the Dual Control Plane Detection Protocol. The
port used for the Dual Control Plane Detection Protocol is shown, as well as if
peer detection is enabled or not. If enabled, the detection status is displayed.
Syntax
show vpc peer-keepalive
Default Configuration
There is no default configuration for this command.
Command Modes
Privileged Exec mode and above
User Guidelines
A VPC domain ID must be configured for this command to display the
keepalive status.
Example
(Switching) # show vpc peer-keepalive
Layer 2 Switching Commands 595
Peer IP address............................10.130.14.55
Source IP address..........................10.130.14.54
UDP port...................................50000
Peer detection admin status................Enabled
Peer detection operational status..........Up
Peer is detected...........................True
Configured Tx interval.....................500 milliseconds
Configured Rx timeout......................2000 milliseconds
Operational Tx interval....................500 milliseconds
Operational Rx timeout.....................2000 milliseconds
show vpc role
Use the show vpc role command to display information about the keepalive
status and parameters. The role of the MLAG switch as well as the system
MAC and priority are displayed.
Syntax
show vpc role
Default Configuration
There is no default configuration for this command.
Command Modes
Privileged Exec mode and above
User Guidelines
A VPC domain ID must be configured for this command to display the VPC
role.
Example
console# show vpc role
Self
----
VPC domain ID...................................1
Keepalive config mode.......................... Enabled
Keepalive operational mode..................... Enabled
Role Priority.................................. 100
Configured VPC MAC..............................<AA:BB:CC:DD:EE:FF>
Operational VPC MAC.............................<AA:BB:CC:DD:EE:FF>
Layer 2 Switching Commands 596
Configured VPC system priority..................32767
Operational VPC system priority.................32767
Local System MAC..................................... 00:10:18:82:18:63
Timeout........................................ 5
VPC State...................................... Primary
VPC Role....................................... Primary
Peer
----
VPC Domain ID.................................. 1
Role Priority.................................. 100
Configured VPC MAC..............................<AA:BB:CC:DD:EE:FF>
Operational VPC MAC.............................<AA:BB:CC:DD:EE:FF>
Configured VPC system priority..................32767
Operational VPC system priority.................32767
Role............................................Secondary
Local System MAC................................00:10:18:82:1b:ab
show vpc statistics
Use the show vpc statistics command to display the counters for the keepalive
messages transmitted and received by the MLAG switch.
Syntax
show vpc statistics {peer-keepalive | peer-link}
Default Configuration
There is no default configuration for this command.
Command Modes
Privileged Exec mode and above
User Guidelines
There are no user guidelines for this command.
Example
(console)# show vpc statistics peer-keepalive
Total transmitted.......................................123
Tx successful...........................................118
Tx errors...............................................5
Layer 2 Switching Commands 597
Total received..........................................115
Rx successful...........................................108
Rx Errors...............................................7
Timeout counter.........................................6
(console)# show vpc statistics peer-link
Peer link control messages transmitted..................123
Peer link control messages Tx errors................... 5
Peer link control messages Tx timeout.................. 4
Peer link control messages ACK transmitted............. 34
Peer link control messages ACK Tx errors............... 5
Peer link control messages received.................... 115
Peer link data messages transmitted.................... 123
Peer link data messages Tx errors...................... 5
Peer link data messages Tx timeout..................... 4
Peer link data messages ACK transmitted................ 34
Peer link data messages ACK Tx errors.................. 5
Peer link data messages received....................... 115
Peer link BPDU’s transmitted to peer................... 123
Peer link BPDU’s Tx error.............................. 9
Peer link BPDU’s received from peer.................... 143
Peer link BPDU’s Rx error.............................. 1
Peer link LACPDU’s transmitted to peer................. 123
Peer link LACPDU’s Tx error............................ 9
Peer link LACPDU’s received from peer.................. 143
Peer link LACPDU’s Rx error............................ 1
(console)#show vpc statistics peer-link
Peer link control messages transmitted......... 24
Peer link control messages Tx errors........... 0
Peer link control messages Tx timeout.......... 0
Peer link control messages ACK transmitted..... 23
Peer link control messages ACK Tx errors....... 0
Peer link control messages received............ 23
Peer link data messages transmitted............ 73
Peer link data messages Tx errors.............. 0
Peer link data messages Tx timeout............. 0
Peer link data messages received............... 73
Peer link BPDU's transmitted to peer........... 0
Peer link BPDU's Tx errors..................... 0
Peer link BPDU's received from peer............ 0
Peer link BPDU's Rx errors..................... 0
Peer link LACPDU's transmitted to peer......... 73
Peer link LACPDU's Tx errors................... 0
Peer link LACPDU's received from peer.......... 73
Peer link LACPDU's Rx errors................... 0
Layer 2 Switching Commands 598
system-mac
Use this command to manually configures the MAC address for the VPC
domain. Use the no form of the command to revert the domain MAC address
to the default value.
Syntax
system-mac mac-address
no system-mac
• mac-address—The system MAC address for the VPC domain.
Default Configuration
By default, the domain uses a pre-configured MAC address.
Command Modes
VPC domain mode
User Guidelines
The VPC domain MAC address must be the same on both MLAG peer
devices. The MAC address is a unicast MAC address in aa:bb:cc:dd:ee:ff
format and is not equal to the physical MAC address of either the primary
VPC or secondary VPC device. The configured VPC domain MAC address is
exchanged during role election and, if configured differently on the peer
devices, VPC does not become operational.
The configured domain MAC address is present in the LACP PDUs and STP
BPDUs that are sent on VPC member ports if VPC primary device election
takes place after the VPC MAC address is configured. When the VPC MAC
address is configured after the VPC primary device is elected, already agreed
upon operational VPC MAC address is used in the LACP PDUs and STP
BPDUs instead of the configured VPC MAC address.
Command History
Introduced in version 6.2.0.1 firmware.
Example
console(config-vpc 1)system-mac 00A2.64B3.A245
Layer 2 Switching Commands 599
system-priority
Use this command to manually configure the priority for the VPC domain.
Use the no form of the command to revert the priority to the default value.
Syntax
system-priority priority
no system-priority
• priority—The priority for the VPC domain. Range is 1-65535.
Default Configuration
By default, the system priority is 32767.
Command Modes
VPC domain mode
User Guidelines
The system priority must be configured identically on all VPC peers. If the
configured VPC system priority is different on any VPC peer, the VPC will
not come up.
The system-priority is present in the LACP PDUs that are sent out on VPC
member ports. When the VPC system priority is configured after a VPC
primary device is elected, the already agreed operational VPC system priority
is used in the LACP PDUs instead of the newly configured VPC system
priority.
Command History
Introduced in version 6.2.0.1 firmware.
Example
console(config-vpc 1) system-priority 2774
Layer 2 Switching Commands 600
vpc
Use the vpc command to configure a port-channel (LAG) as part of an
MLAG instance. Upon issuing this command, the port-channel is down until
the port-channel member information is exchanged and agreed between the
MLAG peer switches.
Use the no form of the command to remove the LAG from the MLAG
domain.
Syntax
vpc vpc-id
no vpc vpc-id
• vpc-id—The MLAG identifier.
Default Configuration
LAGs are not members of an MLAG domain by default. It is expected that all
links belonging to an MLAG instance are connected to switch (or switches)
which consider the links to be members of a single LAG.
This configuration must be present on both the primary and secondary
switches.
The port channel number and VPC number can be different from each other
but the mapping must be the same on the primary and secondary MLAG
peers (i.e., the port channel number must map to the same VPC number on
both MLAG peers).
Command Modes
Port-channel mode
User Guidelines
The peer keepalive protocol is required for MLAG operation. Configure a
LAG between the two MLAG peers as an MLAG peer link before executing
this command.
Example
console(config)#interface po3
console(config-if-Po3)#switchport mode trunk
Layer 2 Switching Commands 601
console(config-if-Po3)#switchport trunk allowed vlan 1-99,101-4093
console(config-if-Po3)#vpc 2
console(config-if-Po3)#exitconsole(config)#interface po3
console(config-if-Po3)#switchport mode trunk
console(config-if-Po3)#switchport trunk allowed vlan 1-99,101-4093
console(config-if-Po3)#vpc 2
console(config-if-Po3)#exit
vpc domain
Use the vpc domain command to enter into MLAG configuration mode. This
command creates an MLAG domain and enters into MLAG configuration
mode. Use the no form of the command to delete the VPC domain, disable
peer-keepalive and peer detection in the domain, and reset all the configured
parameters (role priority, VPC MAC address and VPC system priority) for the
VPC domain.
Syntax
vpc domain domain-id
• domain-id—The MLAG domain instance. The range is 1-255.
Default Configuration
By default, no MLAG domains are configured.
Command Modes
Global Configuration mode
User Guidelines
Only one MLAG domain per MLAG is supported. This command creates a
VPC domain with the specified domain-id and enters into the VPC domain
configuration mode. Only one VPC domain can be created on a given device.
The domain-id of the VPC domain should be equal to the one configured on
the other VPC peer with this device wants to form a VPC pair. The configured
VPC domain-ids are exchanged during role election and if they are configured
differently on the peer devices, then VPC does not become operational.
The administrator needs to ensure that the no two VPC domains share the
same VPC domain-id. The domain-id is used to derive the auto-generated
VPC MAC address used in the actor ID field in the LACP PDUs and STP
Layer 2 Switching Commands 602
BPDUs sent out on VPC interfaces. If two VPC domains have the identical
domain-ids, the resulting actor IDs may lead to LACP or STP convergence
issues.
Example
console(config)#vpc domain 1
console(config-vpc 1)#peer-keepalive enable
console(config-vpc 1)#peer-keepalive destination 192.168.0.2 source
192.168.0.1
console(config-vpc 1)#peer detection enable
console(config-vpc 1)#exit
vpc peer-link
Use the vpc peer-link command to configure a port channel as the MLAG
peer link for a domain and enables the peer link protocol.
Use the no form of the command to remove the peer link configuration from
an MLAG domain and disable the peer link protocol.
Syntax
vpc peer-link
no vpc peer-link
Default Configuration
There are no peer links configured by default.
Command Modes
Port-channel configuration mode
User Guidelines
This configuration must the present on both the primary and secondary
switches. The peer keepalive protocol is required for MLAG operation.
Configure and enable a LAG between the two MLAG peers as an MLAG peer
link before executing this command.
Example
console(config)#interface port-channel 1
console(config-if-Po1)#description "MLAG-Peer-Link"
Layer 2 Switching Commands 603
console(config-if-Po1)#spanning-tree disable
console(config-if-Po1)#switchport mode trunk
console(config-if-Po1)#switchport trunk allowed vlan 1-99,101-4093
console(config-if-Po1)#vpc peer-link
console(config-if-Po1)#exit
Layer 2 Switching Commands 604
Multicast VLAN Registration
Commands
Dell EMC Networking N1100-ON/N2000/N2100-ON/N3000/N3100-
ON/N4000 Series Switches
Multicast VLAN registration (MVR) is a method for consolidating multicast
traffic from multiple VLANs onto a single VLAN. A typical usage scenario
would be the distribution of a multicast group to a switch using a single
VLAN where the switch has users in different VLANs subscribing to the
multicast group. MVR enables the distribution of the multicast group from
the single consolidated VLAN onto the multiple user VLANs.
MVR, like the IGMP Snooping protocol, allows a Layer 2 switch to snoop on
the IGMP control protocol. Both protocols operate independently from each
other. Both protocols may be enabled on the switch interfaces at the same
time. In such a case, MVR is listening to the join and report messages only for
groups configured statically. All other groups are managed by IGMP snooping.
There are two types of MVR ports: source and receiver.
• Source port is the port to which the multicast traffic is flowing using the
multicast VLAN.
• Receiver port is the port where a listening host is connected to the switch.
It can utilize any (or no) VLAN, except the multicast VLAN. This implies
that the MVR switch will perform VLAN tag substitution from the
multicast VLAN Source port to the VLAN tag used by the receiver port.
The Multicast VLAN is the VLAN that is configured in the specific network
for MVR purposes. It must be manually specified by the operator for all
multicast source ports in the network. It is this VLAN that is used to transfer
multicast traffic over the network to avoid duplication of multicast streams
for clients in different VLANs.
NOTE: MVR can only be enabled on physical interfaces, not on LAGs or VLANs.
NOTE: This feature is not available on the N3000 when loaded with the
AGGREGATION ROUTER-enabled firmware (e.g., N3000_BGPvA.B.C.D.stk).
Layer 2 Switching Commands 605
Commands in this Section
This section explains the following commands:
mvr
Use the mvr command in Global Configuration and Interface Configuration
modes to enable MVR. Use the no form of this command to disable MVR.
Syntax
mvr
no mvr
Default Configuration
The default value is Disabled.
Command Mode
Global Configuration, Interface Configuration
User Guidelines
MVR can only be configured on physical interfaces.
mvr group
Use the mvr group command in Global Configuration mode to add an MVR
membership group. Use the no form of the command to remove an MVR
membership group.
mvr mvr type
mvr group mvr vlan group
mvr mode show mvr
mvr querytime show mvr members
mvr vlan show mvr interface
mvr immediate show mvr traffic
Layer 2 Switching Commands 606
Syntax
mvr group A.B.C.D [count]
no mvr group A.B.C.D [count]
• A.B.C.D—Specify a multicast group.
• count—Specifies the number of multicast groups to configure. Groups are
configured contiguously by incrementing the first group specified.
Default Configuration
This command has no default configuration.
Command Mode
Global Configuration
User Guidelines
The following table lists the completion messages.
Example
console(config)#mvr
console(config)#mvr group 239.0.1.0 31
console(config)#mvr vlan 10
mvr mode
Use the mvr mode command in Global Configuration mode to change the
MVR mode type. Use the no form of the command to set the mode type to
the default value.
Syntax
mvr mode {compatible | dynamic}
Message Type Message Description
Successful Completion Message None
Error Completion Message
• Not an IP multicast group address
• Illegal IP multicast group address
Layer 2 Switching Commands 607
no mvr mode
•compatible—Do not allow membership joins on source ports.
•dynamic—Send IGMP joins to the multicast source when IGMP joins are
received on receiver ports.
Default Configuration
The default mode is compatible.
Command Mode
Global Configuration
User Guidelines
This command has no user guidelines.
mvr querytime
Use the mvr querytime command in Global Configuration mode to set the
MVR query response time. The query time is the maximum time to wait for
an IGMP membership report on a receiver port before removing the port from
the multicast group after receiving a leave message. The query time only
applies to receiver ports and is specified in tenths of a second.
Use the no form of the command to set the MVR query response time to the
default value.
Syntax
mvr querytime 1–100
no mvr querytime
Default Configuration
The default value is 5 tenths of a second.
Command Mode
Global Configuration
Layer 2 Switching Commands 608
User Guidelines
The following table lists the completion messages.
Example
console(config)#interface Gi1/0/1
console(config-if-Gi1/0/1)#switchport access vlan 2
console(config-if-Gi1/0/1)#mvr
console(config-if-Gi1/0/1)#mvr type receiver
console(config-if-Gi1/0/1)#exit
console(config)#mvr mode dynamic
console(config)#mvr querytime 10
mvr vlan
Use the mvr vlan command in Global Configuration mode to set the MVR
multicast VLAN. Use the no form of the command to set the MVR multicast
VLAN to the default value.
Syntax
mvr vlan vlan-id
no mvr vlan
•
vlan-id
—
Specifies the port on which multicast data is expected to be received.
Source ports should belong to this VLAN.
Default Configuration
The default value is 1.
Command Mode
Global Configuration
User Guidelines
The following table lists the completion messages.
Message Type Message Description
Successful Completion Message Defaulting MVR query response time.
Error Completion Message None
Layer 2 Switching Commands 609
mvr immediate
Use the mvr immediate command in Interface Configuration mode to enable
MVR Immediate Leave mode. Use the no form of this command to set the
MVR multicast VLAN to the default value.
Syntax
mvr immediate
no mvr immediate
Default Configuration
The default value is Disabled.
Command Mode
Interface Configuration
User Guidelines
Immediate leave should only be configured on ports with a single receiver.
When immediate leave is enabled, a receiver port will leave a group on receipt
of a leave message. Without immediate leave, upon receipt of a leave
message, the port sends an IGMP query and waits for an IGMP membership
report.
Example
console(config)#interface Gi1/0/1
console(config-if-Gi1/0/1)#switchport access vlan 10
console(config-if-Gi1/0/1)#mvr
console(config-if-Gi1/0/1)#mvr type receiver
console(config-if-Gi1/0/1)#mvr immediate
console(config-if-Gi1/0/1)#exit
console(config)#mvr mode dynamic
Message Type Message Description
Successful Completion Message MVR multicast VLAN ID is set to the
default value which is equal to 1.
Error Completion Message Receiver port in mVLAN, operation failed.
Layer 2 Switching Commands 610
mvr type
Use the mvr type command in Interface Configuration mode to set the MVR
port type. Use the no form of this command to set the MVR port type to
None.
Syntax
mvr type {receiver | source}
no mvr type
•receiver—Configure the port as a receiver port. Receiver ports are ports
over which multicast data will be sent but not received.
•source—Configure the port as a source port. Source ports are ports over
which multicast data is received or sent.
Default Configuration
The default value is None.
Command Mode
Interface Configuration
User Guidelines
The following table lists the completion messages.
Example
console(config)#mvr
console(config)#mvr group 239.1.1.1
console(config)#vlan 99
console(config-vlan99)#exit
console(config)#interface Gi1/0/1
console(config-if-Gi1/0/1)#switchport access vlan 10
console(config-if-Gi1/0/1)#mvr
Message Type Message Description
Successful Completion Message None
Error Completion Message
• Port is a Trunk port, operation failed.
• Receiver port in mVLAN, operation failed.
Layer 2 Switching Commands 611
console(config-if-Gi1/0/1)#mvr type receiver
console(config-if-Gi1/0/1)#interface Gi1/0/24
console(config-if-Gi1/0/24)#switchport mode trunk
console(config-if-Gi1/0/24)#switchport trunk native vlan 99
console(config-if-Gi1/0/24)#switchport trunk allowed vlan add 99
console(config-if-Gi1/0/24)#mvr
console(config-if-Gi1/0/24)#mvr type source
console(config-if-Gi1/0/24)#exit
mvr vlan group
Use the mvr vlan group command in Interface Configuration mode to
participate in the specific MVR group. Use the no form of this command to
remove the port participation from the specific MVR group.
Syntax
mvr vlan
vlan-id
group A.B.C.D
no mvr vlan
vlan-id
group A.B.C.D
• vlan-id—The VLAN over which multicast data from the specified group is
to be received.
• A.B.C.D.—The multicast group for which multicast data is to be received
over the specified VLAN.
Default Configuration
This command has no default configuration.
Command Mode
Interface Configuration
User Guidelines
This command statically configures a port to receive the specified multicast
group on the specified VLAN. This command only applies to receiver ports in
compatible mode. It also applies to source ports in dynamic mode. In
dynamic mode, receiver ports can also join multicast groups using IGMP
messages.
Example
console(config)#vlan 2000
Layer 2 Switching Commands 612
console(config-vlan2000)#exit
console(config)#mvr vlan 2000
console(config)#interface gi1/0/24
console(config-if-Gi1/0/24)#switchport mode trunk
console(config-if-Gi1/0/24)#switchport trunk native vlan 2000
console(config-if-Gi1/0/24)#switchport trunk allowed vlan add 2000
console(config-if-Gi1/0/24)#mvr
console(config-if-Gi1/0/24)#mvr type source
console(config-if-Gi1/0/24)#mvr vlan 2000 group 239.1.1.1
show mvr
Use the show mvr command to display global MVR settings.
Syntax
show mvr
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec, Global Configuration mode and all Configuration submodes
User Guidelines
The following table lists the completion messages.
The following table explains the output parameters.
Message Type Message Description
Successful Completion Message None
Error Completion Message MVR disabled
Parameter Description
MVR Running MVR running state. It can be enabled or
disabled.
MVR Multicast VLAN Current MVR multicast VLAN. It can be in
the range from 1 to 4093.
Layer 2 Switching Commands 613
Example
console #show mvr
MVR Running.............................. TRUE
MVR multicast VLAN....................... 1200
MVR Max Multicast Groups................. 64
MVR Current multicast groups............. 1
MVR Global query response time........... 10 (tenths of sec)
MVR Mode................................. compatible
show mvr members
Use the show mvr members command to display the MVR membership
groups allocated.
Syntax
show mvr members [A.B.C.D]
•
A.B.C.D
—A valid multicast address in IPv4 dotted notation.
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec, Global Configuration mode and all Configuration submodes
User Guidelines
The following table lists the completion messages.
MVR Max Multicast Groups The maximum number of multicast groups
that is supported by MVR.
MVR Current Multicast groups The current number of MVR groups
allocated.
MVR Query Response Time The current MVR query response time.
MVR Mode The current MVR mode. It can be
compatible or dynamic.
Parameter Description
Layer 2 Switching Commands 614
The following table explains the output parameters.
Examples
console#show mvr members
MVR Group IP Status Members
------------------ --------------- ---------------------
224.1.1.1 INACTIVE Gi1/0/1, Gi1/0/2, Gi1/0/3
console#show mvr members 224.1.1.1
MVR Group IP Status Members
------------------ --------------- ---------------------
224.1.1.1 INACTIVE Gi1/0/1, Gi1/0/2, Gi1/0/3
show mvr interface
Use the show mvr interface command to display the MVR enabled interfaces
configuration.
Syntax
show mvr interface [interface-id [members [vlan
vlan-id
]]]
• interface-id—Identifies a specific interface.
• vlan-id—VLAN identifier.
Default Configuration
This command has no default configuration.
Message Type Message Description
Successful Completion Message None
Error Completion Message MVR disabled
Parameter Description
MVR Group IP MVR group multicast IP address.
Status The status of the specific MVR group. It can
be active or inactive.
Members The list of ports which participates in the
specific MVR group.
Layer 2 Switching Commands 615
Command Mode
Privileged Exec, Global Configuration mode and all Configuration submodes
User Guidelines
The following table lists the completion messages.
The following table explains the output parameters.
Examples
console#show mvr interface
Port Type Status Immediate Leave
--------- --------------- --------------------- --------------------
Gi1/0/9 RECEIVER ACTIVE/inVLAN DISABLED
console#show mvr interface gi1/0/9
Type: RECEIVER Status: ACTIVE Immediate Leave: DISABLED
console#show mvr interface gi1/0/23 members
235.0.0.1 STATIC ACTIVE
Message Type Message Description
Successful Completion Message None
Error Completion Message MVR disabled
Parameter Description
Port Interface number
Type The MVR port type. It can be None,
Receiver, or Source type.
Status The interface status. It consists of two
characteristics:
1
active or inactive indicating if port is
forwarding.
2
inVLAN or notInVLAN indicating if the
port is part of any VLAN
Immediate Leave The state of immediate mode. It can be
enabled or disabled.
Layer 2 Switching Commands 616
console#show mvr interface gi1/0/23 members vlan 12
235.0.0.1 STATIC ACTIVE
235.1.1.1 STATIC ACTIVE
show mvr traffic
Use the show mvr traffic command to display global MVR statistics.
Syntax
show mvr traffic
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec, Global Configuration mode and all Configuration submodes
User Guidelines
The following table lists the completion messages.
Examples
The following table explains the output parameters.
Message Type Message Description
Successful Completion Message None
Error Completion Message MVR disabled
Parameter Description
IGMP Query Received Number of received IGMP Queries.
IGMP Report V1 Received Number of received IGMP Reports V1.
IGMP Report V2 Received Number of received IGMP Reports V2.
IGMP Leave Received Number of received IGMP Leaves.
IGMP Query Transmitted Number of transmitted IGMP Queries.
IGMP Report V1 Transmitted Number of transmitted IGMP Reports V1.
Layer 2 Switching Commands 617
console#show mvr traffic
IGMP Query Received............................ 2
IGMP Report V1 Received........................ 0
IGMP Report V2 Received........................ 3
IGMP Leave Received............................ 0
IGMP Query Transmitted......................... 2
IGMP Report V1 Transmitted..................... 0
IGMP Report V2 Transmitted..................... 3
IGMP Leave Transmitted......................... 1
IGMP Packet Receive Failures................... 0
IGMP Packet Transmit Failures.................. 0
IGMP Report V2 Transmitted Number of transmitted IGMP Reports V2.
IGMP Leave Transmitted Number of transmitted IGMP Leaves.
IGMP Packet Receive Failures Number of failures on receiving the IGMP
packets.
IGMP Packet Transmit Failures Number of failures on transmitting the
IGMP packets.
Parameter Description
Layer 2 Switching Commands 618
Port Channel Commands
Dell EMC Networking N1100-ON/N1500/N2000/N2100-
ON/N3000/N3100-ON/N4000 Series Switches
A port channel is a set of one or more links that can be aggregated together to
form a bonded channel (Link Aggregation Group or LAG or port channel).
Individual conversations in a particular direction always travel over a single
link in the port channel, however, in aggregate, the bandwidth usage of all of
the links is fairly evenly distributed. Port channels have the advantage of
allowing incremental bandwidth to be added as needed (by adding additional
links) and supporting a form of fault tolerance (traffic on failed links is
redistributed among other links in the LAG). LAGs are formed from similarly
configured physical links, i.e. the speed, duplex, auto-negotiation, PFC
configuration, DCBX configuration, etc. must be compatible on all member
links. Per IEEE 802.1AX, only links with the same operational characteristics,
such as speed and duplex setting, may be aggregated. Dell EMC Networking
switches aggregate links only if they have the same operational speed and
duplex setting, as opposed to the configured speed and duplex setting. This
allows operators to aggregate links that use auto negotiation to set values for
speed and duplex or to aggregate ports with SFP+ technology operating at a
lower speeds, e.g., 1G. Dissimilar ports will not become active in the LAG if
their operational settings do not match those of the first member of the LAG.
In practice, some ports in a LAG may auto-negotiate a different operational
speed than other ports depending on the far end settings and any link
impairments. Per the above, these ports will not become active members of
the LAG. On a reboot or on flapping the LAG links, a lower speed port may
be the first port selected to be aggregated into the LAG. In this case, the
higher speed ports are not aggregated. Use the lacp port-priority command to
select one or more primary link to lead the formation of the aggregation
group.
While it is a requirement of a LAG that the link members operate at the same
duplex and speed settings, administrators should be aware that copper ports
have larger latencies than fiber ports. If fiber and copper ports are aggregated
together, packets sent over the fiber ports may arrive significantly sooner at
the destination than packets sent over the copper ports. This can cause
significant issues in the receiving host (e.g. a TCP receiver) as it would be
required to buffer a potentially large number of out-of-order frames. Devices
Layer 2 Switching Commands 619
unable to buffer the requisite number of frames will show excessive frame
discard. Configuring copper and fiber ports together in an aggregation group
is not recommended.
If a dynamic LAG member sees an LACPDU that contains information
different from the currently configured default partner values, that particular
member drops out of the LAG. This configured member does not aggregate
with the LAG until all the other active members see the new information.
When each of the other active members sees the new information, they
continue to drop out of the LAG. When all the members have dropped out of
the LAG, they form an aggregate with the new information.
Static LAGS
A static LAG is fundamentally no different from a dynamically configured
LAG. All the requirements for the member ports hold true (member ports
must have same duplex settings, same speed, and so on). The only difference
is this LAG has an additional parameter static which makes this LAG not
require a partner system running Link Aggregation Control Protocol (LACP)
to be able to aggregate it's member ports.
Care must be taken while enabling this type of configuration. If the Partner
System is not 802.3AD compliant or the Link Aggregation Control protocol is
not enabled, there may be network instability. Network instability occurs
when one side assumes that the members in an aggregation are one single
link, while the other side is oblivious to this aggregation and continues to
treat the 'members' as individual links.
A static LAG does not transmit or process received LACPDUs, that is, the
member ports do not transmit LACPDUs and all the LACPDUs it receives
are dropped. A dropped counter is maintained to count the number of such
PDUs.
Configured members are added to the LAG (active participation)
immediately if the LAG is configured to be static. There is no wait time
before we add the port to the LAG.
A LAG can be either static or dynamic, but not both. It cannot have some
member ports participate in the protocol while other member ports do not
participate. Additionally, it is not possible to change a LAG from static to
dynamic via the CLI. You must remove the member ports from the static
LAG and then add them to the dynamic LAG.
Layer 2 Switching Commands 620
VLANs and LAGs
When Ethernet interfaces are added to a LAG, they are removed from all
existing VLAN membership and take on the VLAN membership of the LAG.
When members are removed from a LAG, the members regain the Ethernet
interface VLAN membership as per the configuration.
LAG Thresholds
In many implementations, a LAG is declared as up if any one of its member
ports is active. This enhancement provides configurability for the minimum
number of member links to be active to declare a LAG up. Network
administrators can also utilize this feature to automatically declare a LAG
down when only some of the links have failed.
LAG Hashing
The purpose of link aggregation is to increase bandwidth between two
switches. It is achieved by aggregating multiple ports in one logical group. A
common problem of port channels is the possibility of changing packets order
in a particular TCP session. The resolution of this problem is correct selection
of an Ethernet port within the port channel for transmitting the packet to
keep the original packet order.
The hashing algorithm is configurable for each LAG. Typically, an
administrator is able to choose from hash algorithms utilizing the following
attributes of a packet to determine the outgoing port:
• Source MAC, VLAN, EtherType, and incoming port associated with the
packet.
• Source IP and Source TCP/UDP fields of the packet.
• Destination MAC, VLAN, EtherType, and incoming port associated with
the packet.
• Source MAC, Destination MAC, VLAN, EtherType, and incoming port
associated with the packet.
• Destination IP and Destination TCP/UDP Port fields of the packet.
• Source/Destination MAC, VLAN, EtherType, and incoming port
associated with the packet.
Layer 2 Switching Commands 621
• Source/Destination IP and source/destination TCP/UDP Port fields of the
packet.
Enhanced LAG Hashing
Dell EMC Networking devices based on Broadcom XGS-IV silicon support
configuration of hashing algorithms for each LAG interface. The hashing
algorithm is used to distribute traffic load among the physical ports of the
LAG while preserving the per-flow packet order.
NOTE: Enhanced hashing mode is not supported on the N1100-
ON/N1500 Series switches.
One limitation with earlier LAG hashing techniques is that the packet
attributes were fixed for all type of packets. Also, there was no MODULO-N
operation involved, which can result in poor load balancing performance.
The LAG hashing support supports an enhanced hashing mode, which has
the following advantages:
• MODULO-N operation based on the number of ports in the LAG.
• Packet attributes selection based on the packet type. For L2 packets,
Source and Destination MAC address are used for hash computation. For
IP packets, Source IP, Destination IP address, TCP/UDP ports are used.
• Non-Unicast traffic and Unicast traffic is hashed using a common hash
algorithm.
• Excellent load balancing performance.
• Enhanced LAG hashing is the default hashing mode for LAGs on switches
that support it.
Manual Aggregation of LAGs
Dell EMC Networking switching supports the manual addition and deletion
of links to aggregates.
In the manual configuration of aggregates, the ports send their Actor
Information (LACPDUs) to the partner system in order to find a suitable
Partner to form an aggregation. When the Partner System neglects to respond
using LACPDUs, the Dell EMC Networking switching aggregates manually.
The Dell EMC Networking switching uses the currently configured default
Partner Values for Partner Information.
Layer 2 Switching Commands 622
Flexible Assignment of Ports to LAGs
Assignment of interfaces to dynamic LAGs is based upon a maximum of 144
interfaces assigned to dynamic LAGs, a maximum of 128 dynamic LAGs and
a maximum of 8 interfaces per dynamic LAG. For example, 128 LAGs may be
assigned 2 interfaces each or 18 LAGs may be assigned 8 interfaces each.
NOTE: The N1100-ON/N1500 Series switches support 64 port channels.
Commands in this Section
This section explains the following commands:
channel-group
Use the channel-group command in Interface (Ethernet) Configuration
mode to associate a port with a port channel. To remove the channel-group
configuration from the interface, use the no form of this command.
Syntax
channel-group port-channel-number mode {on | active}
no channel-group
• port-channel-number — Number of a valid port-channel with which to
associate the current interface.
•on — Forces the port to join a channel without LACP (static LAG).
•active — Forces the port to join a channel with LACP (dynamic LAG).
channel-group lacp timeout
feature vpc port-channel local-preference
interface range port-channel port-channel min-links
hashing-mode show interfaces port-channel
lacp port-priority show lacp
lacp system-priority show statistics port-channel
Layer 2 Switching Commands 623
Default Configuration
This command has no default configuration.
Command Mode
Interface Configuration (Ethernet) mode
User Guidelines
This command has no user guidelines.
Example
The following example shows how port gi1/0/5 is configured in port-channel 1
without LACP
(static LAG)
.
console(config)# interface gigabitethernet 1/0/5
console(config-if-Gi1/0/5)# channel-group 1 mode on
The following example shows how port gi1/0/6 is configured to port-channel 2
with LACP (dynamic LAG).
console(config)# interface gigabitethernet 1/0/6
console(config-if-Gi1/0/6)# channel-group 2 mode active
interface port-channel
Use the interface port-channel command in Global Configuration mode to
enter port-channel configuration mode.
Syntax
interface
port-channel port-channel-number
Default Configuration
This command has no default configuration.
Command Mode
Global Configuration mode
Layer 2 Switching Commands 624
User Guidelines
Port channel numbers range from 1 to 128 for all switches except the N1500
which supports 64 port channels.
Example
The following example enters the context of port-channel 1.
console(config)# interface port-channel 1
console(config-if-po1)#
interface range port-channel
Use the interface range port-channel command in Global Configuration
mode to execute a command on multiple port channels at the same time.
Syntax
interface range port-channel {port-channel-range | all}
• port-channel-range — List of port-channels to configure. Separate non-
consecutive port-channels with a comma and no spaces. A hyphen
designates a range of port-channels. (Range: valid port-channel)
•all — All the channel-ports.
Default Configuration
This command has no default configuration.
Command Mode
Global Configuration mode
User Guidelines
Commands in the interface range context are executed independently on
each interface in the range. If the command returns an error on one of the
interfaces, it stops the execution of the command on subsequent interfaces.
Example
The following example shows how port-channels 1, 2 and 8 are grouped to
receive the same command.
Layer 2 Switching Commands 625
console(config)# interface range port-channel 1-2,8
console(config-if)#
hashing-mode
Use the hashing-mode command to set the hashing algorithm on trunk ports.
Use the no hashing-mode command to set the hashing algorithm on trunk
ports to the default.
Syntax
hashing-mode mode
• mode — Mode value in the range of 1 to 7.
Range: 1–7:
• 1 — Source MAC, VLAN, EtherType, source module, and port ID
• 2 — Destination MAC, VLAN, EtherType, source module, and port ID
• 3 — Source IP and source TCP/UDP port
• 4 — Destination IP and destination TCP/UDP port
• 5 — Source/destination MAC, VLAN, EtherType, and source
MODID/port
• 6 — Source/destination IP and source/destination TCP/UDP port
• 7 — Enhanced hashing mode. This mode is not available on Dell EMC
Networking N1100-ON/N1500 Series switches.
Default Configuration
The default hashing mode is 7—Enhanced hashing mode. On Dell EMC
Networking
N1100-ON/
N1500 Series switches, the default hashing mode is 5.
Command Mode
Interface Configuration (port-channel) mode
Layer 2 Switching Commands 626
User Guidelines
Enhanced hashing mode is recommended, however, depending on the
specific traffic patterns present in the network, a different hashing mode may
give better bandwidth distribution across the LAG member links. Use the
show interfaces utilization command to view link utilization.
Example
console(config)#interface port-channel l
console(config-if-po1)#hashing-mode 4
console(config-if-po1)#no hashing mode
lacp port-priority
Use the lacp port-priority command to configure the priority value for
physical ports. To reset to default priority value, use the no form of this
command.
Syntax
lacp port-priority value
no lacp port-priority
• value — Port priority value. (Range: 1–65535)
Default Configuration
The default port priority value is 1.
Command Mode
Interface Configuration (Ethernet) mode
Interface Range mode
User Guidelines
Per IEEE 802.1AX-2008 Section 5.6, ports are selected for aggregation by each
switch based upon the port priority assigned by the switch with the higher
system priority, starting with the highest priority port of the switch with the
higher switch priority, and working downward through the ordered list of port
priority values for the ports.
Layer 2 Switching Commands 627
The port priority of each port is a four octet binary number, formed by using
the configured port priority as the two most significant octets and the port
number as the two least significant octets. For any given set of ports, the port
with the numerically lower value of port priority has the higher priority.
The selection algorithm is reapplied upon changes in the membership of the
port channel (for example, if a link fails, or if a new link joins the group) and
any subsequent changes to the set of active links are made according to the
above algorithm.
Example
The following example configures the priority value for port 1/0/8 to 247.
console(config)#interface gigabitethernet 1/0/8
console(config-if-Gi1/0/8)#lacp port-priority 247
lacp system-priority
Use the lacp system-priority command in Global Configuration mode to
configure the Link Aggregation system priority. To reset to default, use the no
form of this command.
Syntax
lacp system-priority value
no lacp system-priority
• value — System priority value. (Range: 1–65535)
Default Configuration
The default system priority value is 1.
Command Mode
Global Configuration mode
Layer 2 Switching Commands 628
User Guidelines
Per IEEE 802.1AX-2008 Section 5.6, ports are selected for aggregation by each
switch based upon the port priority assigned by the switch with the higher
system priority, starting with the highest priority port of the switch with the
higher switch priority, and working downward through the ordered list of port
priority values for the ports.
The system priority of each switch is an eight octet binary number, formed by
using the configured system priority as the two most significant octets and
the switch id (MAC address) as the least significant six octets. For a given
switch and link aggregation partner, the switch with the numerically lower
value of system priority has the higher priority.
The selection algorithm is reapplied upon changes in the membership of the
port channel (for example, if a link fails, or if a new link joins the group) and
any subsequent changes to the set of active links are made according to the
above algorithm.
Example
The following example configures the system priority to 120.
console(config)#lacp system-priority 120
lacp timeout
Use the lacp timeout command to assign an administrative LACP timeout.
To reset the administrative LACP timeout to the default, use the no form of
this command.
Syntax
lacp timeout {long | short}
no lacp timeout
•long — Specifies a long timeout value.
•short — Specifies a short timeout value.
Default Configuration
The default port timeout value is long.
Layer 2 Switching Commands 629
Command Mode
Interface Configuration (Ethernet) mode
Interface Range mode
User Guidelines
The LACP time-out setting indicates a local preference for the rate of
LACPDU transmission and the period of time before invalidating received
LACPDU information. This setting is negotiated with the link partner. Long
time-outs are 90 seconds with a transmission rate of once every 30 seconds.
Short time-outs are 3 seconds with a transmission rate of once every second.
For further information, refer to the LACP_Timeout setting in IEEE Std.
802.1AX-2008.
Example
The following example assigns an administrative LACP timeout for port
Gi1/0/8 to a long timeout value.
console(config)#interface gigabitethernet 1/0/8
console(config-if-Gi1/0/8)#lacp timeout long
port-channel local-preference
Use the port-channel local-preference command in Interface Configuration
mode to enable the local-preference mode on a port-channel (LAG) interface
or range of port-channel interfaces.
Use the no form of the command to remove the local preference.
Syntax
port-channel local-preference
no port-channel local-preference
Default Configuration
By default, port channels are not configured with local preference.
Command Mode
Interface Configuration (port-channel) mode
Layer 2 Switching Commands 630
User Guidelines
For a LAG that contains links distributed across stacking units, the default
behavior is to distribute locally received ingress traffic across all LAG links in
the stack per the selected hashing algorithm. When enabled, this command
disables forwarding of ingress unicast traffic across stacking links for a LAG
that is comprised of links on multiple stack units. It does this by restricting
LAG hashing to only select egress links on the stack unit where the traffic
ingresses.
CAUTION: If the capacity of the local egress LAG links is exceeded, traffic will
be discarded. Therefore, use of this option should be carefully considered, and the
operator must ensure that sufficient egress bandwidth is available in the LAG links
on every stack member to avoid excessive discards.
By default, the local-preference mode for a port-channel is disabled. This
command can be used only on port-channel interfaces.
Example
console(config)#interface port-channel 1
console(config-if-Po1)#port-channel local-preference
console(config-if-Po1)#no port-channel local-preference
Command History
Example added in the 6.4 release.
port-channel min-links
Use the port-channel min-links command in Interface Configuration (port-
channel) mode to set the minimum number of links that must be up in order
for the port channel interface to be declared up. Use the no form of the
command to return the configuration to the default value (1).
Syntax
port-channel min-links <1-8>
no port-channel min-links
•min-links—The minimum number of links that must be active before the
link is declared up. Range 1-8. The default is 1.
Layer 2 Switching Commands 631
Default Configuration
The default minimum links is 1.
Command Mode
Interface Configuration (port-channel) mode
User Guidelines
This command has no user guidelines.
Example
console(config)#interface port-channel 1
console(config-if-Po1)#port-channel min-links 3
console(config-if-Po1)#no port-channel min-links
show interfaces port-channel
Use the show interfaces port-channel command to show port-channel
information.
Syntax
show interfaces port-channel [
port-channel-number
]
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec, Global Configuration mode and all Configuration submodes
User Guidelines
The command displays the following information.
Layer 2 Switching Commands 632
Example #1
console#show interfaces port-channel 1
Channel Ports Ch-Type Hash Type Min-links Local Prf
------- ----------------------------- -------- ---------- --------- --------
Po1 Inactive: Gi1/0/1, Gi1/0/2, Dynamic 3 1 Enabled
Gi1/0/3, Gi1/0/4
Hash Algorithm Type
1 - Source MAC, VLAN, EtherType, source module and port ID
2 - Destination MAC, VLAN, EtherType, source module and port ID
3 - Source IP and source TCP/UDP port
4 - Destination IP and destination TCP/UDP port
5 - Source/Destination MAC, VLAN, EtherType, source MODID/port
6 - Source/Destination IP and source/destination TCP/UDP port
7 - Enhanced hashing mode
show lacp
Use this command to display LACP information for Ethernet ports.
Syntax
show lacp {gigabitethernet unit/slot/port| tengigabitethernet unit/slot/port |
fortygigabitethernet unit/slot/port}[parameters | statistics]
Parameter Description
Channel Number of the port channel to show. This parameter is
optional. If the port channel number is not given, all the
channel groups are displayed. (Range: Valid port-channel
number, 1 to 48).
• Ports—The ports that are members of the port-channel.
• Ch-Type—The aggregation scheme. Dynamic indicates that
the LACP protocol is run.
• Hash Algorithm Type—The hashing used to assign a
conversation to a particular aggregation link.
•
Local Prf
—
An additional field added to support the display
of the local preference.
Layer 2 Switching Commands 633
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
This command has no user guidelines.
Example
The following example shows how to display LACP Ethernet interface
information.
console#show lacp gi1/0/1
port Gi1/0/1 LACP parameters:
Actor:
system priority: 1
port Admin key: 0
port oper key: 1
port oper priority: 1
port oper timeout: LONG
port Admin timeout: LONG
LACP Activity: ACTIVE
Aggregation: AGGREGATABLE
synchronization: FALSE
collecting: FALSE
distributing: FALSE
expired: FALSE
Partner:
port Admin key: 0
port oper key: 0
port Admin priority: 0
port oper priority: 0
port Oper timeout: LONG
LACP Activity: PASSIVE
Aggregation: NOTAGGREGATABLE
synchronization: FALSE
collecting: FALSE
distributing: FALSE
expired: FALSE
port Gi1/0/1 LACP Statistics:
Layer 2 Switching Commands 634
LACP PDUs send: 0
LACP PDUs received: 0
show statistics port-channel
Use the show statistics port-channel command to display statistics about a
specific port-channel.
Syntax
show statistics
port-channel port-channel-number
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
This command has no user guidelines.
Example
The following example shows statistics about port-channel 1.
console#show statistics port-channel 1
Total Packets Received (Octets)................ 0
Packets Received 64 Octets..................... 0
Packets Received 65-127 Octets................. 0
Packets Received 128-255 Octets................ 0
Packets Received 256-511 Octets................ 0
Packets Received 512-1023 Octets............... 0
Packets Received 1024-1518 Octets.............. 0
Packets Received > 1518 Octets................. 0
Packets RX and TX 64 Octets.................... 0
Packets RX and TX 65-127 Octets................ 0
Packets RX and TX 128-255 Octets............... 0
Packets RX and TX 256-511 Octets............... 0
Packets RX and TX 512-1023 Octets.............. 0
Packets RX and TX 1024-1518 Octets............. 0
Packets RX and TX 1519-2047 Octets............. 0
Layer 2 Switching Commands 635
Packets RX and TX 2048-4095 Octets............. 0
Packets RX and TX 4096-9216 Octets............. 0
Total Packets Received Without Errors.......... 0
Unicast Packets Received....................... 0
Multicast Packets Received..................... 0
Broadcast Packets Received..................... 0
Receive Packets Discarded...................... 0
Total Packets Received with MAC Errors......... 0
Jabbers Received............................... 0
Fragments/Undersize Received................... 0
Alignment Errors............................... 0
FCS Errors..................................... 0
Overruns....................................... 0
Total Received Packets Not Forwarded........... 0
802.3x Pause Frames Received................... 0
Unacceptable Frame Type........................ 0
Total Packets Transmitted (Octets)............. 0
Packets Transmitted 64 Octets.................. 0
Packets Transmitted 65-127 Octets.............. 0
Packets Transmitted 128-255 Octets............. 0
Packets Transmitted 256-511 Octets............. 0
Packets Transmitted 512-1023 Octets............ 0
Packets Transmitted 1024-1518 Octets........... 0
Packets Transmitted > 1518 Octets.............. 0
Max Frame Size................................. 1518
Total Packets Transmitted Successfully......... 0
Unicast Packets Transmitted.................... 0
Multicast Packets Transmitted.................. 0
Broadcast Packets Transmitted.................. 0
Transmit Packets Discarded..................... 0
Total Transmit Errors.......................... 0
FCS Errors..................................... 0
Underrun Errors................................ 0
Total Transmit Packets Discarded............... 0
Single Collision Frames........................ 0
Multiple Collision Frames...................... 0
Excessive Collision Frames..................... 0
802.3x Pause Frames Transmitted................ 0
GVRP PDUs received............................. 0
Layer 2 Switching Commands 636
GVRP PDUs Transmitted.......................... 0
GVRP Failed Registrations...................... 0
GMRP PDUs Received............................. 0
GMRP PDUs Transmitted.......................... 0
GMRP Failed Registrations...................... 0
BPDUs: Sent: 0, Received: 0
Time since counters last cleared............... 0 day 6 hr 19 min 42 sec
Layer 2 Switching Commands 637
Port Monitor Commands
Dell EMC Networking N1100-ON/N1500/N2000/N2100-
ON/N3000/N3100-ON/N4000 Series Switches
Dell EMC Networking switches allow the user to monitor traffic with an
external network analyzer. The external network analyzer can use any of the
Ethernet ports as a probe port. The probe port transmits a mirror copy of the
traffic being probed. Network traffic transmission is always disrupted
whenever a configuration change is made for port monitoring. Therefore,
whenever port monitoring is enabled, the probe port does not always forward
traffic as a normal port. When diagnosing problems, an operator should
always check the status of port monitoring.
The port monitoring feature allows the user to configure a session. A session
consists of one destination or probe port and one or multiple source ports.
When a session is enabled, any traffic entering or leaving the source ports of
that session is copied (mirrored) onto the corresponding destination port. A
network traffic analyzer can be attached to destination ports to analyze the
traffic patterns of source ports.
A session is operationally active only if both a destination port and at least
one source port are configured. If neither is true, the session is inactive. A port
configured as a destination port acts as a mirroring port when the session is
operationally active. If it is not, the port acts as a normal port and participates
in all normal operation with respect to transmitting traffic.
The port mirroring logic stage occurs after the after the VLAN tag processing
stage on ingress and before the VLAN tag processing stage on egress. When
mirroring packets associated with DVLAN/QinQ SP or CE ports, the outer
VLAN tag may or may not appear in the frame. Due to the internal processing
of QinQ tagging, the TPID of ingress frames mirrored from the SP port will
always be 0x8100. In addition, packets forwarded internally across a stacking
link may have different tags applied than packets forwarded on a local egress
port. This is due to the processing required for forwarding across a stack.
Any Ethernet port may be configured as a source port.
Caveats:
• Platforms may behave unpredictably if an attempt is made to mirror a port
of greater speed than the probe port.
Layer 2 Switching Commands 638
• Once configured, there is no network connectivity on the probe
(destination) port. The probe port does not forward any traffic and does
not receive any traffic. The probe tool attached to the probe port is unable
to ping the networking device or ping through the networking device, and
no device is able to ping the probe tool.
• ACL attributes redirect, mirror, log, rate-limit, assign-queue, time-range,
IGMP type, ICMP type, ICMP code, routing, fragments, and TCP
established are not supported when applied to a mirroring session.
Commands in this Section
This section explains the following commands:
monitor capture (Global Configuration)
Use the monitor capture command to capture packets transmitted or
received from the CPU. This facility captures switch control plane traffic and
is useful in monitoring network control traffic and analyzing network security.
No monitor capture file size returns the capture file size to the defaults.
No monitor capture remote port returns the TCP port to the default.
Syntax
monitor capture {file size max-size | remote port id | line wrap}
no monitor capture {file size |remote port |line wrap}
• max-size—
The size of the capture file in bytes.
•id—
The local (switch) TCP port for use with Wireshark.
Default Configuration
Capture is not enabled by default.
monitor capture (Global Configuration) remote-span
monitor capture (Privileged Exec) show monitor capture
monitor capture mode show monitor session
monitor session show vlan remote-span
Layer 2 Switching Commands 639
The in memory buffer is 128 packets.
The file system buffer is 524288 bytes and is named cpuPktCapture.pcap.
The remote monitor capture port is 2002.
Command Modes
Global Configuration mode
User Guidelines
Packets that are transmitted or received by the switch CPU may be captured
to the switch file system, to local memory, or sent to a WireShark client.
Packets captured to the switch file system are stored in pcap format and may
be copied from the system and opened with WireShark or TShark or other
utilities. Packets sent to the console are written in ASCII hex format.
When WireShark is configured and connected to the switch, packet capture
is controlled by WireShark. See the Users Configuration Guide for an
example of how to configure WireShark for packet capture.
Changes to configuration take effect on the next execution of the monitor
capture start command.
Only one of file, remote, or line may be specified. Setting the file, remote, or
line stops the capture.
No monitor capture file size returns the capture file size to the defaults
No monitor capture remote port returns the TCP port to the default
The administrator can capture packets into one of the following locations:
memory, switch NVRAM, or directly to a Wireshark analyzer.
Example
Configure capture for Wireshark remote access on port 2020:
console(config)#monitor capture remote port 2020
console(config)#monitor capture mode remote
console(config)#exit
console#monitor capture start
Copy the local capture file to a TFTP server
console#copy flash://cpuPktCapture.pcap tftp://10.267.9.99/mypkts.pcap
Layer 2 Switching Commands 640
monitor capture (Privileged Exec)
Use the monitor capture command to capture packets transmitted or
received from the CPU. This facility captures switch control plane traffic and
is useful in monitoring network control traffic and analyzing network security.
Remote packet capture is not supported when the packets are received via
Service Port.
Syntax
monitor capture {start [transmit | receive | all] | stop}
•Transmit—Capture packets transmitted by the switch CPU.
•Receive—Capture packets forwarded to the switch CPU.
•All—Capture both transmitted and received packets.
Default Configuration
Capture is not enabled by default.
By default, both transmitted and received packets are captured.
Command Modes
Privileged Exec mode
User Guidelines
In general, starting packet capture erases the previous capture buffer
contents.
Example
console# monitor capture start all
monitor capture mode
Use the monitor capture mode command to select the destination for
captured packets transmitted or received from the CPU. This facility captures
switch control plane traffic and is useful in monitoring network control traffic
and analyzing network security.
Use the no form of the command to return the capture mode to the default.
Layer 2 Switching Commands 641
Syntax
monitor capture mode {line | remote | file}
no monitor capture mode
•line—
Captured packets are sent to the console.
•remote—
Captured packets are sent to a remote WireShark network
analyzer.
•file—
Captured packets are sent to the file system.
Default Configuration
By default, remote capture is configured.
Command Modes
Global Configuration mode
User Guidelines
Only one file, remote, or line may be specified. Setting the mode takes effect
immediately.
Use the monitor capture start command to start the capture.
Memory Capture:
Captured packets can be displayed on the console using the show monitor
capture packets command. Captured packets can be displayed when actively
capturing or when stopped. When a capture session is active, it is possible to
display only the captured packets which were not previously displayed as the
show command empties the capture buffer. When a capture session is
stopped, it is possible to display all saved packets as often as required. The
command show monitor capture packets always displays the captured packets
in chronological order.
The memory buffer only stores the first 128 bytes of each packet captured.
The switch displays the following information from the captured packet when
it is displayed on CLI:
• Packet is transmitted or received.
• ID of interface through which the packet was passed.
Layer 2 Switching Commands 642
• The time when packet passed through CPU.
• The first 128 bytes of packet.
• The length of full packet (if greater than 128 bytes).
The in-memory capture buffer can be configured to stop when full. This
mode is configured with the command no monitor capture line wrap.
Capturing packets is started by the monitor capture start command.
Capturing packets is stopped automatically when 128 packets are captured
and saved into the RAM. Capturing packets can be stopped manually before
128 packets have been captured using the monitor capture stop command to
halt packet capture.
If capturing is in progress, the show monitor capture packets command
displays only captured packets that have not yet been displayed during
capturing session. If capturing is stopped, the first (after stopping) show
monitor capture packets command displays packets which have not yet been
displayed during capturing session. The next show monitor capture packets
command displays all saved packets.
If the capturing session is stopped automatically during the period packet
display is in progress, the packets display continues until all saved packets are
shown and then the buffer is cleared. The next invocation of the show
capture packets command will not display any packets. Please note that this
behavior is observed only if the capturing session is stopped automatically
when the packet displaying is in progress.
The in-memory capture can also be configured to wrap. This makes it possible
to display more than 128 packets per capture session if the command show
capture packets is periodically executed while capture is in progress. Saved
packets that have been already displayed during the capturing session are
overwritten in RAM by new captured packets if capturing is still in progress.
In this manner, the limit of displaying 128 packets per session can be
overcome (but only in monitor capture line wrap mode). Packets that have
not been displayed are not overwritten.
Capturing packets is stopped automatically when 128 packets are captured
and have not yet been displayed during capturing session. It is guaranteed
that no one packet will be lost (not be displayed or not be saved) when
capturing is in progress. In this case, the last 128 packets are saved into the
RAM and can be displayed many number of times by executing the command
show monitor capture packets.
Layer 2 Switching Commands 643
If capturing is in progress and more than 128 packets are captured and the
user configures no monitor capture line wrap mode, capturing is stopped
automatically. No packets are lost when capturing is in progress.
All captured packets can be displayed. No captured and not yet displayed
packets are lost. Captured packets can be displayed when capturing is in
progress or after the moment when capturing is stopped. Only packets saved
in RAM (up to 128) can be displayed when capturing is stopped.
If capturing is in progress, the show monitor capture packets command
displays only the captured packets that have not yet been displayed during the
capturing session. If capturing is stopped, the first (after stopping) show
monitor capture packets command displays the packets that have not yet
been displayed during the capturing session. The next show monitor capture
packets command displays up to 128 captured packets.
If the capturing session is stopped automatically when the packet display is in
progress, then packet display continues until all packets are shown. The next
call of the show capture packets command displays nothing. Please note that
such behavior is observed only if the capturing session is stopped
automatically when the packet display is in progress.
NVRAM Capture:
After packet capture is activated, packets are stored in NVRAM until the
capture file reaches its maximum size, or until the capture is stopped
manually. When the capture is started the capture file from the previous
capture is deleted.
The captured file can be uploaded via TFTP, SFTP, SCP via CLI, and SNMP
using the copy command. The name of the capture file is
cpuPktCapture.pcap.
Remote Capture:
Remote Packet Capture works with the Wireshark network analyzer tool. A
packet capture server runs on the switch and sends the captured packets via a
TCP connection to the Wireshark tool. Once a connection is established,
packet capture is started and stopped via Wireshark commands.
Layer 2 Switching Commands 644
Remote capture can be enabled or disabled using the CLI. The network
operator should obtain a computer with the Wireshark tool to display the
captured traffic. When using remote capture mode, the switch doesn’t store
any captured data locally.
The local TCP port number can be configured for connecting Wireshark to
the switch. The default port number is 2002. If a firewall is installed between
the Wireshark PC and the switch, these ports must be allowed to pass
through the firewall. The Firewall must be configured to allow the Wireshark
PC to initiate a TCP connection to the switch.
The remote capture application listens on the configured TCP port for a
connection request. Wireshark must send a request to that port to establish a
connection. Once the socket connection to Wireshark has been established,
captured CPU packets are written to the data socket. Wireshark receives the
packets and processes them locally. This continues until the session is
terminated by either end.
The following Wireshark request packets are supported:
• Request to list all the remote interfaces
• Request to open a remote device
• Request to start a capture on a remote device
• Request to close the connection with the remote peer
• Message that keeps the authentication parameters
• Request to get network statistics
• Request to stop the current capture, keeping the device open
The following Wireshark replies are supported:
• Reply that sends the list of all the remote interfaces
• Reply that the remote device has been opened correctly
• Reply that capturing has started correctly
• Reply that says 'ok, authorization successful'
• Reply that keeps network statistics
• Reply that confirms capturing stopped successfully
Remote capture is not supported for packets received via out-of-band ports.
Layer 2 Switching Commands 645
Example
This example sends capture output to the console.
console(config)#monitor capture line
console(config)#exit
console#monitor capture start all
monitor session
Use the monitor session command in Global Configuration mode to
configure the source and destination for mirroring. Packets are copied from
the source to the destination. Use the no form of the command to disable the
monitoring session.
Syntax
monitor session session-number source {interface interface–id |vlan vlan-id
| remote vlan rspan-vlan-id}[rx | tx]
no monitor session session_number source {interface interface–id | vlan
vlan-id | remote vlan rspan-vlan-id}
[no] monitor session session_number destination {interface interface–id
[remove-rspan-tag] | remote vlan rspan-vlan-id}
[no] monitor session session_number filter {ip access-group [acl-name | acl-
number] | mac access-group acl-name}
no monitor session session_number mode
• session-number— Session identification number. (Range: 1-4)
•interface interface–id — Ethernet interface (Range: Any valid Ethernet
Port), CPU interface. CPU interface is not supported as a destination
interface or a source interface for RSPAN.
•vlan vlan-id— The source VLAN identifier. All the ports in this VLAN are
mirrored in the ingress direction only. The source VLAN must not be the
RSPAN VLAN.
• acl-name— An IP or MAC ACL name.
•remote vlan rspan-vlan-id— An RSPAN VLAN configured on the source
switch.
•rx — Mirrors received packets only. If no option specified, monitors both rx
and tx.
Layer 2 Switching Commands 646
•tx — Mirrors transmitted packets only. If no option is specified, monitors
both rx and tx.
•both—Mirrors both ingress and egress. This is the default.
•mode—Enable session mirroring. Use the no form of the command to
disable monitoring.
•
remove-rspan-tag
—Remove the RSPAN tag from packets transmitted on
the probe port. This option is not available on the N4000 Series switches.
Default Configuration
The default is to
mirror
both transmit and receive directions. If neither tx or
rx is configured, both directions are monitored.
Command Mode
Global Configuration mode
User Guidelines
Use the source interlace parameter to specify the interface to monitor. Use rx
to monitor only ingress packets, or use tx to monitor only egress packets. If
you do not specify an rx or tx option, the session monitors both ingress and
egress packets. Use the destination interface to specify the interface to receive
the monitored traffic. Use the mode parameter to enabled the administrative
mode of the session. If enabled, the destination (probe) port monitors all the
traffic received and transmitted on the physical monitored port. The probe
port should not be connected to a network. Connect it to a monitoring tool or
a standalone (static IP address) workstation running a monitoring program.
Up to four sessions
mirroring
traffic in a single direction and with unique
destinations are supported on the Dell EMC Networking N2000, N2100-ON,
N3000, N3100-ON, and N4000 Series switches. The Dell EMC Networking
N1100-ON and N1500 Series switches support a single unidirectional or
bidirectional session. Each session supports multiple sources. However, the
destination interface for a session may not overlap with other sessions. The
internal CPU port cannot be configured as an RSPAN source.
The session limitations are as follows (N2000, N2100-ON, N3000, N3100-
ON, N4000 only):
• Up to 4 sessions in ingress (RX) traffic mirroring may be active.
Layer 2 Switching Commands 647
• Up to 4 sessions with egress (TX) traffic mirroring may be active.
• Up to 2 sessions with both (RX and TX) traffic mirroring may be active.
• Any other combination of up to 4 total ingress or egress mirroring may be
active.
Destination (probe) interfaces do not perform MAC learning and drop
ingress traffic (forwarding is disabled and incoming packets are dropped).
Destination interfaces must be dedicated to the monitoring function (i.e.,
connected to a PC running WireShark or some other packet decoder).
VLAN based mirroring is applicable only for ingress (RX) traffic. If neither rx,
tx, nor both are specified in a source session, both ingress and egress traffic
are monitored
Mirrored traffic is subject to the same QoS constraints as normal traffic.
Oversubscribed traffic (both mirrored and un-mirrored) will be dropped in
accordance with the configured or default policy. The operator may assign
CoS or Diffserv policies to the mirrored traffic in the same manner as for
normal traffic. RSPAN traffic is transmitted with a PCP of 0.
On ingress, the port mirroring logic stage is after the VLAN tag processing
stage in the hardware. This means that, on ingress, packets may not appear as
they do on the wire if processing such as VLAN or CoS value rewriting is
programmed or DVLAN tunneling is enabled on the source interface.
Examples of ingress VLAN tag processing are DVLAN tunneling (QinQ) or
VLAN rewriting. Likewise, on egress, the port mirroring logic stage is before
the egress VLAN tag processing stage. This means that, on egress, packets
may not appear as they do on the wire if processing such as VLAN or CoS
value rewriting is programmed.
Reserve a few VLANs across the network for the exclusive use of RSPAN. The
RSPAN VLANs should only be configured on the reflector interfaces
(generally the uplink/transit/downlink interface). RSPAN VLANs are used
exclusively to carry the mirrored traffic across the network and cannot have
source or destination interfaces as members of the RSPAN VLAN. RSPAN
destination interfaces will continue to transmit mirrored traffic even if
blocked by spanning-tree. Each RSPAN session must use a unique reflector
port, destination port and RSPAN VLAN. Reflector ports
(source/transit/destination) should be configured as trunk or general mode
Layer 2 Switching Commands 648
ports, and be members of the RSPAN VLAN. Do not assign other ports to the
RSPAN VLANs (for example, trunk ports that are not reflector ports).
Additionally, reflector ports may not be port channels.
Monitored traffic is encapsulated in the RSPAN VLAN on the reflector port
on the source switch. On a source switch, when both an RSPAN VLAN and
reflector port are configured on a trunk or general mode port with other
VLANs, the interface can also carry traffic on the other VLANs. For example,
an uplink interface (trunk port) can carry both the RSPAN traffic and other
traffic. Do not configure the RSPAN VLAN as a native VLAN on interfaces
other than the uplink/transit/downlink interfaces. Be sure to remove the
RSPAN VLAN from ports on which mirrored traffic should not be
encapsulated and transported. The RSPAN tag is not transmitted on the
destination (probe) port, except on the N4000, where the RSPAN tag appears
on the probe port due to hardware limitations.
For VLAN mirroring, the source VLAN cannot be the same as the RSPAN
VLAN. The source VLAN and the RSPAN VLAN cannot be configured on the
same port. The source VLAN is monitored in the ingress direction only.
Careful consideration to placement of source mirroring sessions will allow
bidirectional traffic to be monitored. Another alternative is to use port
mirroring and a VLAN ACL filter if duplicate packets are received on the
probe device.
The reflector port must be configured as the only member of the RSPAN
VLAN on the source switch.
Multiple source interfaces may mirror traffic onto the RSPAN VLAN on both
source switches and transmit switches (but not the destination switch). Be
aware that the RSPAN VLAN floods mirrored traffic in the RSPAN VLAN. If
an intermediate switch mirrors traffic onto the RSPAN VLAN, the traffic is
flooded to both the destination and the other sources. Configuration of an
ACL on the reflector port may mitigate this behavior. The source interface
must be configured as the only member of the RSPAN VLAN on the
destination (probe) switch. Mirroring a source to the RSPAN VLAN on the
destination switch is not supported.
If an ACL filter is specified, the ACL must be created prior to its use in an
RSPAN configuration. The ACL filter is configured on the source switch.
ACL filters are internally configured as an egress ACL on the destination
interface/reflector port. All the criteria in the ACL are marked with the mirror
attribute (and the RSPAN VLAN) to match the mirrored traffic (including
Layer 2 Switching Commands 649
the implicit deny all). If configuring an egress ACL on the destination port,
care must be taken with the ACL numbering to ensure the mirrored traffic is
properly processed.
Bidirectional mirroring of multiple ports in a network may result in duplicate
packets transmitted on the probe port (one copy for the receive side and
another copy for the transmit side). Configuring the mirroring as rx only may
help to reduce this issue.
RSPAN VLANs must be configured with the remote-span command prior to
configuration in an RSPAN session. RSPAN intermediate switches may also
be configured with multiple sources feeding into an existing RSPAN VLAN.
The source configuration requires an interface parameter, so traffic mirrored
on the intermediate switch is not flooded across the entire RSPAN VLAN.
Place probe ports upstream of the intermediate switch in this case.
Configuring a second session on a source switch that mirrors RSPAN traffic
from the reflector port is not supported. Configuring a second session on a
source switch that mirrors an RSPAN source port to a local probe port is
supported.
VLAN mirroring is not recommended for RSPAN if sources on multiple
switches are members of the VLAN. This is because, as stations communicate
with each other over the mirrored VLAN, duplicate packets will be sent to the
probe, once for the source port and once for each switch over which the
packet is received in the source VLAN.
Example
This example shows how to configure a source switch using VLAN 723 as the
destination RSPAN VLAN and Gi1/0/3 as the source interface. Te1/0/1 is
configured as the reflector port. It is recommended that interface Te1/0/1 be
configured as a trunk port. Interface Te1/0/1 must be configured as a member
of VLAN 723 and may also carry traffic on other VLANs. No other interface
should be configured as a member of VLAN 723.
console(config)#vlan 723
console(config-vlan723)#remote-span
console(config-vlan723)#exit
console(config)#interface Te1/0/1
console(config-if-Te1/0/1)#switchport mode trunk
console(config-if-Te1/0/1)#exit
console(config)#monitor session 1 source interface gi1/0/3 both
Layer 2 Switching Commands 650
console(config)#monitor session 1 destination remote vlan 723 reflector-port
Te1/0/1
console(config)#monitor session 1 mode
console(config)#show monitor session 1
Session : 1
Admin mode : Enabled
Type : Remote source session
Source ports :
Both : Gi1/0/48
Destination port : Te1/0/1
Destination RSPAN VLAN : 723
This example shows how to configure a destination switch using VLAN 723 as
the source RSPAN VLAN interface Te1/0/1 and Gi1/0/10 as the destination
interface. Interface Gi1/0/10 is dedicated to monitoring and has a PC running
WireShark attached. VLAN 723 should only be configured on interface
Te1/0/1.
console(config)#vlan 723
console(config-vlan723)#remote-span
console(config-vlan723)#exit
console(config)#interface Te1/0/1
console(config-if-Te1/0/1)#switchport mode trunk
console(config-if-Te1/0/10)#exit
console(config)# monitor session 1 source remote vlan 723
console(config)# monitor session 1 destination interface gi1/0/10
console(config)# monitor session 1 mode
console(config)#show monitor session 1
Session : 1
Admin mode : Enabled
Type : Remote destination session
Source RSPAN VLAN : 723
Destination port : Gi1/0/10
Command History
Revised in firmware release 6.3.6.
remote-span
Use this command to configure a VLAN as an RSPAN VLAN. Use the no
form of the command to remove the remote SPAN characteristics from a
VLAN and revert it to a normal MAC learning VLAN.
Layer 2 Switching Commands 651
Syntax
remote-span
no remote-span
Default Configuration
There is no default configuration for this command.
Command Modes
VLAN Configuration mode.
User Guidelines
Remote-span VLANs must be configured as a tagged VLAN on trunk or
general mode ports on RSPAN transit switches. Traffic in an RSPAN VLAN is
always flooded as MAC address learning and link local protocols are disabled
on RSPAN VLANs. VLANs on transit switches must be configured as remote-
span VLANs in order to ensure delivery of all mirrored packets. Remote-span
VLANs configured on transit switches may co-exist with other non remote-
span VLANs on trunk ports. Do not configure the RSPAN VLAN as a member
of spanning tree (RSTP-PV or MST).
Example
console#vlan 10
console(config-vlan10)#remote-span
show monitor capture
Use this command to display captured packets transmitted or received from
the CPU.
Syntax
show monitor capture [packets]
Default Configuration
This command has no default configuration.
Layer 2 Switching Commands 652
Command Modes
Privileged Exec mode (all SHOW modes)
User Guidelines
This command has no user guidelines.
Example
console#show monitor capture
Operational Status............................. Enabled
Current Capturing Type......................... Line
Capturing Traffic Mode......................... Tx/Rx
Line Wrap Mode................................. Disabled
RPCAP Listening Port........................... 2002
RPCAP dump file size (KB)...................... 45
console#show monitor capture packets
Gi1/0/1 Length = 94 [RECEIVE]
===================
02:29:23.0000
0000 33 33 00 00 00 01 00 11 88 2f 8e 82 81 00 00 01
0010 86 dd 60 00 00 00 00 24 00 01 fe 80 00 00 00 00
0020 00 00 00 00 88 ff fe 2f 8e 82 ff 02 00 00 00 00
0030 00 00 00 00 00 00 00 00 00 01 3a 00 05 02 00 00
0040 01 00 82 00 43 62 27 10 00 00 00 00 00 00 00 00
0050 00 00 00 00 00 00 00 00 00 00 ff ff 00 00
===================
Gi1/0/1 Length = 94 [RECEIVE]
===================
02:29:24.0000
0000 33 33 00 00 00 01 00 11 88 2f 8e 82 81 00 00 01
0010 86 dd 60 00 00 00 00 24 00 01 fe 80 00 00 00 00
0020 00 00 00 00 88 ff fe 2f 8e 82 ff 02 00 00 00 00
0030 00 00 00 00 00 00 00 00 00 01 3a 00 05 02 00 00
0040 01 00 82 00 43 62 27 10 00 00 00 00 00 00 00 00
0050 00 00 00 00 00 00 00 00 00 00 ff ff 00 00
===================
Gi1/0/1 Length = 94 [RECEIVE]
===================
02:29:25.0000
0000 33 33 00 00 00 01 00 11 88 2f 8e 82 81 00 00 01
Layer 2 Switching Commands 653
0010 86 dd 60 00 00 00 00 24 00 01 fe 80 00 00 00 00
0020 00 00 00 00 88 ff fe 2f 8e 82 ff 02 00 00 00 00
0030 00 00 00 00 00 00 00 00 00 01 3a 00 05 02 00 00
0040 01 00 82 00 43 62 27 10 00 00 00 00 00 00 00 00
0050 00 00 00 00 00 00 00 00 00 00 ff ff 00 00
===================
Gi1/0/1 Length = 94 [RECEIVE]
===================
02:29:26.0000
0000 33 33 00 00 00 01 00 11 88 2f 8e 82 81 00 00 01
0010 86 dd 60 00 00 00 00 24 00 01 fe 80 00 00 00 00
0020 00 00 00 00 88 ff fe 2f 8e 82 ff 02 00 00 00 00
0030 00 00 00 00 00 00 00 00 00 01 3a 00 05 02 00 00
0040 01 00 82 00 43 62 27 10 00 00 00 00 00 00 00 00
0050 00 00 00 00 00 00 00 00 00 00 ff ff 00 00
show monitor session
Use the show monitor session command to display status of port monitoring,
VLAN-based mirroring, Flow-based mirroring, and mirroring across RSPAN.
Syntax
show monitor session session_number [detail]
• session
_number
— Session identification number.
• detail—Displays additional information.
Default Configuration
This command has no default configuration.
Command Mode
User Exec, Privileged Exec mode, Global Configuration mode and all
Configuration submodes
User Guidelines
This command has no user guidelines.
Examples
The following example shows port monitor status.
Layer 2 Switching Commands 654
console(config)#show monitor session 1
Session : 1
Admin mode : Disabled
Type : Local session
Source ports :
Both : Te1/0/10
Destination ports : Te2/0/20
IP access-group : a1
The following example shows the detailed status of the port based mirroring
session that is constrained to a local switch.
console(config)#show monitor session 1 detail
Session : 1
Admin mode : Disabled
Type : Local session
Source ports :
Rx only : None
Tx only : None
Both : Te1/0/10
Source VLANs :
Rx only : None
Source RSPAN VLAN : None
Destination ports : Te2/0/20
Destination RSPAN VLAN : None
IP access-group : a1
MAC access-group : None
The following example shows the detailed status of a VLAN session on source
switch, where session is span across multiple switches.
console# show monitor session 1 detail
Session : 1
Type : Remote Destination Session
Source Ports :
RX Only : None
TX Only : None
Both : None
Source VLANs :
RX Only : 100
Source RSPAN VLAN : None
Destination Ports : None
Dest RSPAN VLAN : 999
Layer 2 Switching Commands 655
The following example shows the detailed status of a VLAN session on
destination switch, where session is span across multiple switches.
console# show monitor session 1 detail
Session : 1
Type : Remote Destination Session
Source Ports :
RX Only : None
TX Only : None
Both : None
Source VLANs :
RX Only : None
Source RSPAN VLAN : 999
Destination Ports : Gi1/0/15
Dest RSPAN VLAN : None
show vlan remote-span
Use this command to display the RSPAN VLAN IDs.
Syntax
show vlan remote-span
Default Configuration
This command has no default configuration.
Command Modes
User Exec, Privileged Exec mode, Global Configuration mode and all
Configuration submodes
User Guidelines
This command has no user guidelines.
Example
The following example shows the RSPAN VLANs configured on the switch.
console# show vlan remote-span
RSPAN Vlan
Layer 2 Switching Commands 656
-----------------------------------------------------
10
Layer 2 Switching Commands 657
QoS Commands
Dell EMC Networking N1100-ON/N1500/N2000/N2100-
ON/N3000/N3100-ON/N4000 Series Switches
Quality of Service (QoS) technologies are intended to provide guaranteed
timely delivery of specific application data to a particular destination. In
contrast, standard IP-based networks are designed to provide best effort data
delivery service. Best effort service implies that the network delivers the data
in a timely fashion, although there is no guarantee. During times of
congestion, packets may be delayed, sent sporadically, or dropped. For typical
Internet applications, such as electronic mail and file transfer, a slight
degradation in service is acceptable and, in many cases, unnoticeable.
Conversely, any degradation of service has undesirable effects on applications
with strict timing requirements, such as voice or multimedia.
QoS is a means of providing consistent, predictable data delivery by
distinguishing between packets that have strict timing requirements from
those that are more tolerant of delay. Packets with strict timing requirements
are given special treatment in a QoS-capable network. To accomplish this, all
elements of the network must be QoS-capable. If one node is unable to meet
the necessary timing requirements, this creates a deficiency in the network
path and the performance of the entire packet flow is compromised.
Access Control Lists
The Dell EMC Networking ACL feature allows classification of packets based
upon Layer 2 through Layer 4 header information. An Ethernet IPv6 packet is
distinguished from an IPv4 packet by its unique Ether-type value; thus, all
IPv4 and IPv6 classifiers include the Ether-type field.
Multiple ACLs per interface are supported. The ACLs can be combination of
Layer 2 and/or Layer 3/4 ACLs.
ACL assignment is appropriate for both physical ports and LAGs.
A user configures an ACL permit rule to force its matching traffic stream to a
specific egress interface, bypassing any forwarding decision normally
performed by the device. The interface can be an Ethernet interface or a
LAG. The redirect interface rule action is independent of, but compatible
with, the assign queue rule action.
Layer 2 Switching Commands 658
ACLs can be configured to apply to a VLAN instead of an interface. Traffic
tagged with a VLAN ID (either receive-tagged or tagged by ingress process
such as PVID) is evaluated for a match regardless of the interface on which it
is received.
Layer 2 ACLs
The Layer 2 ACL feature provides access list capability by allowing
classification on the Layer 2 header of an Ethernet frame, including the
802.1Q VLAN tag(s). In addition, the rule action set is enhanced to designate
which (egress) CoS queue should handle the traffic, and whether the traffic
flow is to be redirected to a specific outgoing interface.
MAC access lists are identified by a user-specified name instead of a number.
Layer 3/4 IPv4 ACLs
The Layer 3/4 ACL feature supports extended IP access lists. These lists check
the Layer 3 portion of a packet, looking specifically at information contained
in the IP header and, in certain cases, the TCP or UDP header. An EtherType
of 0x0800 is assumed in the case of IP access lists. Permit and deny actions are
supported for each ACL rule.
Standard layer 3/4 ACLs can be classified based on the source IP address and
netmask or other extended classification criteria.
Class of Service (CoS)
The Dell EMC Networking CoS Queuing feature allows the user to directly
configure device queuing and, therefore, provide the desired QoS behavior
without the complexities of DiffServ. The CoS feature allows the user to
determine the following queue behavior:
• Queue Mapping
– Trusted Port Queue Mapping
– Untrusted Port Default Priority
• Queue Configuration
This enables Dell EMC Networking switches to support a wide variety of
delay sensitive video and audio multicast applications.
Layer 2 Switching Commands 659
CoS mapping tables, port default priority, and hardware queue parameters
may be configured on LAG interfaces as well as physical port interfaces.
Queue Mapping
The priority of a packet arriving at an interface is used to steer the packet to
the appropriate outbound CoS queue through a mapping table. Network
packets arriving at an ingress port are directed to one of n queues in an egress
port(s) based on the translation of packet priority to CoS queue. The CoS
mapping tables define the queue used to handle each enumerated type of
user priority designated in either the 802.1p User Priority, or IP DSCP
contents of a packet. If neither of these fields is trusted to contain a
meaningful COS queue designation, the ingress port can be configured to use
its default priority to specify the CoS queue.
CoS queue mappings use the concept of trusted and untrusted ports.
A trusted port is one that takes at face value a certain priority designation
within arriving packets. Specifically, a port may be configured to trust one of
the following packet fields:
• IEEE 802.1p User Priority
• IP Precedence
• IP DSCP
Packets arriving at the port ingress are inspected and their trusted field value
is used to designate the COS queue that the packet is placed when forwarded
to the appropriate egress port. A mapping table associates the trusted field
value with the desired COS queue.
Alternatively, a port may be configured as untrusted, whereby it does not trust
any incoming packet priority designation and uses the port default priority
value instead. All packets arriving at the ingress of an untrusted port are
directed to a specific COS queue on the appropriate egress port(s) in
accordance with the configured default priority of the ingress port. This
process is also used for cases where a trusted port mapping is unable to be
honored, such as when a non-IP packet arrives at a port configured to trust
the User Priority or IP DSCP value.
Layer 2 Switching Commands 660
DiffServ
Standard IP-based networks are designed to provide “best effort” data delivery
service. Best effort service implies that the network delivers the data in a
timely fashion, although there is no guarantee that it will meet the latency or
bandwidth requirements. During times of congestion, packets may be
delayed, sent sporadically, or dropped. For typical Internet applications, such
as email and file transfer, a slight degradation in service is acceptable and in
many cases unnoticeable. Conversely, any
degradation of service has undesirable effects on applications with strict
timing requirements, such as voice or multimedia.
Diffserv allows the network operator to classify and apply a distinguished
service to traffic based on a number of criteria. The distinguished service can
meter traffic and apply per hop behavior based upon the bandwidth
utilization and burstiness of traffic. In addition, preferential drop
characteristics can be configured in support of an assured forwarding
capability such that TCP clients are informed if they exceed the switch
buffering limits.
Commands in this Section
This section explains the following commands:
assign-queue mark ip-dscp match source-
address mac
show class-map
class mark ip-precedence match srcip show classofservice
dot1p-mapping
class-map match class-map match srcip6 show classofservice ip-
dscp-mapping
class-map rename match cos match srcl4port show classofservice
trust
classofservice
dot1p-mapping
match destination-
address mac
match vlan show diffserv
classofservice ip-
dscp-mapping
match dstip mirror show diffserv service
interface
Layer 2 Switching Commands 661
assign-queue
Use the assign-queue command in Policy-Class-Map Configuration mode to
modify the queue ID to which the associated traffic stream is assigned.
Syntax
assign-queue
queueid
• queueid — Specifies a valid queue ID. (Range: integer from 0–6.)
Default Configuration
This command has no default configuration.
Command Mode
Policy-Class-Map Configuration mode
User Guidelines
The queue id is the internal queue number (traffic class), not the CoS value.
Use the show classofservice command to display the assignment of CoS and
DSCP values to internal queue numbers.
classofservice trust match dstip6 police-simple show diffserv service
brief
conform-color match dstl4port police-single-rate show interfaces cos-
queue
cos-queue min-
bandwidth
match ethertype police-two-rate show interfaces
random-detect
cos-queue random-
detect
match ip6flowlbl policy-map show policy-map
cos-queue strict match ip dscp random-detect
queue-parms
show policy-map
interface
diffserv match ip
precedence
random-detect
exponential-
weighting-constant
show service-policy
drop match ip tos redirect traffic-shape
mark cos match protocol service-policy vlan priority
Layer 2 Switching Commands 662
Example
The following example displays how to change the queue ID to 4 for the
associated traffic stream.
console(config-policy-classmap)#assign-queue 4
class
Use the class command in Policy-Map Class Configuration mode to create an
instance of a class definition within the specified policy for the purpose of
defining treatment of the traffic class through subsequent policy attribute
statements.
Syntax
class classname
no class
• classname — Specifies the name of an existing DiffServ class. (Range: 1–
31 characters)
Default Configuration
This command has no default configuration.
Command Mode
Policy Map Configuration mode
User Guidelines
This command causes the specified policy to create a reference to the class
definition. The command mode is changed to Policy-Class-Map
Configuration when this command is executed successfully.
Example
The following example shows how to specify the DiffServ class name of
“DELL.”
console(config)#class-map match-all DELL
console(config-classmap)#exit
console(config)#policy-map DELL1 in
console(config-policy-map)#class DELL
Layer 2 Switching Commands 663
class-map
Use the class-map command in Global Configuration mode to define a new
DiffServ class of type match-all. To delete the existing class, use the no form
of this command.
Syntax
class-map match-all class-map-name [{ipv4 | ipv6}]
no class-map class-map-name
• class-map-name — a case-sensitive alphanumeric string from 1 to 31
characters uniquely identifying an existing DiffServ class.
Default Configuration
The class-map defaults to IPv4.
Command Mode
Global Configuration mode
User Guidelines
The match-all parameter indicates that all of the match criteria configured in
the class map must be met for the packet to be processed by the class map.
Example
The following example creates a class-map named “DELL” which requires all
ACE’s to be matched.
console(config)#class-map DELL
console(config-cmap)#exit
class-map rename
Use the class-map rename command in Global Configuration mode to
change the name of a DiffServ class.
Syntax
class-map rename
classname
newclassname
Layer 2 Switching Commands 664
• classname — The name of an existing DiffServ class. (Range: 1–31
characters)
• newclassname — A case-sensitive alphanumeric string. (Range: 1–31
characters)
Default Configuration
This command has no default configuration.
Command Mode
Global Configuration mode
User Guidelines
This command has no user guidelines.
Example
The following example displays how to change the name of a DiffServ class
from “DELL” to “DELL1.”
console(config)#class-map rename DELL DELL1
console(config)#
classofservice dot1p-mapping
Use the classofservice dot1p-mapping command in Global Configuration
mode to map an IEEE 802.1p user priority to an internal traffic class. In
Interface Configuration mode, the mapping is applied only to packets
received on that interface. Use the no form of the command to remove
mapping between an 802.1p priority and an internal traffic class.
Syntax
classofservice dot1p-mapping ppriority trafficclass
no classofservice dot1p-mapping
• ppriority — Specifies the user priority mapped to the specified traffic class
for this switch. (Range: 0–7)
• trafficclass — Specifies the traffic class for this switch. (Range: 0–6)
Layer 2 Switching Commands 665
Default Configuration
The default 802.1p mapping is as follows:
Command Mode
Global Configuration or Interface Configuration (Ethernet, Port-channel)
mode
User Guidelines
None
Example
The following example globally configures a mapping for user priority 1 and
traffic class 2. If trust mode is enabled for 802.1p (classofservice trust dot1p),
packets received on any interface marked with IEEE 802.1p priority 1 will be
assigned to internal CoS queue 2.
console(config)#classofservice dot1p-mapping 1 2
classofservice ip-dscp-mapping
Use the classofservice ip-dscp-mapping command in Global Configuration
mode to map an IP DSCP value to an internal traffic class. Use the no form of
the command to return the classofservice mapping to the default, and remove
a traffic class mapping for an IP DSCP value.
User Priority Traffic Class
01
10
20
31
42
52
63
73
Layer 2 Switching Commands 666
Syntax
classofservice ip-dscp-mapping ipdscp trafficclass
no classofservice ip-dscp-mapping
• ipdscp—Specifies the IP DSCP value which is to be mapped to the
specified traffic class. (Range: 0–63 or an IP DSCP keyword – af11, af12,
af13, af21, af22, af23, af31, af32, af33, af41, af42, af43, be, cs0, cs1, cs2,
cs3, cs4, cs5, cs6, cs7, ef).
• trafficclass—Specifies the traffic class for this value mapping. (Range: 0–
6).
Default Configuration
The default DSCP mapping is as follows:
IP DSCP Traffic Class (queue-id)
0(be/cs0) 1
11
21
31
41
51
61
71
8(cs1) 0
90
10(af11) 0
11 0
12(af12) 0
13 0
14(af13) 0
15 0
Layer 2 Switching Commands 667
16(cs2) 0
17 0
18(af21) 0
19 0
20(af22) 0
21 0
22(af23) 0
23 0
24(cs3) 1
25 1
26(af31) 1
27 1
28(af32) 1
29 1
30(af33) 1
31 1
32(cs4) 2
33 2
34(af41) 2
35 2
36(af42) 2
37 2
38(af43) 2
39 2
40(cs5) 2
41 2
42 2
43 2
IP DSCP Traffic Class (queue-id)
Layer 2 Switching Commands 668
Command Mode
Global Configuration mode
User Guidelines
The switch may be configured to trust either DSCP or CoS values, but not
both. Setting the trust mode does not affect ACL packet matching, e.g. it is
still possible to use an ACL that matches on a received CoS value and assigns
the packet to a queue even when DSCP is trusted.
44 2
45 2
46(ef) 2
47 2
48(cs6) 3
49 3
50 3
51 3
52 3
53 3
54 3
55 3
56(cs7) 3
57 3
58 3
59 3
60 3
61 3
62 3
63 3
IP DSCP Traffic Class (queue-id)
Layer 2 Switching Commands 669
Example
The following example globally configures the mapping for IP DSCP 1 to
traffic class 2. If trust mode is enabled for DSCP (classofservice trust ip-
dscp), packets received on any interface marked with DSCP 1 will be assigned
to internal CoS queue 2.
console(config)#classofservice ip-dscp-mapping 1 2
classofservice trust
Use the classofservice trust command in either Global Configuration mode
or Interface Configuration mode to set the class of service trust mode of an
interface. To set the interface mode to trust 802.1p markings, use the no form
of this command.
Syntax
classofservice trust {dot1p | untrusted | ip-dscp}
no classofservice trust
•dot1p — Specifies that the mode be set to trust IEEE 802.1p packet
markings.
•untrusted — Sets the Class of Service Trust Mode to Untrusted.
•ip-dscp — Specifies that the mode be set to trust IP DSCP packet
markings.
Default Configuration
By default, the switch trusts IEEE 802.1p markings.
Command Mode
Global Configuration mode or Interface Configuration (gigabitethernet,
port-channel, tengigabitethernet, fortygigabitethernet) mode
User Guidelines
This command has no user guidelines.
Layer 2 Switching Commands 670
Examples
The following example sets the class of service trust mode of all interfaces to
trust 802.1p packet markings.
console(config)#classofservice trust dot1p
The following example displays how to set the class of service trust mode of
all interfaces to trust IP DSCP packet markings.
console(config)#classofservice trust ip-dscp
conform-color
Use the conform-color command in Policy-Class-Map Configuration mode
to enable color-aware marking for a policy.
NOTE: This command is not available on the N1500 Series switches.
Syntax
conform-color {class-map-name} [exceed-color { class-map-name } ]
Default Configuration
This command has no default configuration.
Command Mode
Policy-Class-Map Configuration mode
User Guidelines
This command must be preceded by a police command. If the conform-color
command is not entered, the police algorithm uses the color-blind version,
meaning in the incoming color is ignored. The conform-color command can
be used with any of the three police algorithms. In the simple algorithm, only
the conform color class can be configured. The conform color class pre-colors
packets as green prior to metering. Non-conforming packets are pre-colored
red prior to metering. With the single-rate and two-rate police algorithm, the
conform color class pre-colors packets as green and the exceed color class pre-
colors packets as yellow. Non-conforming packets are pre-colored red. Per-
colored packets are then metered and re-colored based upon the meter
parameters.
Layer 2 Switching Commands 671
Color conforming classes must be one of the following types:
• Primary COS
• Secondary COS
• DSCP
• IP Precedence
This includes both the input and color aware classes. The conform color class
may not be the same as the input class, nor may the match criteria be of the
same type. The input class map may have a match type of “any.”
The exceed color class may only be specified for the two-rate police
algorithm.
Example
The following example uses a simple policer to color TCP packets that exceed
an average rate of 1000 Kbps or a burst size of 16 Kbytes as red. Conforming
packets (those in CoS queue 1) are pre-colored green prior to metering. After
metering, non-conforming packets are colored red. Both green and red
packets are transmitted, but may be subject to further color-based action on
egress. The example configuration below also shows the configuration of
WRED drop thresholds and probabilities for colored traffic.
console(config)#class-map match-all class-ipv4 ipv4
console(config-classmap)#match any
console(config-classmap)#exit
console(config)#class-map match-all class-cos1 ipv4
console(config-classmap)#match cos 1
console(config-classmap)#exit
console(config)#policy-map color in
console(config-policy-map)#class class-ipv4
console(config-policy-classmap)#police-simple 1000 16 conform-action
transmit violate-action transmit
console(config-policy-classmap)#conform-color class-cos1
console(config-policy-classmap)#exit
console(config-policy-map)#exit
Layer 2 Switching Commands 672
cos-queue min-bandwidth
Use the cos-queue min-bandwidth command in either Global Configuration
mode or Interface Configuration mode to specify the minimum transmission
bandwidth for each interface queue. To restore the default for each queue’s
minimum bandwidth value, use the no form of this command.
Syntax
cos-queue min-bandwidth bw-0 bw-1 … bw-n
no cos-queue min-bandwidth
• bw-0 — Specifies the minimum transmission bandwidth guarantee for an
interface. You must specify as many bandwidth parameters as there are
COS queues (bw-0 through bw-n). (Range: 0–100 in increments of 5)
Default Configuration
By default, all CoS queues are configured with a 0% minimum bandwidth
guarantee.
Command Mode
Global Configuration mode or Interface Configuration (gigabitethernet,
port-channel, tengigabitethernet, fortygigabitethernet) mode
User Guidelines
This command changes the scheduling policy for packet transmission of the
selected CoS queues. It does not change the packet buffering policy nor does
it reserve packet buffers to a CoS queue.
The maximum number of queues supported per interface is seven. It is
recommended that the operator avoid the use of queue 5-7 to avoid conflicts
with inter- and intra-network control traffic.
In order to better accommodate bursty traffic, it is recommended that the
sum of the configured min-bandwidths be much less than 100%. Configuring
the minimum bandwidths such that they sum to 100% effectively locks the
scheduler such that bandwidth sharing by lower priority queues cannot be
accommodated under congestion conditions.
Layer 2 Switching Commands 673
When ETS is operational on an N4000 series switch, this command overrides
the ETS assignments and assigns minimum bandwidth constraints across
traffic class groups. This allows the administrator to ensure that the frame
scheduler does not completely starve lower priority groups when strict priority
is enabled on a high numbered TCG. Specifically, assigning a minimum
bandwidth to a lower numbered TCG, even when strict priority is enabled on
a higher numbered TCG, will alter the normal scheduler behavior and cause
the scheduler to process frames from the lower numbered TCG to conform to
the min-bandwidth constraint.
Example
The following example displays how to specify the minimum transmission
bandwidth guarantee for cos-queues 0 through 6 as follows:
Cos Queue 0—5% scheduler capacity
CoS Queue 1—5% scheduler capacity
CoS Queue 2—10% scheduler capacity
CoS Queue 3—10% scheduler capacity
CoS Queue 4-7—Shared scheduler capacity.
console(config)#cos-queue min-bandwidth 5 5 10 10 0 0 0
cos-queue random-detect
Use the cos-queue random-detect command in Global Configuration or
Interface Configuration mode to enable WRED queue management policy
on an interface CoS queue. Use the no form of the command to disable
WRED policy for a CoS queue on an interface.
NOTE: On the N1500 Series switches, this command enables Simple
RED since the hardware is not capable of Weighted RED.
Syntax
cos-queue {random-detect queue-id1 [queue-id2..queue-idn]}
no cos-queue {random-detect queue-id1 [queue-id2..queue-idn]}
• queue-id—An integer indicating the internal CoS queue-id which is to be
enabled for WRED. Range 0-6. Up to 7 queues may be simultaneously
specified.
Layer 2 Switching Commands 674
Default Configuration
WRED queue management policy is disabled by default. Tail-drop queue
management policy is enabled by default. The threshold for invoking tail-
drop behavior when WRED is disabled is approximately 1/2 of the remaining
free packet buffer in the switch.
Command Mode
Interface Configuration (physical or port-channel) mode, Interface Range
mode, or Global Configuration mode
User Guidelines
When used on a port-channel, this command will override the settings on the
individual interfaces that are part of the port channel. Removing an interface
from the port channel restores the individual interface settings.
This command can be used in Interface Range mode.
Use the
cos-queue min-bandwidth
command to configure the minimum
scheduler bandwidth percentage guarantee for the CoS queues.
Use the
show interfaces random-detect
command to display the WRED
configuration, including ECN configuration.
Use the
policy-map
and
conform-color
commands to mark traffic with a color
other than default green color.
The drop probability scale supports values in the range 0-10% and the discrete
values 25%, 50%, 75%, and 100%. Other values are truncated to the next lower
value by the hardware.
N1500 Series Switches
N1500 Series switches support a simple RED capability. The N1500 Series
switch does not support configuration of the maximum threshold nor can the
threshold or drop probability be configured for non-TCP traffic. Only the
minimum threshold (min-thresh) and drop probability (drop-prob-scale) may
be configured for the TCP colors green/yellow/red. The maximum threshold
may not be configured nor can the threshold or drop probability be
configured for non-TCP traffic. ECN capability is supported.
Layer 2 Switching Commands 675
Simple RED may be enabled/disabled for any CoS queue on the Dell EMC
Networking N1500 Series switches, however, the drop probability must be one
of the values given below. The percentage before the dash indicates the actual
drop probability. The number after the dash indicates the value entered in the
drop-prob-scale parameter.
0.097% - 1
0.195% - 2
0.391% - 4
0.781% - 8
1.563% - 16
3.125% - 31
6.250% - 63
100% - 100
Examples
Example 1
This example enables WRED on internal CoS 0 queue for unmarked packets
and set the green, yellow, and red colored traffic to utilize WRED starting at
3% of port congestion with a drop probability of 1%, 2% and 3%, respectively.
In this configuration, non-TCP traffic uses tail-drop queue discipline with a
drop threshold at 100% of the statically calculated port queue length vs. the
dynamically calculated value used by the normal tail-drop mechanism
(approx. 1/2 remaining free packet buffer memory).
console(config)# cos-queue random-detect 0
console(config)# random-detect queue-parms 0 min-thresh 3 3 3 100 max-thresh
10 10 10 100 drop-prob-scale 1 2 3 0
Example 2
This example configures simple RED on an N1500 series switch. CoS queue 1
is globally configured for simple RED with a congestion threshold of 50% and
a drop probability of 0.781% for green colored traffic.
console(config)# random-detect queue-parms 1 min-thresh 50 0 0 drop-prob-
scale 8 0 0
console(config)#cos-queue random-detect 1
Layer 2 Switching Commands 676
cos-queue strict
Use the cos-queue strict command in either Global Configuration mode or
Interface Configuration mode to activate the strict priority scheduler mode
for the specified queue. To restore the default weighted scheduler mode for
each specified queue, use the no form of this command.
Syntax
cos-queue strict {queue-id-1} [{queue-id-2} … {queue-id-n}]
no cos-queue strict {queue-id-1} [{queue-id-2} … {queue-id-n}]
•queue-id-1 — Specifies the queue ID for which you are activating the
strict priority scheduler. You can specify a queue ID for as many queues as
you have (queue-id 1 through queue-id-n). (Range: 0–6)
Default Configuration
This command has no default configuration.
Command Mode
Global Configuration mode or Interface Configuration (gigabitethernet,
port-channel, tengigabitethernet, fortygigabitethernet) mode
User Guidelines
Strict priority (SP) queues are scheduled in priority order ahead of WRR
queues. Strict priority queues are allocated unlimited bandwidth by default.
Configuring the min-bandwidth on a CoS queue also configured for strict
priority wastes the scheduler slots. Use the cos-queue min-bandwidth
command on lower priority SP and WRR queues to ensure fairness to lower
priority queues by reserving a specific amount of scheduler bandwidth. Use
the show interfaces cos-queue command to display the class of service
settings.
Strict priority scheduling is most useful when it is desirable that low-bit-rate
time-sensitive traffic be queued ahead of other traffic. The administrator
must be careful to limit the bandwidth assigned to the strict priority queue to
avoid potential denial of service attacks. See the “Enterprise Voice VLAN
Configuration With QoS” section in the Users Configuration Guide for a rate
limiting example. If using the min-bandwidth command to reserve
Layer 2 Switching Commands 677
bandwidth on other queues, ensure that the total of the minimum
bandwidths is less than 100% to allow the scheduler to handle bursts of
traffic.
Example
The following example displays how to activate the strict priority scheduler
mode for two queues.
console(config)#cos-queue strict 1 2
The following example displays how to activate the strict priority scheduler
mode for three queues (1, 2, and 4) and reserves a minimal amount of
bandwidth on the other four internal CoS queues (0, 3, 5 and 6).
console(config)#cos-queue strict 1 2 4
console(config)#cos-queue min-bandwidth 5 0 0 10 0 10 10
diffserv
Use the diffserv command in Global Configuration mode to set the DiffServ
operational mode to active. While disabled, the DiffServ configuration is
retained and can be changed, but it is not operational. When enabled,
DiffServ services are operational on queues configured for WRED. To set the
DiffServ operational mode to inactive, use the no form of this command.
NOTE: On the N1500 Series switches, enable Simple RED since the
hardware is not capable of Weighted RED.
Syntax
diffserv
no diffserv
Default Configuration
This command default is enabled.
Command Mode
Global Configuration mode
User Guidelines
This command has no user guidelines.
Layer 2 Switching Commands 678
Example
The following example displays how to set the DiffServ operational mode to
active.
console(Config)#diffserv
drop
Use the drop command in Policy-Class-Map Configuration mode to specify
that all packets for the associated traffic stream are to be dropped at ingress.
NOTE: This command is not available on the N1500 Series switches.
Syntax
drop
Default Configuration
This command has no default configuration.
Command Mode
Policy-Class-Map Configuration mode
User Guidelines
This command has no user guidelines.
Example
The following example displays how to specify that matching packets are to
be dropped at ingress.
console(config-policy-classmap)#drop
mark cos
Use the mark cos command in Policy-Class-Map Configuration mode to
mark all packets for the associated traffic stream with the specified class of
service value in the user priority field of the 802.1p header. If the packet does
not already contain this header, one is inserted.
NOTE: This command is not available on the N1500 Series switches.
Layer 2 Switching Commands 679
Syntax
mark cos cos-value
• cos-value — Specifies the CoS value as an integer. (Range: 0–7)
Default Configuration
There is no default cos-value for this command. Packets are not remarked by
default.
Command Mode
Policy-Class-Map Configuration mode
User Guidelines
Received frames are assigned to an internal CoS queue on ingress depending
on configuration such as whether the ingress port is trusted for CoS, DSCP or
IP precedence value and it's mapping onto an internal CoS queue.
Frames may be remarked using either an in or an out policy map. Changing
the CoS value in the VLAN tag of a frame does not alter the internal CoS
assigned to the packet; it only rewrites the CoS value in the Ethernet frame
header.
Example
The following example displays how to mark all packets with a CoS value.
console(config-policy-classmap)#mark cos 7
mark ip-dscp
Use the mark ip-dscp command in Policy-Class-Map Configuration mode to
mark all packets for the associated traffic stream with the specified IP DSCP
value.
NOTE: This command is not available on the N1500 Series switches.
Syntax
mark ip-dscp dscpval
Layer 2 Switching Commands 680
• dscpval — Specifies a DSCP value (10, 12, 14, 18, 20, 22, 26, 28, 30, 34, 36,
38, 0, 8, 16, 24, 32, 40, 48, 56, 46) or a DSCP keyword (af11, af12, af13,
af21, af22, af23, af31, af32, af33, af41, af42, af43, be, cs0, cs1, cs2, cs3, cs4,
cs5, cs6, cs7, ef).
Default Configuration
This command has no default configuration.
Command Mode
Policy-Class-Map Configuration mode
User Guidelines
Received frames are assigned to a CoS queue on ingress depending on
configuration items such as whether the ingress port is trusted for CoS,
DSCP or IP precedence value and it's mapping onto an internal CoS queue.
IP packets may be remarked using either an in or an out policy map.
Changing the IP DSCP value in the ToS value of an IP packet does not alter
the internal CoS assigned to the packet; it only rewrites the ToS value in the
IP packet header.
Example
The following example displays how to mark all packets with an IP DSCP
value of “cs4.”
console(config-policy-classmap)#mark ip-dscp cs4
mark ip-precedence
Use the mark ip-precedence command in Policy-Class-Map Configuration
mode to mark all packets for the associated traffic stream with the specified
IP precedence value.
NOTE: This command is not available on the N1500 Series switches.
Syntax
mark ip-precedence prec-value
• prec-value — Specifies the IP precedence value as an integer. (Range: 0–7)
Layer 2 Switching Commands 681
Default Configuration
This command has no default configuration.
Command Mode
Policy-Class-Map Configuration mode
User Guidelines.
Received frames are assigned to a CoS queue on ingress depending on
configuration such as whether the ingress port is trusted for CoS, DSCP or IP
precedence value and it's mapping onto an internal CoS queue.
IP packets may be remarked using either an in or an out policy map.
Changing the IP precedence value in the ToS value field of an IP packet does
not alter the internal CoS assigned to the packet; it only rewrites the ToS
value in the IP packet header.
Example
The following example displays
console(config)#policy-map p1 in
console(config-policy-map)#class c1
console(config-policy-classmap)#mark ip-precedence 2
console(config-policy-classmap)#
match class-map
Use the match class-map command to add to the specified class definition
the set of match conditions defined for another class. Use the no form of this
command to remove from the specified class definition the set of match
conditions defined for another class.
NOTE: This command is not available on the N1500 Series switches.
Syntax
match class-map refclassname
no match class-map refclassname
• refclassname — The name of an existing DiffServ class whose match
conditions are being referenced by the specified class definition.
Layer 2 Switching Commands 682
Default Configuration
This command has no default configuration.
Command Mode
Class-Map Configuration mode
User Guidelines
• The parameters refclassname and class-map-name can not be the same.
• Only one other class may be referenced by a class.
• Any attempts to delete the refclassname class while the class is still
referenced by any class-map-name fails.
• The combined match criteria of class-map-name and refclassname must
be an allowed combination based on the class type.
• Any subsequent changes to the refclassname class match criteria must
maintain this validity, or the change attempt fails.
• The total number of class rules formed by the complete reference class
chain (including both predecessor and successor classes) must not exceed
a platform-specific maximum. In some cases, each removal of a refclass
rule reduces the maximum number of available rules in the class definition
by one.
Example
The following example adds match conditions defined for the Dell class to
the class currently being configured.
console(config-classmap)#match class-map Dell
The following example deletes the match conditions defined for the Dell
class from the class currently being configured.
console(config-classmap)#no match class-map Dell
match cos
Use the match cos command in Class-Map Configuration mode to add a
match condition for the class of service value (the only tag in a single-tagged
packet or the first or outer 802.1Q tag of a double-VLAN tagged packet).
NOTE: This command is not available on the N1500 Series switches.
Layer 2 Switching Commands 683
Syntax
match cos
• cos-value — Specifies the CoS value as an integer (Range: 0–7)
Default Configuration
This command has no default configuration.
Command Mode
Class-Map Configuration mode
User Guidelines
This command has no user guidelines.
Example
The following example displays adding a match condition to the specified
class.
console(config-classmap)#match cos 1
match destination-address mac
Use the match destination-address mac command in Class-Map
Configuration mode to add a match condition based on the destination MAC
address of a packet.
NOTE: This command is not available on the N1500 Series switches.
Syntax
match destination-address mac macaddr macmask
• macaddr — Specifies any valid layer 2 MAC address formatted as six two-
digit hexadecimal numbers separated by colons.
• macmask — Specifies a valid layer 2 MAC address bit mask formatted as
six two-digit hexadecimal numbers separated by colons. This address bit
mask does not need to be contiguous.
Layer 2 Switching Commands 684
Default Configuration
This command has no default configuration.
Command Mode
Class-Map Configuration mode
User Guidelines
This command has no user guidelines.
Example
The following example configures a match condition for the specified MAC
address and bit mask.
console(config-classmap)#match destination-address mac AA:ED:DB:21:11:06
FF:FF:FF:EF:EE:EE
match dstip
Use the match dstip command in Class-Map Configuration mode to add a
match condition based on the destination IP address of a packet.
NOTE: This command is not available on the N1500 Series switches.
Syntax
match dstip ipaddr ipmask
• ipaddr — Specifies a valid IP address.
• ipmask — Specifies a valid IP address bit mask. Note that even though this
parameter is similar to a standard subnet mask, it does not need to be
contiguous.
Default Configuration
This command has no default configuration.
Command Mode
Class-Map Configuration mode
Layer 2 Switching Commands 685
User Guidelines
This command has no user guidelines.
Example
The following example displays adding a match condition using the specified
IP address and bit mask.
console(config-classmap)#match dstip 10.240.1.1 255.255.255.1
match dstip6
The match dstip6 command adds a match condition based on the
destination IPv6 address of a packet.
NOTE: This command is not available on the N1500 Series switches.
Syntax
match dstip6 destination-ipv6-prefix/prefix-length
• destination-ipv6-prefix — IPv6 prefix in IPv6 global address format.
• prefix-length — IPv6 prefix length value.
Default Configuration
There is no default configuration for this command.
Command Mode
Ipv6-Class-Map Configuration mode.
User Guidelines
There are no user guidelines for this command.
Example
console(config-classmap)#match dstip6 2001:DB8::0/32
Layer 2 Switching Commands 686
match dstl4port
Use the match dstl4port command in Class-Map Configuration mode to add
a match condition based on the destination layer 4 port of a packet using a
single keyword or a numeric notation.
NOTE: This command is not available on the N1500 Series switches.
Syntax
match dstl4port {portkey | port-number}
• portkey — Specifies one of the supported port name keywords. A match
condition is specified by one layer 4 port number. The currently supported
values are: domain, echo, ftp, ftpdata, http, smtp, snmp, telnet, tftp, and
www.
• port-number — Specifies a layer 4 port number (Range: 0–65535).
Default Configuration
This command has no default configuration.
Command Mode
Class-Map Configuration mode
User Guidelines
This command has no user guidelines.
Example
The following example displays adding a match condition based on the
destination layer 4 port of a packet using the “echo” port name keyword.
console(config-classmap)#match dstl4port echo
match ethertype
Use the match ethertype command in Class-Map Configuration mode to add
a match condition based on the value of the ethertype.
NOTE: This command is not available on the N1500 Series switches.
Layer 2 Switching Commands 687
Syntax
match ethertype {keyword |
0x0600-0xffff
}
•keyword — Specifies either a valid keyword or a valid hexadecimal number.
The supported keywords are appletalk, arp, ibmsna, ipv4, ipv6, ipx,
mplsmcast, mplsucast, netbios, novell, pppoe, rarp. (Range: 0x0600–
0xFFFF)
Default Configuration
This command has no default configuration.
Command Mode
Class-Map Configuration mode
User Guidelines
This command has no user guidelines.
Example
The following example displays how to add a match condition based on
ethertype.
console(config-classmap)#match ethertype arp
match ip6flowlbl
The match ip6flowlbl command adds to the specified class definition a
match condition based on the IPv6 flow label of a packet.
NOTE: This command is not available on the N1500 Series switches.
Syntax
match ip6flowlbl label
• label - The value to match in the Flow Label field of the IPv6 header
(Range 0-1048575).
Default Configuration
There is no default configuration for this command.
Layer 2 Switching Commands 688
Command Mode
Ipv6-Class-Map Configuration mode.
User Guidelines
There are no user guidelines for this command.
Example
The following example adds a rule to match packets whose IPv6 Flow Label
equals 32312.
console(config-classmap)#match ip6flowlbl 32312
match ip dscp
Use the match ip dscp command in Class-Map Configuration mode to add to
the specified class definition a match condition based on the value of the IP
DiffServ Code Point (DSCP) field in a packet.
NOTE: This command is not available on the N1500 Series switches.
Syntax
match ip dscp dscpval
• dscpval — Specifies an integer value or a keyword value for the DSCP
field. (Integer Range: 0–63) (Keyword Values: af11, af12, af13, af21, af22,
af23, af31, af32, af33, af41, af42, af43, be, cs0, cs1, cs2, cs3, cs4, cs5, cs6,
cs7, ef)
Default Configuration
This command has no default configuration.
Command Mode
Class-Map Configuration mode
User Guidelines
This DSCP field is defined as the high-order six bits of the Service type octet
in the IP header. The low-order two bits are not checked.
Layer 2 Switching Commands 689
The ip dscp, ip precedence, and ip tos match conditions are alternative ways
to specify a match criterion for the same Service Type field in the IP header
but with a slightly different user notation.
To specify a match on all DSCP values, use the match ip tos tosbits tosmask
command with tosbits set to “0” (zero) and tosmask set to hex “03.”
Example
The following example displays how to add a match condition based on the
DSCP field.
console(config-classmap)# match ip dscp 3
match ip precedence
Use the match ip precedence command in Class-Map Configuration mode to
add to the specified class definition a match condition based on the value of
the IP precedence field.
NOTE: This command is not available on the N1500 Series switches.
Syntax
match ip precedence precedence
• precedence — Specifies the precedence field in a packet. This field is the
high-order three bits of the Service Type octet in the IP header. (Integer
Range: 0–7)
Default Configuration
This command has no default configuration.
Command Mode
Class-Map Configuration mode
User Guidelines
The ip dscp, ip precedence, and ip tos match conditions are alternative ways
to specify a match criterion for the same Service Type field in the IP header
but with a slightly different user notation.
Layer 2 Switching Commands 690
To specify a match on all precedence values, use the match ip tos tosbits
tosmask command with tosbits set to “0” (zero) and tosmask set to hex “1F.”
Example
The following example displays adding a match condition based on the value
of the IP precedence field.
console(config-classmap)#match ip precedence 1
match ip tos
Use the match ip tos command in Class-Map Configuration mode to add to
the specified class definition a match condition based on the value of the IP
TOS field in a packet. This field is defined as all eight bits of the Service Type
octet in the IP header.
NOTE: This command is not available on the N1500 Series switches.
Syntax
match ip tos tosbits tosmask
• tosbits — Specifies a two-digit hexadecimal number. (Range: 00–ff)
• tosmask — Specifies the bit positions in the tosbits parameter that are
used for comparison against the IP TOS field in a packet. This value of this
parameter is expressed as a two-digit hexadecimal number. (Range: 00–ff)
Default Configuration
This command has no default configuration.
Command Mode
Class-Map Configuration mode
User Guidelines
The ip dscp, ip precedence, and ip tos match conditions are alternative ways
to specify a match criterion for the same Service Type field in the IP header
but with a slightly different user notation.
Layer 2 Switching Commands 691
This specification is the free form version of the IP DSCP/Precedence/TOS
match specification in that you have complete control of specifying which
bits of the IP Service Type field are checked.
Example
The following example displays adding a match condition based on the value
of the IP TOS field in a packet.
console(config-classmap)#match ip tos AA EF
match protocol
Use the match protocol command in Class-Map Configuration mode to add
to the specified class definition a match condition based on the value of the
IP Protocol field in a packet using a single keyword notation or a numeric
value notation.
NOTE: This command is not available on the N1500 Series switches.
Syntax
match protocol {protocol-name | protocol-number}
• protocol-name — Specifies one of the supported protocol name keywords.
The supported values are icmp, igmp, ip, tcp, and udp.
• protocol-number — Specifies the standard value assigned by IANA.
(Range 0–255)
Default Configuration
This command has no default configuration.
Command Mode
Class-Map Configuration mode
User Guidelines
This command has no user guidelines.
Layer 2 Switching Commands 692
Example
The following example displays adding a match condition based on the “ip”
protocol name keyword.
console(config-classmap)#match protocol ip
match source-address mac
Use the match source-address mac command in Class-Map Configuration
mode to add to the specified class definition a match condition based on the
source MAC address of the packet.
NOTE: This command is not available on the N1500 Series switches.
Syntax
match source-address mac address macmask
• macaddr — Specifies any valid layer 2 MAC address formatted as six two-
digit hexadecimal numbers separated by colons.
• macmask — Specifies a layer 2 MAC address bit mask formatted as six
two-digit hexadecimal numbers separated by colons. This bit mask does
not need to be contiguous.
Default Configuration
This command has no default configuration.
Command Mode
Class-Map Configuration mode
User Guidelines
This command has no user guidelines.
Example
The following example adds to the specified class definition a match
condition based on the source MAC address of the packet.
console(config-classmap)# match source-address mac 10:10:10:10:10:10
11:11:11:11:11:11
Layer 2 Switching Commands 693
match srcip
Use the match srcip command in Class-Map Configuration mode to add to
the specified class definition a match condition based on the source IP
address of a packet.
NOTE: This command is not available on the N1500 Series switches.
Syntax
match srcip ipaddr ipmask
• ipaddr — Specifies a valid IP address.
• ipmask — Specifies a valid IP address bit mask. Note that although this IP
address bit mask is similar to a subnet mask, it does not need to be
contiguous.
Default Configuration
This command has no default configuration.
Command Mode
Class-Map Configuration mode
User Guidelines
Only one srcip matching criteria can be specified. To remove the matching
criteria, delete the class map.
Example
The following example displays adding a match condition for the specified IP
address and address bit mask.
console(config-classmap)#match srcip 10.240.1.1 10.240.0.0
match srcip6
The match srcip6 command adds to the specified class definition a match
condition based on the source IPv6 address of a packet.
NOTE: This command is not available on the N1500 Series switches.
Layer 2 Switching Commands 694
Syntax
match srcip6 source-ipv6-prefix/prefix-length
• source-ipv6-prefix — IPv6 prefix in IPv6 global address format.
• prefix-length — IPv6 prefix length value.
Default Configuration
There is no default configuration for this command.
Command Mode
Ipv6-Class-Map Configuration mode.
User Guidelines
There are no user guidelines for this command.
Example
console(config-classmap)#match srcip6 2001:DB8::0/32
match srcl4port
Use the match srcl4port command in Class-Map Configuration mode to add
to the specified class definition a match condition based on the source layer 4
port of a packet using a single keyword or a numeric notation.
NOTE: This command is not available on the N1500 Series switches.
Syntax
match srcl4port {portkey | port-number}
• portkey — Specifies one of the supported port name keywords. A match
condition is specified by one layer 4 port number. The currently supported
values are: domain, echo, ftp, ftpdata, http, smtp, snmp, telnet, tftp, and
www.
• port-number — Specifies a layer 4 port number (Range: 0–65535).
Default Configuration
This command has no default configuration.
Layer 2 Switching Commands 695
Command Mode
Class-Map Configuration mode
User Guidelines
Only one srcl4port matching criteria can be specified. To remove the
matching criteria, delete the class map.
Example
The following example displays how to add a match condition using the
“snmp” port name keyword.
console(config-classmap)#match srcl4port snmp
match vlan
Use the match vlan command in Class-Map Configuration mode to add to
the specified class definition a match condition based on the value of the
layer 2 VLAN Identifier field. This field is the only tag in a single tagged
packet or the first or outer tag of a double VLAN packet.
NOTE: This command is not available on the N1500 Series switches.
Syntax
match vlan vlan-id
• vlan-id — Specifies a VLAN ID as an integer. (Range: 1–4093)
Default Configuration
This command has no default configuration.
Command Mode
Class-Map Configuration mode
User Guidelines
Only a single VLAN can be specified for each class map. To remove the
matching criteria, delete the class map.
Layer 2 Switching Commands 696
Example
The following example displays adding a match condition for the VLAN ID
“2.”
console(config-classmap)#match vlan 2
mirror
Use the mirror command in Policy-Class-Map Configuration mode to mirror
all the data that matches the class defined to the destination port specified.
NOTE: This command is not available on the N1500 Series switches.
Syntax
mirror interface
• interface — Specifies the Ethernet port to which data needs to be copied.
Default Configuration
This command has no default configuration.
Command Mode
Policy-Class-Map Configuration mode
User Guidelines
The port identified in this command is identical to the destination port of the
monitor command.
Example
The following example displays how to copy all the data to port Gi1/0/5.
console(config-policy-classmap)#mirror gi1/0/5
police-simple
Use the police-simple command in Policy-Class-Map Configuration mode to
applying a policing meter for the specified class.
NOTE: This command is not available on the N1500 Series switches.
Layer 2 Switching Commands 697
Syntax
police-simple {
datarate
burstsize
conform-action {drop | set-prec-transmit
cos
| set-dscp-transmit
dscpval
| transmit} [violate-action {drop | set-cos
transmit
cos
| set-prec-transmit
cos
| set-dscp-transmit
dscpval
|
transmit}]}
• datarate — Data rate in kilobits per second (Kbps). (Range: 1–
4294967295)
• burstsize — Burst size in Kbytes (Range: 1–128)
•conform action — Configures the action taken for packets that do not
exceed the data rate or the burst size:
–drop: Drop the packet.
–sec-prec-transmit ip-prec: Remark the IP precedence in the packet to
ip-prec and transmit. (Range 0-7)
–set-dscp-transmit dscp-val: Remark the DSCP in the packet to dscp-
val and transmit. (Range 0-63)
–set-cos-transmit 802.1p-priority: Remark the 802.1p priority in the
packet to 802.1p-priority and transmit. (Range 0-7)
–transmit: Transmit the packet unmodified.
The same actions are available for packets that violate the policing rule.
–violate- action — Configures the action taken for packets that exceed
the data rate or burst size.
• cos — Class of Service value. (Range: 0–7)
• dscpval — DSCP value. (Range: 0–63 or a keyword from this list: af11,
af12, af13, af21, af22, af23, af31, af32, af33, af41, af42, af43, be, cs0, cs1,
cs2, cs3, cs4, cs5, cs6, cs7, ef)
Default Configuration
This command has no default configuration.
Command Mode
Policy-Class-Map Configuration mode
Layer 2 Switching Commands 698
User Guidelines
The simple form of the police command uses a single data rate and burst size,
resulting in two outcomes: conform and violate. Conforming packets are
colored green and non-conforming packets are colored red for use by the
WRED mechanism. Only one style of police command (simple, single-rate or
two-rate) is allowed for a given class instance in a particular policy. The
conform-color
command can be used to pre-color packets prior to policing.
Packets pre-colored red are not re-colored by the policer.
Example
The following example configures a single rate ingress meter with packets
received at a rate below 1000 Kbps and 4096 byte burst size are transmitted
and packets above that rate are dropped. The transmitted packets are colored
green should the operator desire to configure a WRED drop policy.
console(config-policy-classmap)#police-simple 1000 64 conform-action
transmit violate-action drop
police-single-rate
Use the police-single-rate command to implement a single-rate Three Color
Market (srTCM) per RFC 2697.
NOTE: This command is not available on the N1500 Series switches.
Syntax
police-single-rate datarate burstsize excess-burstsize conform-action action
exceed-action action violate-action action
• datarate—Data rate in kilobits per second (Kbps). (Range 1-4294967295)
• burstsize—Burst size in kilobits per seconds (Kbps). (Range 1-128)
• excess-burstsize—Excess burst size in kilobits per seconds (Kbps). (Range
1-128)
• action—The action to take according to the color. Select one:
–drop: Drop the packet.
–set-prec-transmit ip-prec: Remark the IP precedence in the packet to
ip-prec and transmit. (Range 0-7)
Layer 2 Switching Commands 699
–set-dscp-transmit dscp-val: Remark the DSCP in the packet to dscp-
val and transmit. (Range 0-63)
–set-cos-transmit 802.1p-priority: Remark the 802.1p priority in the
packet to 802.1p-priority and transmit. (Range 0-7)
–transmit: Transmit the packet unmodified.
Default Configuration
There no default configuration for this command.
Command Modes
Policy-Class-Map Configuration mode
User Guidelines
An srTCM meters a traffic stream and colors packets according to three
parameters: Committed Information Rate (CIR), Committed Burst Size
(CBS), and Peak Burst Size (PBS). A packet is colored red if it exceeds the
CBS and the PBS, yellow if it exceeds the CBS, but not the PBS, and green if
it exceeds neither. An srTCM is useful in situations where only the length of
the burst, but not the peak rate, determines the service assignment.
The CIR is measured in Kbps, the CBS in Kbytes, and the PBS in Kbytes. It is
recommended that the CBS and PBS be configured to be larger than the
largest expected IP packet. A class command in policy-map mode must be
issued for an existing class-map before entering this command.
Example
console(config-policy-classmap)#police-single-rate 100000000 32 64 conform-
action set-cos-transmit 7 exceed-action set-prec-transmit 7 violate-action
drop
police-two-rate
Use the police-two-rate command to implement a two-rate Three Color
Market (trTCM) per RFC 2698.
NOTE: This command is not available on the N1500 Series switches.
Layer 2 Switching Commands 700
Syntax
police-two-rate datarate burstsize peak-data-rate excess-burstsize conform-
action action exceed-action action violate-action action
• datarate — Data rate in kilobits per second (Kbps). (Range: 1–
4294967295)
• burstsize — Burst size in Kbytes (Range: 1–128)
•peak-data-rate— Peak data rate in kilobits per second (Kbps). (Range 1-
4294967295)
• excess-burstsize — Excess burst size in kilobits per seconds (Kbps). (Range
1-128)
• action— The action to take according to the color. Select one of:
– drop— Drop the packet.
–set-prec-transmit ip-prec— Remark the IP precedence in the packet to
ip-prec and transmit. (Range 0-7)
–set-dscp-transmit dscp-val— Remark the DSCP in the packet to dscp-
val and transmit. (Range 0-63)
–set-cos-transmit 802.1p-priority— Remark the 802.1p priority in the
packet to 802.1p-priority and transmit. (Range 0-7)
– transmit— Transmit the packet unmodified.
Default Configuration
This command has no default configuration.
Command Mode
Policy-Class-Map Configuration mode
User Guidelines
A trTCM meters a traffic stream and colors packets according to four
parameters:
Committed Information Rate (CIR)
Committed Burst Size (CBS)
Peak Information Rate (PIR)
Layer 2 Switching Commands 701
Peak Burst Size (PBS)
A packet is colored red if it exceeds the PIR, yellow if it exceeds the CIR, but
not the PIR, and green if it does not exceed either. A trTCM is useful when a
peak rate needs to be enforced separately from a committed rate.
The CIR and PIR are measured in Kbps (not pps as indicated in the RFC),
the CBS in Kbytes, and the PBS in Kbytes. It is recommended that the CBS
and PBS be configured to be larger than the largest expected IP packet. A
class command in policy-map mode must be issued for an existing class-map
before entering this command.
Example
console(config-policy-classmap)#police-two-rate 100000000 64 1000000000 32
conform-action set-cos-transmit 7 exceed-action set-prec-transmit 7 violate-
action drop
policy-map
Use the policy-map command in Global Configuration mode to establish a
new DiffServ policy or to enter policy map configuration mode. To remove
the policy, use the no form of this command.
NOTE: This command is not available on the N1500 Series switches.
Syntax
policy-map policyname [in|out]
no policy-map policyname
• policyname— Specifies the DiffServ policy name as a unique case-
sensitive alphanumeric string of characters. (Range: 1–31 alphanumeric
characters.)
•in—The policy is applied on ingress. Must be specified to create new
DiffServ policies. An existing policy can be selected without specifying
“in” or “out”.
•out—The policy is applied on egress. Either “in” or “out” must be
specified to create a new DiffServ policy. An existing policy may be
selected without the “in” or “out” parameter.
Layer 2 Switching Commands 702
Default Configuration
This command has no default configuration.
Command Mode
Global Configuration mode
User Guidelines
The CLI mode is changed to Policy-Class-Map Configuration when this
command is successfully executed.
The policy type dictates which of the individual policy attribute commands
are valid within the policy definition.
Example
The following example shows how to establish a new ingress DiffServ policy
named “DELL.”
console(config)#policy-map DELL in
console(config-policy-classmap)#
random-detect queue-parms
Use the random-detect queue-parms command to configure the WRED
green, yellow, and red TCP and non-TCP packet minimum and maximum
drop thresholds and corresponding drop probabilities on an interface or
globally.
NOTE: On the N1500 Series switches, enable Simple RED since the
hardware is not capable of Weighted Red.
Syntax
random-detect queue-parms queue-id [queue-id] ... min-thresh minthresh-
green minthresh-yellow minthresh-red minthresh-nontcp max-thresh max-
thresh-green max-thresh-yellow max-thresh-red maxthresh-nontcp drop-
prob-scale drop-scale-green drop-scale-yellow drop-scale-red drop-scale-
nontcp [ ecn ]
no random-detect queue-parms queue-id [queue-id] ...
Layer 2 Switching Commands 703
• queue-id—The internal class of service queue (range 0-6). The queue-id is
not the same as the CoS value received in incoming packets. Use the show
classofservice dot1p-mapping command to display the CoS value to
internal CoS queue mapping.
• min-thresh—The minimum threshold at which to begin dropping, based
on the configured maximum drop probability for each color and for non-
TCP packets. Range 0 to 250. At or below the minimum threshold, no
packets are dropped. The range between the minimum and maximum
thresholds is divided equally into eight increasing levels of drop probability.
• max-thresh—The maximum threshold to end dropping at the configured
maximum drop probability for each color and for non-TCP packets. Range
0 to 250. Above the maximum threshold, 100% of matching packets are
dropped.
• drop-prob-scale—The maximum drop probability. Range 0-100. This is the
drop probability for a packet when the maximum threshold is reached.
Above the maximum threshold, 100% of matching packets are dropped.
•ecn—Enables ECN marking for the selected CoS queues. Packets marked
as ECN capable are not dropped when selected for discard by WRED.
Default Configuration
The table below shows the default green, yellow, and red TCP and non-TCP
minimum/maximum drop thresholds and the green, yellow and red TCP and
non-TCP drop probabilities. The thresholds for each color and CoS queue are
configured independently and may overlap. By default, WRED is not enabled
for any CoS queue and ECN is not enabled for any CoS queue.
Queue ID WRED Minimum
Threshold
WRED Maximum
Threshold
WRED Drop
Probability Scale
ECN Enabled
0 40/30/20/100 100/ 90/ 80/100 10/ 10/ 10/ 10 No
1 40/30/20/100 100/ 90/ 80/100 10/ 10/ 10/ 10 No
2 40/30/20/100 100/ 90/ 80/100 10/ 10/ 10/ 10 No
3 40/30/20/100 100/ 90/ 80/100 10/ 10/ 10/ 10 No
4 40/30/20/100 100/ 90/ 80/100 10/ 10/ 10/ 10 No
Layer 2 Switching Commands 704
Command Mode
Global Configuration mode, Interface Configuration mode (physical and
port-channel), Interface Range mode
User Guidelines
Interface configuration overrides the global configuration.
WRED Processing
WRED is intended to provide feedback to protocols (e.g. TCP) that depend
on packet loss to adjust their transmission rate. WRED drop behavior only
occurs when an interface is congested within the ranges specified. If
congestion exceeds the upper limit, queued packets will be dropped at the
rate of traffic ingressing the system, e.g. 100%. If the congestion is less than
the lower limit, no packets will be dropped.
Traffic ingressing the switch can be assigned to one of four drop precedences
based on a set of matching criteria. There are 3 drop precedences for TCP
traffic (green, yellow, and red) and one drop precedence for non-TCP traffic
(all colors). Users may configure the congestion thresholds at which packets
experiencing congestion are dropped randomly for each drop precedence and
may also configure the probability of a packet being dropped.
Packets are dropped at 100% when the egress queue size exceeds the
maximum value and at 0% when the queue size is below the minimum value.
Configuring a queue with a drop probability of 0% effectively applies tail-drop
behavior when the queue length exceeds the maximum threshold.
If the max-thresh parameter is less than the corresponding min-thresh
parameter, it is adjusted to be the min-thresh plus one.
For a given network, the minimum and maximum WRED thresholds should
be calculated to give a reasonable amount of buffering to TCP flows given the
switch buffer capacity. WRED thresholds are applied individually to each
5 40/30/20/100 100/ 90/ 80/100 10/ 10/ 10/ 10 No
6 40/30/20/100 100/ 90/ 80/100 10/ 10/ 10/ 10 No
Queue ID WRED Minimum
Threshold
WRED Maximum
Threshold
WRED Drop
Probability Scale
ECN Enabled
Layer 2 Switching Commands 705
physical interface. For the Dell EMC NetworkingN2000/N3000 Series
switches, a threshold of 100% corresponds to a buffer occupancy of 295428
bytes queued for transmission on an interface. For the N4000 Series switch, a
threshold of 100% corresponds to a buffer occupancy of 666757 bytes queued
for transmission on an interface.
Use the classofservice dot1p-mapping command or the classofservice ip-
dscp-mapping command in conjunction with the classofservice trust
command to assign packets to a CoS queue based upon values contained
within the packet.
WRED Drop Probabilities:
Between the minimum and maximum thresholds, the drop probability is
divided into eight discrete levels of increasing probability of packet drop. The
levels are as follows:
0 - 6.25% of maximum drop probability
1 - 18.75% of maximum drop probability
2 - 30.25% of maximum drop probability
3 - 43.75% of maximum drop probability
4 - 56.25% of maximum drop probability
5 - 68.75% of maximum drop probability
6 - 81.25% of maximum drop probability
7 - 92.75% of maximum drop probability
As an example, with a drop probability of 50%, a minimum threshold of 10%
and a maximum threshold of 90%, the drop probability from 10% to 20%
congestion is 3.125%, from 21% to 30% congestion is 9.375%, ...
The drop probability scale supports values in the range 0-10% and the discrete
values 25%, 50%, 75%, and 100%. Other values are silently truncated to the
next lower value by the hardware.
Layer 2 Switching Commands 706
Explicit Congestion Notification (ECN):
ECN capability is an end-to-end feedback mechanism. Both ends of the TCP
connection must participate. When ECN is enabled, packets marked as ECN
capable and selected for discard by WRED are marked CE and are not
dropped. In cases of extreme congestion, ECN capable packets may be
dropped.
Use the show interfaces traffic command to see color aware drops and
congestion levels.
ECN capability can be enabled in Windows Server 2008 and later releases
using the following command:
netsh interface tcp set global ecncapability=enabled
N1500 Series Switches
N1500 Series switches only support a simple RED capability. The N1500
Series switch does not support configuration of the maximum threshold nor
can the threshold or drop probability be configured for non-TCP traffic.
Dell EMC Networking N1500 Series switches implements a simple Random
Early Discard (RED) capability. Only the minimum threshold (min-thresh)
and drop probability (drop-prob-scale) may be configured for the TCP colors
green/yellow/red. The maximum threshold may not be configured nor can the
threshold or drop probability be configured for non-TCP traffic. ECN
capability is supported.
Simple RED may be enabled/disabled for any CoS queue on the Dell EMC
Networking N1500 Series switches, however, the drop probability must be one
of the values given below. The percentage before the dash indicates the actual
drop probability. The number after the dash indicates the value entered in the
drop-prob-scale parameter.
0.097%: 1
0.195%: 2
0.391%: 4
0.781%: 8
1.563%: 16
3.125%: 31
6.250%: 63
Layer 2 Switching Commands 707
100%: 100
Examples
This example configures simple RED on an N1500 series switch. CoS queue 1
is globally configured for simple RED with a congestion threshold of 50% and
a drop probability of 0.781% for green colored traffic.
console(config)# random-detect queue-parms 1 min-thresh 50 0 0 drop-prob-
scale 8 0 0
console(config)#cos-queue random-detect 1
random-detect exponential-weighting-constant
Use the random-detect exponential-weighting-constant command to
configure the decay in the calculation of the average queue size user for
WRED on an interface or all interfaces.
NOTE: This command is not available on the N1500 Series switches.
Syntax
random-detect exponential-weighting-constant 0-15
no random-detect exponential-weighting-constant
• 0–15 — The weighting constant is used to smooth the calculation of the
queue size using the following formula where the 0-15 value is N.
Default Configuration
The default value is 15. This value corresponds to maximum smoothing of
the average queue size.
Command Mode
Global Configuration mode, Interface Configuration mode (physical and
port-channel), Interface Range mode
User Guidelines
The exponential weighting constant configuration is global and applies to all
WRED colors and all CoS queues. To use the instantaneous queue size in the
calculation of WRED drops, set the weighting constant to 0. Larger values of
N reduce the effect of instantaneous changes. To update the current queue
Layer 2 Switching Commands 708
size to ½ the difference between the previous size and the current
instantaneous queue size, set the weighting constant to 1. To update the
current queue size to 1/4 the difference between the previous size and the
current instantaneous queue size, set the weighting constant to 2, ....
The average queue size is calculated for each physical interface
independently.
redirect
Use the redirect command in Policy-Class-Map Configuration mode to
specify that all incoming packets for the associated traffic stream are
redirected to a specific egress interface (physical port or port-channel).
NOTE: This command is not available on the N1500 Series switches.
Syntax
redirect interface
• interface — Specifies any valid interface. Interface is Ethernet port or
port-channel (Range: po1-po32 or gi1/0/1-gi1/0/24)
Default Configuration
This command has no default configuration.
Command Mode
Policy-Class-Map Configuration mode
User Guidelines
This command has no user guidelines.
Example
The following example shows how to redirect incoming packets to port
Gi1/0/1.
console(config-policy-classmap)#redirect gi1/0/1
Layer 2 Switching Commands 709
service-policy
Use the service-policy command in either Global Configuration mode (for all
system interfaces) or Interface Configuration mode (for a specific interface)
to attach a policy to an interface. To return to the system default, use the no
form of this command.
NOTE: This command is not available on the N1500 Series switches.
Syntax
service-policy {in|out} policymapname
no service-policy {in|out} policymapname
• policymapname—Specifies the DiffServ policy name as a unique case-
sensitive alphanumeric string. (Range: 1–31 alphanumeric characters.)
•in—Apply the policy on ingress.
•out—Apply the policy on egress.
Default Configuration
No policies are applied by default.
Command Mode
Global Configuration mode (for all system interfaces)
Interface Configuration (Ethernet, Port-channel) mode (for a specific
interface)
User Guidelines
This command applies a DiffServ policy to an interface and enables DiffServ
on the interface. No separate interface administrative mode command for
DiffServ is available. Use the policy-map command to configure the DiffServ
policy. The service-policy direction must match the direction given for the
policy map. DiffServ is enabled globally by default.
Ensure that no attributes within the policy definition exceed the capabilities
of the interface. When a policy is attached to an interface successfully, any
attempt to change the policy definition, such that it would result in a
violation of the interface capabilities, causes the policy change attempt to
fail. ACLs and DiffServ policies may not both exist on the same interface in
Layer 2 Switching Commands 710
the same direction. Applying a policy globally applies the policy to all physical
interfaces. The policy appears in the running-config as part of the individual
interface configuration.
Example
The following example shows how to attach a service policy named “DELL” to
all interfaces for packets ingressing the switch.
console(config)#service-policy in DELL
show class-map
Use the show class-map command to display all configuration information for
the specified class.
NOTE: This command is not available on the N1500 Series switches.
Syntax
show class-map [classname]
• classname — Specifies the valid name of an existing DiffServ class.
(Range: 1–31 characters)
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
This command has no user guidelines.
Example
The following example displays all the configuration information for the class
named “Dell”.
console#show class-map
Class L3
Layer 2 Switching Commands 711
Class Name Type Proto Reference Class Name
------------------------------- ----- ----- -----------------------------
ipv4 All ipv4
ipv6 All ipv6
stop_http_class All ipv6
match_icmp6 All ipv6
console#show class-map ipv4
Class Name..................................... ipv4
Class Type..................................... All
Class Layer3 Protocol.......................... ipv4
Match Criteria Values
---------------------------- -------------------------------------
Source IP Address 2.2.2.2 (255.255.255.0)
console#show class-map stop_http_class
Class Name..................................... stop_http_class
Class Type..................................... All
Class Layer3 Protocol.......................... ipv6
Match Criteria Values
---------------------------- -------------------------------------
Source IP Address 2001:DB8::0/32
Source Layer 4 Port 80(http/www)
show classofservice dot1p-mapping
Use the show classofservice dot1p-mapping command to display the current
IEEE 802.1p priority mapping to internal traffic classes for a specific
interface.
Syntax
show classofservice dot1p-mapping [{gigabitethernet unit/slot/port |
port-
channel port-channel-number
| tengigabitethernet unit/slot/port |
fortygigabitethernet unit/slot/port}]
Layer 2 Switching Commands 712
Default Configuration
By default, interfaces are configured to trust the IEEE 802.1p value in
received packets and utilize the dot1p-mapping to assign packets to CoS
queues.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
If the interface is specified, the IEEE 802.1p mapping table of the interface is
displayed. If omitted, the global configuration settings are displayed.
The following table lists the parameters in the example and gives a
description of each.
Example
The following example displays the default 802.1p traffic class mapping and
user priorities.
console#show classofservice dot1p-mapping
User Priority Traffic Class
------------- ---------------
0 1
1 0
2 0
3 1
4 2
5 2
6 3
7 3
Parameter Description
User Priority The 802.1p user priority value.
Traffic Class The traffic class internal queue identifier to which
the user priority value is mapped.
Layer 2 Switching Commands 713
show classofservice ip-dscp-mapping
Use the show classofservice ip-dscp-mapping command to display the
current IP DSCP mapping to internal traffic classes for a specific interface.
Syntax
show classofservice ip-dscp-mapping
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
This command has no user guidelines.
Example
console#show classofservice ip-dscp-mapping
IP DSCP Traffic Class
------------- -------------
0(be/cs0 1
1 1
2 1
3 1
4 1
5 1
6 1
7 1
8(cs1) 0
9 0
10(af11) 0
11 0
12(af12) 0
13 0
14(af13) 0
15 0
16(cs2) 0
17 0
Layer 2 Switching Commands 714
18(af21) 0
19 0
20(af22) 0
21 0
22(af23) 0
23 0
24(cs3) 1
25 1
26(af31) 1
27 1
28(af32) 1
29 1
30(af33) 1
31 1
32(cs4) 2
33 2
34(af41) 2
35 2
36(af42) 2
37 2
38(af43) 2
39 2
40(cs5) 2
41 2
42 2
43 2
44 2
45 2
46(ef) 2
47 2
48(cs6) 3
49 3
50 3
51 3
52 3
53 3
54 3
55 3
56(cs7) 3
57 3
58 3
59 3
60 3
61 3
62 3
63 3
Layer 2 Switching Commands 715
show classofservice trust
Use the show classofservice trust command to display the current trust mode
setting for a specific interface.
Syntax
show classofservice trust [{gigabitethernet unit/slot/port|
port-channel port-
channel-number
| tengigabitethernet unit/slot/port | fortygigabitethernet
unit/slot/port}]
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
If the interface is specified, the port trust mode of the interface is displayed.
If omitted, the port trust mode for global configuration is shown.
Example
The following example displays the current trust mode settings for the
specified port.
console#show classofservice trust gigabitethernet 1/0/2
Class of Service Trust Mode: Dot1P
show diffserv
Use the show diffserv command to display the DiffServ general information,
which includes the current administrative mode setting as well as the current
and maximum number of DiffServ components.
NOTE: On the N1500 Series switches, enable Simple RED since the
hardware is not capable of Weighted RED.
Layer 2 Switching Commands 716
Syntax
show diffserv
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
This command has no user guidelines.
Example
The following example displays the DiffServ information.
console#show diffserv
DiffServ Admin mode.......................... Enable
Class Table Size Current/Max................. 5 / 25
Class Rule Table Size Current/Max............ 6 / 150
Policy Table Size Current/Max................ 2 / 64
Policy Instance Table Size Current/Max....... 2 / 640
Policy Attribute Table Size Current/Max...... 2 / 1920
Service Table Size Current/Max............... 26 / 214
show diffserv service interface
Use this command to display policy service information for the specified
interface.
NOTE: This command is not available on the N1500 Series switches.
Syntax
show diffserv service interface {interface-id} {in|out}
•interface-id—An Ethernet or port-channel identifier.
•in—Show ingress policies.
•out—Show egress policies.
Layer 2 Switching Commands 717
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec, Global Configuration mode and all Configuration submodes
User Guidelines
This command has no user guidelines.
Example
console#show diffserv service interface gigabitethernet 1/0/1 in
DiffServ Admin Mode........................... Enable
Interface..................................... Gi1/0/1
Direction..................................... In
No policy is attached to this interface in this direction.
show diffserv service brief
Use the show diffserv service brief command to display all interfaces in the
system to which a DiffServ policy has been attached.
NOTE: This command is not available on the N1500 Series switches.
Syntax
show diffserv service brief
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
This command has no user guidelines.
Layer 2 Switching Commands 718
Example
The following example shows how to display all interfaces in the system to
which a DiffServ policy has been attached.
console(config)#show diffserv service brief
DiffServ Admin Mode............................ Enable
Interface Direction OperStatus Policy Name
----------- ----------- ---------- -------------------------------
Po47 In Down DELL
Gi1/0/1 In Down DELL
Po48 In Down DELL
Gi1/0/2 In Down DELL
show interfaces cos-queue
Use the show interfaces cos-queue command to display the class-of-service
queue configuration for the specified interface.
Syntax
show interfaces cos-queue [{gigabitethernet unit/slot/port |
port-channel
port-channel-number
| tengigabitethernet unit/slot/port |
fortygigabitethernet unit/slot/port}]
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
If the interface is specified, the class-of-service queue configuration of the
interface is displayed. If omitted, the most recent global configuration
settings are displayed.
Examples
The following example displays the COS configuration with no unit/slot/port
or port-channel parameter.
Layer 2 Switching Commands 719
console#show interfaces cos-queue
Global Configuration
Interface Shaping Rate......................... 0
Queue Id Min. Bandwidth Scheduler Type Queue Management Type
-------- -------------- -------------- --------------
0 0 Weighted Tail Drop
1 0 Weighted Tail Drop
2 0 Weighted Tail Drop
3 0 Weighted Tail Drop
4 0 Weighted Tail Drop
5 0 Weighted Tail Drop
6 0 Weighted Tail Drop
This example displays the COS configuration for the specified interface
Gi1/0/1.
console#show interfaces cos-queue gigabitethernet 1/0/1
Interface...................................... Gi1/0/1
Interface Shaping Rate......................... 0
Queue Id Min. Bandwidth Scheduler Type Queue Management Type
-------- -------------- -------------- --------------
0 0 Weighted Tail Drop
1 0 Weighted Tail Drop
2 0 Weighted Tail Drop
3 0 Weighted Tail Drop
4 0 Weighted Tail Drop
5 0 Weighted Tail Drop
6 0 Weighted Tail Drop
The following table lists the parameters in the examples and gives a
description of each.
Parameter Description
Interface The port of the interface. If displaying the global
configuration, this output line is replaced with a
global configuration indication.
Intf Shaping Rate The maximum transmission bandwidth limit for
the interface as a whole. It is independent of any
per-queue maximum bandwidth values in effect
for the interface. This value is a configured value.
Layer 2 Switching Commands 720
show interfaces random-detect
Use the show interfaces random-detect command to display the global
WRED policy or for an interface.
Syntax
show interfaces random-detect interface-id
• interface-id—Specify an optional interface type. Valid interfaces include
physical ports and port channels.
Default Configuration
For the N1500, the default drop probability is 8 – 0.781% and the default
minimum thresholds for Red/Yellow/Green colored packets are 40/30/20
percent respectively.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
Queue Mgmt Type The queue depth management technique used for
all queues on this interface.
Queue An interface supports n queues numbered 0 to
(n-1).The specific n value is platform-dependent.
Internal egress queue of the interface; queues 0–6
are available.
Minimum Bandwidth The minimum transmission bandwidth guarantee
for the queue, expressed as a percentage. A value of
0 means bandwidth is not guaranteed and the
queue operates using best-effort scheduling. This
value is a configured value.
Scheduler Type Indicates whether this queue is scheduled for
transmission using a strict priority or a weighted
scheme. This value is a configured value.
Parameter Description
Layer 2 Switching Commands 721
User Guidelines
This command displays the globally configured policy if no interface
parameter is given. If an interface parameter is given, it displays the
configured interface policy. The per CoS queue display for an interface
displays the minimum and maximum thresholds, drop probability, and ECN
capability per TCP packet color in the order: green, yellow, red, and non-TCP.
Absent a metering policy (see police-simple, police-one-rate or police-two-
rate commands), all packets are colored green. Use the
show interfaces cos-
queue
command to show the global or per interface scheduler type and queue
management types.
The N1500 Series switch does not support configuration of the maximum
threshold nor can the threshold or drop probability be configured for non-
TCP traffic.
Example
Example 1
This example shows ECN enabled for green color packets on CoS queues 0
and 1.
console#show interfaces random-detect
Global Configuration
WRED WRED WRED
Queue ID Minimum Threshold Maximum Threshold Drop Probability ECN Enabled
-------- ----------------- ----------------- ----------------- -------------
0 40/ 30/ 20/100 100/ 90/ 80/100 10/ 10/ 10/ 10 1/ 0/ 0/ 0
1 40/ 30/ 20/100 100/ 90/ 80/100 10/ 10/ 10/ 10 1/ 0/ 0/ 0
2 40/ 30/ 20/100 100/ 90/ 80/100 10/ 10/ 10/ 10 0/ 0/ 0/ 0
3 40/ 30/ 20/100 100/ 90/ 80/100 10/ 10/ 10/ 10 0/ 0/ 0/ 0
4 40/ 30/ 20/100 100/ 90/ 80/100 10/ 10/ 10/ 10 0/ 0/ 0/ 0
5 40/ 30/ 20/100 100/ 90/ 80/100 10/ 10/ 10/ 10 0/ 0/ 0/ 0
6 40/ 30/ 20/100 100/ 90/ 80/100 10/ 10/ 10/ 10 0/ 0/ 0/ 0
Example 2
This example show ECN enabled for green color packets on CoS queue 0 and
on an N1500 Series switch:
console#show interfaces random-detect
Global Configuration
SRED SRED Drop
Layer 2 Switching Commands 722
Queue ID Minimum Threshold Probability Scale ECN Enabled
-------- ----------------- ----------------- -------------
0 40/ 30/ 20 8/ 8/ 8 1/ 0/ 0
1 40/ 30/ 20 8/ 8/ 8 1/ 0/ 0
2 40/ 30/ 20 8/ 8/ 8 0/ 0/ 0
3 40/ 30/ 20 8/ 8/ 8 0/ 0/ 0
4 40/ 30/ 20 8/ 8/ 8 0/ 0/ 0
5 40/ 30/ 20 8/ 8/ 8 0/ 0/ 0
6 40/ 30/ 20 8/ 8/ 8 0/ 0/ 0
show policy-map
Use the show policy-map command to display all configuration information
for the specified policy.
NOTE: This command is not available on the N1500 Series switches.
Syntax
show policy-map [policyname]
• policyname — Specifies the name of a valid existing DiffServ policy.
(Range: 1-31)
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
This command has no user guidelines.
Example
The following example displays the DiffServ information.
console#show policy-map
Policy Name Policy Type Class Members
----------- ----------- -------------
POLY1 xxx DellClass
DELL xxx DellClass
Layer 2 Switching Commands 723
show policy-map interface
Use the show policy-map interface command to display policy-oriented
statistics information for the specified interface.
NOTE: This command is not available on the N1500 Series switches.
Syntax
show policy-map interface {interface-id} {in|out}
• interface-id—An Ethernet or port-channel identifier.
•in—Show inbound service policies. The offered value indicates the
number of packets received by the classifier.
•out—Show outbound service policies. The discarded value indicates the
number of packets discarded by the policy.
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
This command has no user guidelines.
Example
The following example displays the statistics information for port te1/0/1.
console#show policy-map interface te1/0/1 in
Interface..................................... Te1/0/1
Operational Status............................ Down
Policy Name................................... DELL
Interface Summary:
Class Name.................................... Dell EMC Networking
In Offered Packets............................ 1003
In Discarded Packets.......................... 11
Layer 2 Switching Commands 724
show service-policy
Use the show service-policy command to display a summary of
policy-oriented statistics information for all interfaces.
Syntax
show service-policy {in | out}
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
This command has no user guidelines.
Example
The following example displays a summary of policy-oriented statistics
information.
console#show service-policy in
Oper Policy
Intf Stat Name
------ ----- -------------------------------
Gi1/0/1 Down DELL
Gi1/0/2 Down DELL
Gi1/0/3 Down DELL
Gi1/0/4 Down DELL
Gi1/0/5 Down DELL
Gi1/0/6 Down DELL
Gi1/0/7 Down DELL
Gi1/0/8 Down DELL
Gi1/0/9 Down DELL
Gi1/0/10 Down DELL
Layer 2 Switching Commands 725
traffic-shape
Use the traffic-shape command in Global Configuration mode and Interface
Configuration mode to specify the maximum transmission bandwidth limit
for the interface as a whole. To restore the default interface shaping rate
value, use the no form of this command.
Syntax
traffic-shape bw kbps
no traffic-shape
• bw — Maximum transmission bandwidth value expressed in Kbps.
(Range: 64 - 4294967295)
Default Configuration
This command has no default configuration.
Command Mode
Global Configuration mode, Interface Configuration (gigabitethernet, port-
channel, tengigabitethernet, fortygigabitethernet) mode
User Guidelines
Traffic shaping, also known as rate shaping, has the effect of smoothing
temporary traffic bursts over time so that the transmitted traffic rate is
bounded. This command implements a true egress shaper where bursts of
traffic are buffered and smoothed. Shaping occurs if the average rate exceeds
the configured limit or a burst exceeds 2% of the configured limit. Effectively,
all CoS queues are configured with the configured rate limit in the scheduler.
Traffic shaping may cause congestion and packet loss if the aggregate ingress
rate for an interface persistently exceeds the egress traffic shape rate.
Example
The following example rate limits interface gi1/0/1 to a maximum bandwidth
of 1024 Kbps.
console(config-if-Gi1/0/1)#traffic-shape 1024 Kbps
Layer 2 Switching Commands 726
vlan priority
Use the vlan priority command to assign a default VLAN priority tag for
untagged frames ingressing an interface.
Syntax
vlan priority cos-value
• cos-value – A value ranging from 0-7.
Default Configuration
By default, untagged frames are processed with VLAN priority 0. The VLAN
priority is mapped to a class of service value which determines the handling of
the frame. Use the show interfaces detail command to display the configured
priority. Use the show classofservice dot1p-mapping command to display the
mapping of VLAN priorities to COS values.
Command Modes
Interface (physical) Configuration mode
User Guidelines
This command has no user guidelines.
Example
The following example configures the default VLAN priority to 1 for
untagged frames ingressing interface Te1/0/1.
console(config-if-Te1/0/1)#vlan priority 1
Layer 2 Switching Commands 727
Spanning Tree Commands
Dell EMC Networking N1100-ON/N1500/N2000/N2100-
ON/N3000/N3100-ON/N4000 Series Switches
The Multiple Spanning Tree Protocol (MSTP) component complies with
IEEE 802.1 by efficiently segregating VLAN traffic over separate interfaces for
multiple instances of Spanning Tree. IEEE 802.1D, Spanning Tree and IEEE
w, Rapid Spanning Tree are supported through the IEEE 802.1s
implementation. The difference between the RSTP and STP (IEEE 802.1D)
is the ability to configure and recognize full-duplex connectivity and ports
that are connected to end stations. The difference enables RSTP to rapidly
transition to the Forwarding state and to suppress the Topology Change
Notification PDUs, where possible.
A VLAN ID does not have to be preconfigured before mapping it to an MST
instance.
Management of MSTP is compliant with the requirements of RFC5060.
The following features are supported by Dell EMC Networking MSTP:
STP Loop Guard - The Loop Guard feature is an enhancement of the
Multiple Spanning Tree Protocol. Loop guard protects a network from
forwarding loops induced by BPDU packet loss. It can be configured to
prevent a blocked port from transitioning to the forwarding state when the
port stops receiving BPDUs for some reason (such as a uni-directional link
failure).
STP BPDU Guard - The STP BPDU guard allows the network administrator
to enforce the STP domain borders and keep the active topology consistent
and predictable. The switches behind the edge ports that have STP BPDU
guard enabled are not able to influence the overall STP topology. At the
reception of BPDUs, the BPDU guard operation diagnostically disables a port
that is configured with this option. Use the spanning-tree bpdu-protection
command to enable BPDU guard.
STP Root Guard - The root guard ensures that the port on which root guard
is enabled is the designated port. In a root bridge ports are all designated
ports, unless two or more ports of the root bridge are connected together. If
the bridge receives superior STP BPDUs on a root guard enabled port, root
guard moves this port to a root inconsistent STP state. This root inconsistent
state is effectively equal to a listening state. No traffic is forwarded across this
Layer 2 Switching Commands 728
port. In this way, the root guard enforces the position of the root bridge. In
MSTP scenario the port may be designated in one of the instances while
being alternate in the CIST, and so on. Root guard is a per port (not a per port
per instance command) configuration so all the MSTP instances this port
participates in should not be in root role.
STP BPDU Filtering - STP BPDU filtering applies to all operational edge
ports. An Edge Port is supposed to be connected to hosts that typically do not
generate BPDUs. Ports on which BDPU filtering is enabled will drop both
transmitted and received BPDUs. As a result, loops may be formed on ports
for which BPDU filtering is enabled.
STP BPDU Flooding - STP BPDU flooding feature applies to an STP
disabled switch. To enable BPDU flooding on a port, STP must be disabled
on the switch administratively. When this feature is enabled on the switch, it
floods all the ports which have the BPDU flood feature enabled.
BPDU Storm Protection - If STP BPDUs are received at a rate of 15 pps or
greater for 3 consecutive seconds on a port, the port will be diagnostically
disabled. A message of the following form is logged:
<188> MAY 04 09:45:23 10.10.10.10-1 DOT1S[276072720]: dot1s_ih.c(1587)
15855515 %% Diagnostically disabling interface 2/0/41
Use the no shut command to return the port to service.
Commands in this Section
This section explains the following commands:
clear spanning-tree
detected-protocols
spanning-tree
backbonefast
spanning-tree mode spanning-tree priority
exit (mst) spanning-tree bpdu
flooding
spanning-tree mst
configuration
spanning-tree tcnguard
instance (mst) spanning-tree
bpdu-protection
spanning-tree mst
cost
spanning-tree transmit
hold-count
name (mst) spanning-tree cost spanning-tree mst
port-priority
spanning-tree
uplinkfast
revision (mst) spanning-tree
disable
spanning-tree mst
priority
spanning-tree vlan
Layer 2 Switching Commands 729
clear spanning-tree detected-protocols
Use the clear spanning-tree detected-protocols command to restart the
protocol migration process (force the renegotiation with neighboring
switches) on all interfaces or on the specified interface.
Syntax
clear spanning-tree detected-protocols [ interface-id ]
• interface-id—An Ethernet or port channel interface identifier
Default Configuration
This command has no default setting.
Command Mode
Privileged Exec mode
User Guidelines
This feature is used only when working in RSTP or MSTP mode.
Example
The following example restarts the protocol migration process (forces the
renegotiation with neighboring switches) on Gi1/0/1.
show spanning-tree spanning-tree
forward-time
spanning-tree
portfast
spanning-tree vlan
forward-time
show spanning-tree
summary
spanning-tree guard spanning-tree
portfast bpdufilter
default
spanning-tree vlan
hello-time
show spanning-tree
vlan
spanning-tree
loopguard
spanning-tree
portfast default
spanning-tree vlan
max-age
spanning-tree spanning-tree max-
age
spanning-tree port-
priority (Interface
Configuration)
spanning-tree vlan root
spanning-tree auto-
portfast
spanning-tree max-
hops
–
spanning-tree vlan
priority
Layer 2 Switching Commands 730
console#clear spanning-tree detected-protocols gigabitethernet 1/0/1
exit (mst)
Use the exit command in MST mode to exit the MST configuration mode
and apply all configuration changes.
Syntax
exit
Default Configuration
MST configuration.
Command Mode
MST mode
User Guidelines
This command has no user guidelines.
Example
The following example shows how to exit the MST configuration mode and
save changes.
console(config)#spanning-tree mst configuration
console(config-mst)#exit
instance (mst)
Use the instance command in MST mode to map VLANS to an MST
instance.
Syntax
instance instance-id {add | remove} vlan vlan-list
• instance-ID — ID of the MST instance. (Range: 1-4094)
• vlan-list — VLANs to be added to the existing MST instance. To specify a
range of VLANs, use a hyphen. To specify a series of VLANs, use a comma.
(Range: 1-4094)
Layer 2 Switching Commands 731
Default Configuration
VLANs are mapped to the common and internal spanning tree (CIST)
instance (instance 0).
Command Mode
MST mode
User Guidelines
Before mapping VLANs to an instance use the spanning-tree mst enable
command to enable the instance.
All VLANs that are not explicitly mapped to an MST instance are mapped to
the common and internal spanning tree (CIST) instance (instance 0) and
cannot be unmapped from the CIST.
For two or more switches to be in the same MST region, they must have the
same VLAN mapping, the same configuration revision number, and the same
configuration name.
Dell EMC Networking MSTP supports mapping of VLANs to MST instances,
even though the underlying VLAN may not be defined on the switch. Traffic
received on VLANs not defined on the port received is dropped.
For interoperability purposes, VLAN 4094 may be mapped to an MSTI,
however, VLAN 4094 is reserved internally and may not be used to forward
traffic.
Example
The following example maps the entire range of VLANs to MST instances
(MST instance 0 is mapped to VLAN 1 by default). Additionally, two 10G
ports have some, but not all, of the VLANs mapped to MST instances.
console(config)#spanning-tree mode mst
console(config)#spanning-tree mst 1 priority 8192
console(config)#spanning-tree mst 2 priority 28672
console(config)#spanning-tree mst configuration
console(config-mst)#instance 1 add vlan 2-199
console(config-mst)#instance 1 add vlan 350
console(config-mst)#instance 1 add vlan 400-449
console(config-mst)#instance 1 add vlan 500-1999
console(config-mst)#instance 1 add vlan 2200-2499
console(config-mst)#instance 1 add vlan 2600-2799
Layer 2 Switching Commands 732
console(config-mst)#instance 1 add vlan 3000-4093
console(config-mst)#instance 2 add vlan 200-349
console(config-mst)#instance 2 add vlan 351-399
console(config-mst)#instance 2 add vlan 450-499
console(config-mst)#instance 2 add vlan 2000-2199
console(config-mst)#instance 2 add vlan 2500-2599
console(config-mst)#instance 2 add vlan 2800-2999
console(config-mst)#exit
console(config)#interface te1/1/1
console(config-if-Te1/1/1)#switchport mode trunk
console(config-if-Te1/1/1)#switchport trunk allowed vlan add 2-150
console(config-if-Te1/1/1)#spanning-tree mst 1 port-priority 16
console(config-if-Te1/1/1)#interface te1/1/2
console(config-if-Te1/1/2)#switchport mode trunk
console(config-if-Te1/1/2)#switchport trunk allowed vlan add 200-349
console(config-if-Te1/1/2)#spanning-tree mst 2 port-priority 16
console(config-if-Te1/1/2)#exit
name (mst)
Use the name command in MST mode to define the region name. To return
to the default setting, use the no form of this command.
Syntax
name string
• string — Case sensitive MST configuration name. (Range: 1-32
characters)
Default Configuration
Bridge address.
Command Mode
MST mode
User Guidelines
When configuring the switch in MSTP mode, be sure to configure the MST
region name. For multiple switches to become members of the same region,
the configuration name, the configuration revision and mapping of VLANs to
MSTIs must be identical.
Layer 2 Switching Commands 733
Example
The following example sets the configuration name to “region1”.
console(config)#spanning-tree mst configuration
console(config-mst)#name region1
revision (mst)
Use the revision command in MST mode to identify the configuration
revision number. To return to the default setting, use the no form of this
command.
Syntax
revision
version
no revision
• version — Configuration revision number. (Range: 0-65535)
Default Configuration
Revision number is 0.
Command Mode
MST mode
User Guidelines
When configuring the switch in MSTP mode, be sure to configure the MST
region name. For multiple switches to become members of the same region,
the configuration name, the configuration revision and mapping of VLANs to
MSTIs must be identical.
Example
The following example sets the configuration revision to 1.
console(config)#spanning-tree mst configuration
console(config-mst)#revision 1
Layer 2 Switching Commands 734
show spanning-tree
Use the show spanning-tree command to display the spanning-tree
configuration.
Syntax
show spanning-tree [{gigabitethernet unit/slot/port |
port-channel port-
channel-number
| tengigabitethernet unit/slot/port | fortygigabitethernet
unit/slot/port}] [instance instance-id]
show spanning-tree [detail] [active | blockedports] | [instance instance-id]
show spanning-tree mst-configuration
show spanning-tree {uplinkfast | backbonefast}
•detail—Displays detailed information.
•active—Displays active ports only.
•blockedports—Displays blocked ports only.
•mst-configuration—Displays the MST configuration identifier.
• instance -id —ID of the spanning tree instance.
•uplinkfast—Displays Direct Link Rapid Convergence information.
•backbonefast—Displays Indirect Link Rapid Convergence information.
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
This command has no user guidelines.
Examples
The following examples display spanning-tree information. MST information
is shown in this form of the command regardless of the spanning tree mode.
Layer 2 Switching Commands 735
console#show spanning-tree
Spanning Tree: Enabled - BPDU Flooding: Disabled - Portfast BPDU Filtering:
Disabled
Mode: rstp
CST Regional Root: 80:00:00:1E:C9:DE:D4:47
Regional Root Path Cost: 0
ROOT ID
Priority 32768
Address 001E.C9DE.D447
This Switch is the Root.
Hello Time: 2s Max Age: 20s Forward Delay: 15s Transmit Hold
Count: 6s
Bridge Max Hops: 20
Interfaces
Name State Prio.Nbr Cost Sts Role Restricted
--------- -------- --------- --------- ---- ----- ----------
Gi1/0/1 Enabled 128.1 20000 FWD Desg No
Gi1/0/2 Enabled 128.2 20000 FWD Desg No
Gi1/0/3 Enabled 128.3 0 DIS Disb No
Gi1/0/4 Enabled 128.4 0 DIS Disb No
Gi1/0/5 Enabled 128.5 0 DIS Disb No
Gi1/0/6 Enabled 128.6 0 DIS Disb No
console#show spanning-tree gi1/0/1
Port: Gi1/0/1 Enabled
State: Forwarding Role: Designated
Port ID: 128.1 Port Cost: 20000
Port Fast: No Root Protection: No
Designated Bridge Priority: 32768 Address: 001E.C9DE.D447
Designated Port ID: 128.1 Designated Path Cost: 0
CST Regional Root: 80:00:00:1E:C9:DE:D4:47
Root Guard..................................... False
Loop Guard..................................... False
TCN Guard...................................... False
Auto Portfast.................................. True
BPDU Filter Mode............................... Disabled
Time Since Counters Last Cleared............... 0d0h2m46s
BPDUs: Sent: 74, Received: 0
console#show spanning-tree detail
Spanning Tree: Enabled (BPDU Flooding: Disabled)
Mode: rstp Portfast BPDU Filtering: Disabled
CST Regional Root: 80:00:00:1E:C9:DE:D4:47
Regional Root Path Cost: 0
Address 80:00:00:1E:C9:DE:D4:47
Layer 2 Switching Commands 736
This Switch is the Root.
Hello Time: 2s Max Age: 20s Forward Delay: 15s Transmit Hold
Count: 6s
Bridge Max Hops: 20
Number of topology changes: 1 Last Change Occurred: 0d0h3m6s ago
Times: Hold: 6, Hello: 2, Max Age: 20, Forward Delay: 15
Port: Gi1/0/1 Enabled
State: Forwarding Role: Designated
Port ID: 128.1 Port Cost: 20000
Root Protection: No
Designated Bridge Priority: 32768 Address: 001E.C9DE.D447
Designated Port ID: 128.1 Designated Path Cost: 0
CST Regional Root: 80:00:00:1E:C9:DE:D4:47 CST Port Cost: 0
BPDUs: Sent: 83, Received: 0
Port: Gi1/0/2 Enabled
State: Forwarding Role: Designated
Port ID: 128.2 Port Cost: 20000
Root Protection: No
Designated Bridge Priority: 32768 Address: 001E.C9DE.D447
Designated Port ID: 128.2 Designated Path Cost: 0
CST Regional Root: 80:00:00:1E:C9:DE:D4:47 CST Port Cost: 0
BPDUs: Sent: 84, Received: 2
Port: Gi1/0/3 Enabled
State: Disabled Role: Disabled
Port ID: 128.3 Port Cost: 0
Root Protection: No
Designated Bridge Priority: 32768 Address: 001E.C9DE.D447
Designated Port ID: 0.0 Designated Path Cost: 0
CST Regional Root: 80:00:00:1E:C9:DE:D4:47 CST Port Cost: 0
BPDUs: Sent: 0, Received: 0
console#show spanning-tree detail active
Spanning Tree: Enabled (BPDU Flooding: Disabled)
Mode: rstp Portfast BPDU Filtering: Disabled
CST Regional Root: 80:00:00:1E:C9:DE:D4:47
Regional Root Path Cost: 0
ROOT ID
Address 80:00:00:1E:C9:DE:D4:47
This Switch is the Root.
Hello Time: 2s Max Age: 20s Forward Delay: 15s Transmit Hold
Count: 6s
Bridge Max Hops: 20
Number of topology changes: 1 Last Change Occurred: 0d0h4m13s ago
Times: Hold: 6, Hello: 2, Max Age: 20, Forward Delay: 15
Port: Gi1/0/1 Enabled
State: Forwarding Role: Designated
Layer 2 Switching Commands 737
Port ID: 128.1 Port Cost: 20000
Root Protection: No
Designated Bridge Priority: 32768 Address: 001E.C9DE.D447
Designated Port ID: 128.1 Designated Path Cost: 0
CST Regional Root: 80:00:00:1E:C9:DE:D4:47 CST Port Cost: 0
BPDUs: Sent: 112, Received: 0
Port: Gi1/0/2 Enabled
State: Forwarding Role: Designated
Port ID: 128.2 Port Cost: 20000
Root Protection: No
Designated Bridge Priority: 32768 Address: 001E.C9DE.D447
Designated Port ID: 128.2 Designated Path Cost: 0
CST Regional Root: 80:00:00:1E:C9:DE:D4:47 CST Port Cost: 0
BPDUs: Sent: 113, Received: 2
Port: Te1/0/1 Enabled
State: Forwarding Role: Designated
Port ID: 128.49 Port Cost: 2000
Root Protection: No
Designated Bridge Priority: 32768 Address: 001E.C9DE.D447
Designated Port ID: 128.49 Designated Path Cost: 0
CST Regional Root: 80:00:00:1E:C9:DE:D4:47 CST Port Cost: 0
BPDUs: Sent: 113, Received: 1
console#show spanning-tree blockedports
Spanning Tree: Enabled (BPDU Flooding: Disabled) Mode: rstp
CST Regional Root: 80:00:00:1E:C9:DE:D4:47
Regional Root Path Cost: 0
###### MST 0 Vlan Mapped: 1-10
ROOT ID
Priority 32768
Address 001E.C9DE.D447
This Switch is the Root.
Hello Time: 2s Max Age: 20s Forward Delay: 15s
Interfaces
Name State Prio.Nbr Cost Sts Role RestrictedPort
--------- -------- --------- --------- ---- ----- --------------
Te1/0/2 Enabled 128.50 2000 DSC Bkup No
console(config)#show spanning-tree uplinkfast
Directlink rapid convergence is enabled
BPDU update rate : 150 packets/sec
Directlink rapid convergence Statistics
---------------------
Directlink rapid convergence transitions (all VLANs).. 0
Proxy multicast addresses transmitted (all VLANs)..... 0
Layer 2 Switching Commands 738
Name Interface list
--------------- ------------------------------------
VLAN0001 Gi1/0/2(fwd)
VLAN0002
VLAN0003
VLAN0004
VLAN0005
VLAN0006
VLAN0007
VLAN0008
VLAN0009
VLAN0010
console(config)#show spanning-tree backbonefast
Indirectlink rapid convergence is enabled
Indirectlink rapid convergence Statistics
---------------------
Transitions via indirectlink rapid convergenc.. 0
Inferior BPDUs received (all VLANs)............ 7
RLQ request PDUs received (all VLANs).......... 0
RLQ response PDUs received (all VLANs)......... 0
RLQ request PDUs sent (all VLANs).............. 0
RLQ response PDUs sent (all VLANs)............. 0
This example shows spanning-tree configured in mstp mode. Output is
shown for each VLAN that is a member of an MST domain.
console(config-mst)#show spanning-tree active
Spanning Tree: Enabled (BPDU Flooding: Disabled)
Mode: rstp Portfast BPDU Filtering: Disabled
CST Regional Root: 80:00:00:1E:C9:DE:D4:47
Regional Root Path Cost: 0
###### MST 0 Vlan Mapped: 1
ROOT ID
Priority 32768
Address 001E.C9DE.D447
This Switch is the Root.
Hello Time: 2s Max Age: 20s Forward Delay: 15s
Interfaces
Name State Prio.Nbr Cost Sts Role RestrictedPort
Layer 2 Switching Commands 739
--------- -------- --------- --------- ---- ----- --------------
Gi1/0/1 Enabled 128.1 0 FWD Desg No
Gi1/0/2 Enabled 128.2 0 FWD Desg No
Te1/0/1 Enabled 128.49 0 FWD Desg No
Te1/0/2 Enabled 128.50 0 DSC Bkup No
###### MST 1 Vlan Mapped: 2
ROOT ID
Priority 32768
Address 001E.C9DE.D447
This Switch is the Root.
Hello Time: 2s Max Age: 20s Forward Delay: 15s
Interfaces
Name State Prio.Nbr Cost Sts Role RestrictedPort
--------- -------- --------- --------- ---- ----- --------------
Gi1/0/1 Enabled 128.1 20000 FWD Desg No
Gi1/0/2 Enabled 128.2 20000 FWD Desg No
###### MST 2 Vlan Mapped: 3-5
ROOT ID
Priority 4096
Address 001E.C9DE.D447
This Switch is the Root.
Hello Time: 2s Max Age: 20s Forward Delay: 15s
Interfaces
Name State Prio.Nbr Cost Sts Role RestrictedPort
--------- -------- --------- --------- ---- ----- --------------
Gi1/0/1 Enabled 128.1 20000 FWD Desg No
Gi1/0/2 Enabled 128.2 20000 FWD Desg No
###### MST 3 Vlan Mapped: 6-10
ROOT ID
Priority 32768
Address 001E.C9DE.D447
This Switch is the Root.
Hello Time: 2s Max Age: 20s Forward Delay: 15s
Interfaces
Name State Prio.Nbr Cost Sts Role RestrictedPort
--------- -------- --------- --------- ---- ----- --------------
Gi1/0/1 Enabled 128.1 20000 FWD Desg No
Gi1/0/2 Enabled 128.2 20000 FWD Desg No
console(config)#show spanning-tree instance 2
Layer 2 Switching Commands 740
Spanning Tree: Enabled BPDU Flooding: Disabled
Mode: mstp Portfast BPDU Filtering: Disabled
CST Regional Root: 80:00:00:1E:C9:DE:D4:47
Regional Root Path Cost: 0
###### MST 2 Vlan Mapped: 3-5
ROOT ID
Priority 4096
Address 001E.C9DE.D447
Path Cost 0
Root Port
Bridge ID
Priority 4096
Address 001E.C9DE.D447
Hello Time: 2s Max Age: 20s Forward Delay: 15s Transmit Hold
Count: 6s
Name State Prio.Nbr Cost Sts Role RestrictedPort
--------- -------- --------- --------- ---- ----- --------------
Gi1/0/1 Enabled 128.1 0 FWD Desg No
Gi1/0/2 Enabled 128.2 0 FWD Desg No
Gi1/0/3 Enabled 128.3 0 DIS Disb No
Gi1/0/4 Enabled 128.4 0 DIS Disb No
Gi1/0/5 Enabled 128.5 0 DIS Disb No
Gi1/0/6 Enabled 128.6 0 DIS Disb No
Gi1/0/7 Enabled 128.7 0 DIS Disb No
Gi1/0/8 Enabled 128.8 0 DIS Disb No
This example shows spanning-tree configured in rstp mode. Output is shown
for each interface.
console(config)#show spanning-tree active
Spanning Tree: Enabled (BPDU Flooding: Disabled)
Mode: rstp Portfast BPDU Filtering: Disabled
CST Regional Root: 80:00:00:1E:C9:DE:D4:47
Regional Root Path Cost: 0
###### MST 0 Vlan Mapped: 1-10
ROOT ID
Priority 32768
Address 001E.C9DE.D447
This Switch is the Root.
Hello Time: 2s Max Age: 20s Forward Delay: 15s
Interfaces
Name State Prio.Nbr Cost Sts Role RestrictedPort
--------- -------- --------- --------- ---- ----- --------------
Gi1/0/1 Enabled 128.1 20000 FWD Desg No
Layer 2 Switching Commands 741
Gi1/0/2 Enabled 128.2 20000 FWD Desg No
Te1/0/1 Enabled 128.49 2000 FWD Desg No
Te1/0/2 Enabled 128.50 2000 DSC Bkup No
This example shows spanning-tree configured in rapid-pvst mode. Output is
shown for each VLAN that is actively running a spanning tree instance.
console(config)#show spanning-tree active
Spanning-tree enabled protocol rpvst
VLAN 1
RootID Priority 32768
Address F8B1.562B.A1D6
Cost 20000
Port 2(Gi1/0/2)
Hello Time 2 sec Max Age 20 sec Forward Delay 15 sec
BridgeID Priority 32769 (priority 32768 sys-id-ext 1)
Address 001E.C9DE.D447
Hello Time 2 sec Max Age 20 sec Forward Delay 15 sec
Aging Time 300 sec
Interface State Prio.Nbr Cost Status Role
--------- --------- --------- ------- ------------- -----------
Gi1/0/1 Enabled 128.1 20000 Forwarding Designated
Gi1/0/2 Enabled 128.2 20000 Forwarding Root
Te1/0/1 Enabled 128.49 2000 Forwarding Designated
Te1/0/2 Enabled 128.50 2000 Discarding Backup
VLAN 2
RootID Priority 32770
Address 001E.C9DE.D447
Cost 0
Port This switch is the root
Hello Time 2 sec Max Age 20 sec Forward Delay 15 sec
BridgeID Priority 32770 (priority 32768 sys-id-ext 2)
Address 001E.C9DE.D447
Hello Time 2 sec Max Age 20 sec Forward Delay 15 sec
Aging Time 300 sec
Interface State Prio.Nbr Cost Status Role
--------- --------- --------- ------- ------------- -----------
Gi1/0/1 Enabled 128.1 20000 Forwarding Designated
Gi1/0/2 Enabled 128.2 20000 Forwarding Designated
Layer 2 Switching Commands 742
show spanning-tree summary
Use the show spanning-tree summary command to display spanning tree
settings and parameters for the switch.
Syntax
show spanning-tree summary
Default Configuration
There is no default configuration for this command.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
The following fields are displayed:
Field Description
Spanning Tree Admin
Mode
Enabled or disabled
Spanning Tree Version Version of currently supported (IEEE 802.1s, IEEE
802.1w, or IEEE 802.1d) based upon the mode
parameter.
BPDU Protection Mode Enabled or disabled.
BPDU Filter Mode Enabled or disabled.
BPDU Flooding Mode Enabled or disabled.
IndirectLink Rapid
Convergence
Backbone-fast for RSTP-PV is enabled or disabled.
DirectLink Rapid
Convergence
Enables/Disables DRC by setting switch priority to
49152.
Configuration Name Identifier used to identify the configuration currently
being used.
Layer 2 Switching Commands 743
Example
console#show spanning-tree summary
Spanning Tree Admin Mode.......... Enabled
Spanning Tree Version............. IEEE 802.1w
BPDU Guard Mode................... Disabled
BPDU Flood Mode................... Disabled
IndirectLink Rapid Convergence.... Disabled
DirectLink Rapid Convergence...... Disabled
BPDU Filter Mode.................. Disabled
Configuration Name................ 14-18-77-0C-9D-D8
Configuration Revision Level...... 0
Configuration Digest Key.......... 0xac36177f50283cd4b83821d8ab26de62
Configuration Format Selector..... 0
show spanning-tree vlan
Use the show spanning-tree vlan command to display spanning tree
information per VLAN and also list out the port roles and states as well as
port cost.
Syntax
show spanning-tree vlan { vlan-list | all }
• vlan-list — A list of VLANs or VLAN ranges separated by commas and
with no embedded blank spaces. VLAN ranges are of the form X-Y where X
and Y are valid VLAN identifiers and X < Y.
•
all—Show all VLANs.
Configuration Revision
Level
Identifier used to identify the configuration currently
being used.
Configuration Digest Key A generated Key used in the exchange of the BPDUs.
Configuration Format
Selector
Specifies the version of the configuration format being
used in the exchange of BPDUs. The default value is
zero.
MST Instances List of all multiple spanning tree instances configured
on the switch.
Layer 2 Switching Commands 744
Default Configuration
There is no default configuration for this command.
Command Modes
Privileged Exec and above
User Guidelines
There are no user guidelines for this command.
Example
console(config)#show spanning-tree vlan 2
VLAN 2
Spanning Tree: Enabled Mode: rapid-pvst
RootID Priority 32770
Address 001E.C9DE.D447
Cost 0
Port This switch is the root
Hello Time: 2s Max Age: 20s Forward Delay: 15s
BridgeID Priority 32770 (priority 32768 sys-id-ext 2)
Address 001E.C9DE.D447
Hello Time: 2s Max Age: 20s Forward Delay: 15s
Aging Time 300 sec
Interface Role Sts Cost Prio.Nbr
--------- ---------- ------------- --------- --------
Gi1/0/1 Designated Forwarding 20000 128.1
Gi1/0/2 Designated Forwarding 20000 128.2
spanning-tree
Use the spanning-tree command in Global Configuration mode to enable
spanning-tree functionality. To disable spanning-tree functionality, use the no
form of this command.
Syntax
spanning-tree
no spanning-tree
Default Configuration
Spanning-tree is enabled.
Layer 2 Switching Commands 745
Command Mode
Global Configuration mode
User Guidelines
This command has no user guidelines.
Example
The following example enables spanning-tree functionality.
console(config)#spanning-tree
spanning-tree auto-portfast
Use the spanning-tree auto-portfast command to set the port to auto portfast
mode. This enables the port to become a portfast port if it does not see any
BPDUs for 3 seconds after a link up event. Use the no form of this command
to disable auto portfast mode.
Syntax
spanning-tree auto-portfast
no spanning-tree auto-portfast
Default Configuration
Auto portfast mode is enabled by default.
Command Mode
Interface Configuration (Ethernet, Port Channel) mode
User Guidelines
There are no user guidelines for this command.
Example
The following example enables spanning-tree functionality on Gigabit
ethernet interface 4/0/1.
console#config
console(config)#interface gigabitethernet 4/0/1
Layer 2 Switching Commands 746
console(config-if-4/0/1)#spanning-tree auto-portfast
spanning-tree backbonefast
Use the spanning-tree backbonefast command to enable the detection of
indirect link failures and accelerate spanning tree convergence on
STP-PV/RSTP-PV configured switches using Indirect Link Rapid
Convergence (IRC). IRC accelerates finding an alternative path when an
indirect link to the root port goes down. Use the no form of the command to
disable the IRC feature.
Syntax
spanning-tree backbonefast
no spanning-tree backbonefast
Default Configuration
This command has no default configuration.
Command Modes
Global Configuration Mode
User Guidelines
IRC can be configured even if the switch is configured for MST(RSTP) or
RSTP-PV mode. It only has an effect when the switch is configured for
STP-PV mode.
If an IRC-enabled switch receives an inferior BPDU from its designated
switch on a root or blocked port, it sets the maximum aging time on the
interfaces on which it received the inferior BPDU if there are alternative
(blocked) paths to the designated switch. This allows a blocked port to
immediately move to the listening state where the port can be transitioned to
the forwarding state in the normal manner.
Example
console(config)#spanning-tree backbonefast
Layer 2 Switching Commands 747
spanning-tree bpdu flooding
The spanning-tree bpdu flooding command allows flooding of BPDUs
received on non-spanning-tree ports to all other non-spanning-tree ports. Use
the “no” form of the command to disable flooding.
Syntax
spanning-tree bpdu flooding
no spanning-tree bpdu flooding
Default Configuration
This feature is disabled by default.
Command Mode
Global Configuration mode
User Guidelines
There are no user guidelines for this command.
Example
console#spanning-tree bpdu flooding
spanning-tree bpdu-protection
Use the spanning-tree bpdu-protection command in Global Configuration
mode to enable BPDU guard on a switch. Use the no form of this command
to resume the default status of BPDU guard function.
Syntax
spanning-tree bpdu-protection
no spanning-tree bpdu-protection
Default Configuration
BPDU guard is not enabled.
Layer 2 Switching Commands 748
Command Mode
Global Configuration mode
User Guidelines
The administrator should ensure that interfaces on which BDPU guard is
enabled are configured as edge ports. To configure an interface as an edge
port, use the spanning-tree portfast command.
An edge port is generally connected to a user terminal (such as a desktop
computer) or file server directly and is configured as an edge port to
implement a fast transition to the forwarding state. When the port receives a
BPDU packet, the system sets it to non-edge port and recalculates the
spanning tree topology, which may cause network topology flapping. In
normal cases, edge ports do not receive any BPDU packets. However, an
attacker may forge BPDU packets to maliciously disrupt the switch and cause
network flapping.
Dell spanning-tree provides a BPDU guard function against such attacks. If
an interface enabled for BPDU guard receives a BPDU packet, the interface is
diagnostically disabled and a message is written to the log. The port may be
re-enabled using the no shutdown command after disconnecting the
offending device from the interface.
Example
The following example enables BPDU protection.
console(config)#spanning-tree bpdu-protection
spanning-tree cost
Use the spanning-tree cost command in Interface Configuration mode to
configure the externally advertised spanning-tree path cost for a port. To
return to the default port path cost, use the no form of this command.
The path cost is used in the selection of an interface for the forwarding or
blocking states. Use the no form of the command to automatically select the
path cost based upon the speed of the interface.
Syntax
spanning-tree [vlan vlan-list] cost cost
Layer 2 Switching Commands 749
no spanning-tree cost
• cost — The port path cost.
Default Configuration
The default cost value (0) causes the switch to select the path cost based on
the link speed.
•40G Port path cost — 1400
•10G Port path cost — 2000
•1000 Mbps (giga) — 20,000
•100 Mbps — 200,000
•10 Mbps — 2,000,000
• Port Channel—200,000,000 divided by the sum of the unidirectional link
speed (in Mbps) of each active member multiplied by 10 per section 13.6.1
of IEEE
802.1
s.
Command Mode
Interface Configuration (gigabitethernet, port-channel, tengigabitethernet,
fortygigabitethernet) mode
User Guidelines
Dell EMC Networking spanning tree uses long values for spanning tree costs.
The range for path cost for a port is 0-200,000,000. The range for path cost for
a VLAN is 1-200,000,000. Use the no form of the command to calculate the
cost based on the interface speed. A zero path cost causes the switch to
calculate the path cost based upon the speed of the interface.
If the VLAN parameter is given, the path cost is configured only for the
selected VLANs (applies only when pvst or rapid-pvst mode is selected).
Configuration without the VLAN parameter configures the interface path
cost for STP, RSTP, and the MSTP common instance.
If an interface is configured with both the spanning-tree vlan vlan-id cost cost
command and the spanning-tree cost cost command, the spanning-tree vlan
vlan-id cost cost value is used in the spanning tree calculation for RSTP-PV,
STP-PV, and MST.
Layer 2 Switching Commands 750
Example
The following example configures the external path cost to be 8192 for
VLANs 12, 13, 24, 25, and 26.
console(config-if-Gi1/0/1)#spanning-tree vlan 12,13,24-26 cost 8192
spanning-tree disable
Use the spanning-tree disable command in Interface Configuration mode to
disable spanning-tree on a specific port. To enable spanning-tree on a port,
use the no form of this command.
Syntax
spanning-tree disable
no spanning-tree disable
Default Configuration
By default, all ports are enabled for spanning-tree.
Command Mode
Interface Configuration (gigabitethernet, port-channel, tengigabitethernet,
fortygigabitethernet) mode
User Guidelines
This command has no user guidelines.
Example
The following example disables spanning-tree on Gi1/0/5.
console(config)#interface gigabitethernet 1/0/5
console(config-if-Gi1/0/5)#spanning-tree disable
spanning-tree forward-time
Use the spanning-tree forward-time command in Global Configuration
mode to configure the spanning-tree bridge forward time, which is the
amount of time a port remains in the listening and learning states before
entering the forwarding state.
Layer 2 Switching Commands 751
To reset the default forward time, use the no form of this command.
Syntax
spanning-tree forward-time seconds
no spanning-tree forward-time
• seconds — Time in seconds. (Range: 4–30)
Default Configuration
The default forwarding-time for IEEE Spanning-tree Protocol (STP) is 15
seconds.
Command Mode
Global Configuration mode.
User Guidelines
When configuring the Forward-Time the following relationship should be
satisfied:
2*(Forward-Time - 1) >= Max-Age.
Example
The following example configures spanning-tree bridge forward time to 25
seconds.
console(config)#spanning-tree forward-time 25
spanning-tree guard
The spanning-tree guard command selects whether loop guard or root guard
is enabled on an interface. If neither is enabled, the port operates in
accordance with the multiple spanning tree protocol. Use the “no” form of
this command to disable loop guard or root guard on the interface.
Syntax
spanning-tree guard {root | loop | none}
•root — Enables root guard.
Layer 2 Switching Commands 752
•loop — Enables loop guard
•none — Disables root and loop guard.
Default Configuration
Neither root nor loop guard is enabled.
Command Mode
Interface Configuration (Ethernet, Port Channel) mode.
User Guidelines
There are no user guidelines for this command.
Example
The following example disables spanning-tree guard functionality on Gigabit
ethernet interface 4/0/1.
console#config
console(config)#interface gigabitethernet 4/0/1
console(config-if-4/0/1)#spanning-tree guard none
spanning-tree loopguard
Use the spanning-tree loopguard command to enable loop guard on all ports.
Use the “no” form of this command to disable loop guard on all ports.
Syntax
spanning-tree loopguard default
no spanning-tree loopguard default
Default Configuration
Loop guard is disabled by default.
Command Mode
Global Configuration mode
Layer 2 Switching Commands 753
User Guidelines
There are no user guidelines for this command.
Example
The following example enables spanning-tree loopguard functionality on all
ports.
console(config)#spanning-tree loopguard default
spanning-tree max-age
Use the spanning-tree max-age command in Global Configuration mode to
configure the spanning-tree bridge maximum age. To reset the default
maximum age, use the no form of this command.
Syntax
spanning-tree max-age seconds
no spanning-tree max-age
• seconds -Time in seconds. (Range: 6–40)
Default Configuration
The default max-age for IEEE STP is 20 seconds.
Command Mode
Global Configuration mode
User Guidelines
When configuring the Max-Age the following relationships should be
satisfied:
2*(Forward-Time - 1) >= Max-Age
Max-Age >= 2*(Hello-Time + 1)
Example
The following example configures the spanning-tree bridge maximum-age to
10 seconds.
Layer 2 Switching Commands 754
console(config)#spanning-tree max-age 10
spanning-tree max-hops
Use the spanning-tree max-hops command to set the MSTP Max Hops
parameter to a new value for the common and internal spanning tree. Use the
“no” form of this command to reset the Max Hops to the default.
Syntax
spanning-tree max-hops hops
no spanning-tree max-hops
• hops — The maximum number of hops to use (Range: 6 to 40).
Default Configuration
The maximum number of hops is 20 by default.
Command Mode
Global Configuration mode
User Guidelines
There are no user guidelines for this command.
Example
console(config)#spanning-tree max-hops 32
spanning-tree mode
Use the spanning-tree mode command in Global Configuration mode to
configure the spanning-tree protocol. To return to the default configuration,
use the no spanning-tree form of this command.
Syntax
spanning-tree mode {stp | rstp | mst | pvst | rapid-pvst}
•stp — Spanning Tree Protocol (STP) is enabled.
•rstp — Rapid Spanning Tree Protocol (RSTP) is enabled.
Layer 2 Switching Commands 755
•mst — Multiple Spanning Tree Protocol (MSTP) is enabled.
•pvst—
Spanning-tree operates in
STP-PV
mode.
•rapid-pvst—
Spanning-tree operates in
RSTP-PV
mode.
Default Configuration
Rapid Spanning Tree Protocol (RSTP) is enabled.
Command Mode
Global Configuration mode
User Guidelines
In RSTP mode, the switch uses STP when the neighbor switch is using STP.
In MSTP mode, the switch uses RSTP when the neighbor switch is using
RSTP and uses STP when the neighbor switch is using STP.
Only one of STP, RSTP, MSTP (RSTP), STP-PV or RSTP-PV can be enabled
on a switch. This command stops all spanning-tree instances in the current
mode and enables spanning-tree per VLAN in the new mode. By default,
RSTP is enabled.
If configuring the switch to MSTP mode, be sure to configure the MST
region name. For multiple switches to become members of the same region,
the configuration name, the configuration revision and mapping of VLANs to
MSTIs must be identical.
In the STP-PV or RSTP-PV modes, BPDUs contain per-VLAN information
instead of the common spanning-tree information (MST/RSTP).
RSTP-PV maintains independent spanning tree information about each
configured VLAN. RSTP-PV uses IEEE 802.1Q trunking and allows a trunked
VLAN to maintain blocked or forwarding state per port on a per VLAN basis.
This allows a trunk port to be forwarding for some VLANs and blocked on
other VLANs.
RSTP-PV extends the IEEE 802.1w standard. It supports faster convergence
than IEEE 802.1D. RSTP-PV is compatible with IEEE 802.1D spanning tree.
RSTP-PV sends BPDUs on all ports instead of only the root bridge sending
BPDUs and supports the discarding, learning, and forwarding states.
Layer 2 Switching Commands 756
When the mode is changed to rapid-pvst, version 0 STP BPDUs are no longer
transmitted and version 2 RSTP-PV BPDUs that carry per-VLAN information
are transmitted on the VLANs enabled for spanning-tree. If a version 0 BPDU
is seen, RSTP-PV reverts to sending version 0 BPDUs.
RSTP-PV embeds support for STP-PV Indirect Link Rapid Convergence and
Direct Link Rapid Convergence. There is no provision to enable or disable
these features in RSTP-PV.
Example
The following example configures the spanning-tree protocol to MSTP.
console(config)#spanning-tree mode mst
spanning-tree mst configuration
Use the spanning-tree mst configuration command in Global Configuration
mode to enable configuring an MST region by entering the multiple
spanning-tree (MST) mode.
Syntax
spanning-tree mst configuration
Default Configuration
This command has no default configuration.
Command Mode
Global Configuration mode
User Guidelines
For two or more switches to be in the same MST region, they must have the
same VLAN mapping, the same configuration revision number and the same
name.
Example
The following example configures an MST region.
console (config)#spanning-tree mst configuration
console (config-mst)#instance 1 add vlan 10-20
Layer 2 Switching Commands 757
console (config-mst)#name region1
console (config-mst)#revision 1
spanning-tree mst cost
Use the spanning-tree mst cost command in Interface Configuration mode
to configure the internal path cost for multiple spanning tree (MST)
calculations. If a loop occurs, the spanning tree considers path cost when
selecting an interface to put in the forwarding state. To return to the default
port path cost, use the no form of this command.
Syntax
spanning-tree mst instance-id cost cost
no spanning-tree mst instance-id cost
• instance-ID — ID of the spanning -tree instance. (Range: 1-4094)
• cost — The port path cost. (Range: 0–200,000,000)
Default Configuration
The default cost is 0, which signifies that the cost will be automatically
calculated based on port speed.
The default configuration is:
• Ethernet (10 Mbps) — 2,000,000
• Fast Ethernet (100 Mbps) — 200,000
• Gigabit Ethernet (1000 Mbps) — 20,000
• Port-Channel — 20,000
Command Mode
Interface Configuration (gigabitethernet, port-channel, tengigabitethernet,
fortygigabitethernet) mode
User Guidelines
Use the spanning-tree cost command to configure MST instance 0 (the
common spanning tree instance). Use the show spanning-tree active
command to display the spanning tree costs.
Layer 2 Switching Commands 758
Example
The following example configures the MSTP instance 1 path cost for Gigabit
Ethernet interface 1/0/9 to 4.
console(config)#interface gigabitethernet 1/0/9
console(config-if-Gi1/0/9)#spanning-tree mst 1 cost 4
spanning-tree mst port-priority
Use the spanning-tree mst port-priority command in Interface Configuration
mode to configure port priority. To return to the default port priority, use the
no form of this command.
Syntax
spanning-tree mst instance-id port-priority priority
no spanning-tree mst instance-id port-priority
• instance-id—ID of the spanning-tree instance. (Range: 1-4094)
• priority—The port priority. (Range: 0-240 in multiples of 16.)
Default Configuration
The default port-priority for IEEE STP is 128. The default priority for a port-
channel is 96.
Command Mode
Interface Configuration (gigabitethernet, port-channel, tengigabitethernet,
fortygigabitethernet) mode
User Guidelines
The priority will be set to the nearest multiple of 4096 if not an exact multiple
of 4096.
Example
The following example configures the port priority of Gigabit Ethernet
interface 1/0/5 to 144.
console(config)#interface gigabitethernet 1/0/5
console(config-if)#spanning-tree mst 1 port-priority 144
Layer 2 Switching Commands 759
spanning-tree mst priority
Use the spanning-tree mst priority command in Global Configuration mode
to set the switch priority for the specified spanning-tree instance. To return to
the default setting, use the no form of this command.
Syntax
spanning-tree mst instance-id priority priority
no spanning-tree mst instance-id priority
• instance-id—ID of the spanning-tree instance. (Range: 1-4094)
• priority—Sets the switch priority for the specified spanning-tree instance.
This setting affects the likelihood that the switch is selected as the root
switch. A lower value increases the probability that the switch is selected as
the root switch. (Range: 0-61440)
Default Configuration
The default bridge priority for IEEE STP is 32768.
Command Mode
Global Configuration mode
User Guidelines
The priority value must be a multiple of 4096. The priority will be set to the
nearest multiple of 4096 if not an exact multiple of 4096.
Bridge priority configuration is given preference over the root
primary/secondary configuration. Root primary/secondary configuration is
given preference over the DRC configuration.
The switch with the lowest priority is selected as the root of the spanning tree.
Example
The following example configures the spanning tree priority of instance 1 to
4096.
console(config)#spanning-tree mst 1 priority 4096
Layer 2 Switching Commands 760
spanning-tree portfast
Use the spanning-tree portfast command in Interface Configuration mode to
enable portfast mode. In portfast mode, the interface is immediately put into
the forwarding state upon linkup, without waiting for the timer to expire. To
disable portfast mode, use the no form of this command.
Syntax
spanning-tree portfast
no spanning-tree portfast
Default Configuration
Portfast mode is disabled.
Command Mode
Interface Configuration (gigabitethernet, port-channel, tengigabitethernet,
fortygigabitethernet) mode
User Guidelines
This command only applies to access ports. The command is to be used only
with interfaces connected to end stations. Otherwise, an accidental topology
loop could cause a data packet loop and disrupt switch and network
operations.
An interface with portfast mode enabled is moved directly to the spanning
tree forwarding state when linkup occurs without waiting the standard
forward-time delay.
Example
The following example enables portfast on Gi1/0/5.
console(config)#interface gigabitethernet 1/0/5
console(config-if-Gi1/0/5)#spanning-tree portfast
Layer 2 Switching Commands 761
spanning-tree portfast bpdufilter default
The spanning-tree portfast bpdufilter default command disables the
transmission and reception of BPDUs on portfast enabled ports. Use the “no”
form of the command to enable the transmission and receipt of BPDUs.
Syntax
spanning-tree portfast bpdufilter default
no spanning-tree portfast bpdufilter default
Default Configuration
This feature is disabled by default.
Command Mode
Global Configuration mode, Interface Configuration mode (physical
interface and port-channels)
User Guidelines
BPDU filtering disables both the sending and receiving of BPDUs on portfast
enabled ports.
A port enabled for BPDU filtering does not receive or send any BPDUs. It is
possible that a network loop may result if BPDU filtering is enabled on a port
connected to anything other than an end system.
BPDU filtering is appropriate for configuration on portfast enabled interfaces
that are connected to end system hosts where it is desired to not send BPDUs
to the host or receive BPDUs from the host. Use the BPDU guard capability if
it is desired to obtain a greater level of protection from rogue hosts or possible
spanning-tree loops.
The administrator must ensure that interfaces enabled for BPDU filtering are
configured as edge ports. Use the spanning-tree portfast command to
configure the interface as an edge port.
Example
The following example discards BPDUs received on spanning-tree ports in
portfast mode.
Layer 2 Switching Commands 762
console(config)#spanning-tree portfast bpdufilter default
spanning-tree portfast default
Use the spanning-tree portfast default command to enable portfast mode on
access ports. Interfaces configured as access mode ports are considered to be
edge ports. Use the no form of this command to disable portfast mode on all
ports.
Syntax
spanning-tree portfast default
no spanning-tree portfast default
Default Configuration
Portfast mode is disabled by default.
Command Mode
Global Configuration mode
User Guidelines
This command only affects access ports.
NOTE: This command should be used with care. An interface with
portfast mode enabled is moved directly to the spanning tree forwarding state
when linkup occurs without waiting for the standard forward-time delay.
Setting a port connected to another switch into portfast mode may cause an
accidental topology loop and disrupt switch and network operations.
Example
The following example enables portfast mode on all access ports.
console(config)#spanning-tree portfast default
Layer 2 Switching Commands 763
spanning-tree port-priority (Interface
Configuration)
Use the spanning-tree port-priority command in Interface Configuration
mode to configure the priority value of an edge-port or point-to-point
interface to allow the operator to select the relative importance of the
interface in the selection process for forwarding. Set this value to a lower
number to prefer an operationally enabled interface for forwarding of frames.
Use the no form of the command to return the priority to the default value.
Syntax
spanning-tree [vlan vlan-id] port-priority priority
no spanning-tree [vlan vlan-id] port-priority
• vlan-id — An optional parameter specifying the VLAN to which the
priority applies when the port is configured as an edge-port. Range 1-4093.
• priority — The priority of the edge-port or point-to-point link in the
forwarding port selection process. Range is 0 to 240 in increments of 16.
Default Configuration
The default port-priority for IEEE STP is 128.
Command Mode
Interface Configuration mode
User Guidelines
If the VLAN parameter is given, the priority is configured only for the
selected VLANs (applies only when pvst or rapid-pvst mode is selected).
Configuration without the VLAN parameter configures the port priority for
RSTP, STP-PV, and RSTP-PV.
If an interface is configured with both the spanning-tree vlan vlan-id port-
priority priority command and the spanning-tree port-priority priority
command, the spanning-tree vlan vlan-id port-priority priority value is used
as the port priority.
If a VLAN parameter is provided, the VLAN must have been previously
configured or an error is thrown.
Layer 2 Switching Commands 764
An edge port is a port with spanning-tree port-fast enabled. A point-to-point
link is a link configured as full-duplex. Edge-ports and point-to-point links
directly transition to the forwarding state and do not delay for the listening
and learning stages of spanning-tree. An edge port that receives a BPDU is no
longer considered an edge-port and will utilize the configured port priority
value.
All interfaces and VLANs have 128 as priority value by default. By default,
spanning-tree puts the lowest numbered operationally enabled interface in
the forwarding state and blocks other interfaces. The priority value is used to
override this default behavior. Interfaces with lower port priorities are
preferred for forwarding over interfaces with numerically higher priority
values. STP-PV/RSTP-PV uses the port priority value when the LAN port is
configured as an edge port and uses the VLAN priority value when the
interface is configured as a point-to-point link. MSTP uses the port priority
regardless of whether the port is an edge port or not.
Example
The following example configures a port connected to a host to be least likely
to be selected for forwarding to the root bridge, even if the host begins to
send BPDUs.
console(config-if-Gi1/0/1)#spanning-tree port-priority 240
console(config-if-Gi1/0/1)#spanning-tree vlan 10 port-priority 240
spanning-tree priority
Use the spanning-tree priority command in Global Configuration mode to
configure the spanning-tree priority. The priority value is used to determine
which bridge is elected as the root bridge. To reset the default spanning-tree
priority use the no form of this command.
Syntax
spanning-tree priority priority
no spanning-tree priority
• priority — Priority of the bridge. (Range: 0–61440)
Default Configuration
The default bridge priority for IEEE STP is 32768.
Layer 2 Switching Commands 765
Command Mode
Global Configuration mode
User Guidelines
The priority value must be a multiple of 4096.
The switch with the lowest priority is the root of the spanning tree.
Bridge priority configuration is given preference over root primary/secondary
configuration. Root primary/secondary configuration is given preference over
DRC configuration.
Example
The following example configures spanning-tree priority to 12288.
console(config)#spanning-tree priority 12288
spanning-tree tcnguard
Use the spanning-tree tcnguard command to prevent a port from propagating
topology change notifications. Use the “no” form of the command to enable
TCN propagation.
Syntax
spanning-tree tcnguard
no spanning-tree tcnguard
Default Configuration
TCN propagation is disabled by default.
Command Mode
Interface Configuration (Ethernet, Port Channel) mode
User Guidelines
There are no user guidelines for this command.
Layer 2 Switching Commands 766
Example
The following example configures spanning-tree tcnguard on 4/0/1.
console(config-if-4/0/1)#spanning-tree tcnguard
spanning-tree transmit hold-count
Use the spanning-tree transmit hold-count command to set the maximum
number of BPDUs that a bridge is allowed to send within a hello time window
(2 seconds). Use the no form of this command to reset the hold count to the
default value.
Syntax
spanning-tree transmit hold-count <value>
no spanning-tree transmit
• value — The maximum number of BPDUs to send (Range: 1–10).
Default Configuration
The default hold count is 6 BPDUs.
Command Mode
Global Configuration mode
User Guidelines
There are no user guidelines for this command.
Example
The following example sets the maximum number of BPDUs sent to 6.
console(config)#spanning-tree transmit hold-count 6
spanning-tree uplinkfast
Use the spanning-tree uplinkfast command to configure the rate at which
gratuitous frames are sent (in packets per second) after a switchover to an
alternate port on STP-PV and RSTP-PV configured switches and enable
Layer 2 Switching Commands 767
Direct Link Rapid Convergence on STP-PV switches. This command assists
in accelerating spanning-tree convergence after switchover to an alternate
port.
Use the no form of the command to return the configured rate to the default
value (or disable uplinkfast on STP-PV configured switches).
Syntax
spanning-tree uplinkfast [max-update-rate packets/s ]
no spanning-tree uplinkfast [max-update-rate]
• max-update-rate—The rate at which update packets are sent. (Range: 0-
32000)
Default Configuration
The default rate is 150.
Command Modes
Global Configuration Mode
User Guidelines
DirectLink Rapid Convergence (DRC) can be configured even if the switch is
configured for MST(RSTP) mode. It only has an effect when the switch is
configured for STP-PV or RSTP-PV modes. Enabling DRC sets the switch
priority to 49152. Path costs have an additional 3000 added when DRC is
enabled. This reduces the probability that the switch will become the root
switch.
DRC immediately changes to an alternate root port on detecting a root port
failure and change the new root port directly to the forwarding state. A TCN
is sent for this event.
After a switchover to an alternate port (new root port), DRC multicasts a
gratuitous frame on the new root port on behalf of each attached machine so
that the rest of the network knows to use the secondary link to reach that
machine.
DRC is disabled when the administrator modifies the spanning-tree priority
of a VLAN and is re-enabled only when the default priority is restored.
Layer 2 Switching Commands 768
Configuration of the bridge priority is given preference over configuration of
the root primary or root secondary configuration, which is given preference
over the configuration of DirectLink Rapid Convergence.
RSTP-PV embeds support for IRC and DRC. There is no provision to enable
or disable these features in RSTP-PV configured switches.
DRC is most useful for enterprise wiring-closet topologies with a limited
number of VLANs. Do not enable DRC on backbone or distribution layer
switches as DRC is not capable of completing the reconfiguration of large
networks within the max age time.
Example
console(config)#spanning-tree uplinkfast
spanning-tree vlan
Use the spanning-tree vlan command to enable per VLAN spanning tree on a
VLAN. Use the no form of the command to remove the VLAN as a separate
spanning tree instance.
Syntax
spanning-tree vlan {vlan-list}
no spanning-tree vlan {vlan-list}
• vlan-list–A single VLAN ID or a list of VLAN IDs in comma delineated or
range format with no embedded blanks. Range 1-4093.
Default Configuration
By default, each configured VLAN is automatically associated with a per
VLAN spanning tree instance. If more than eight VLANs are configured, the
excess VLANs do not participate in per VLAN spanning tree.
To change the allocation of spanning-tree instances to VLANs, use the no
spanning-tree vlan command to disassociate a VLAN from a per VLAN
spanning-tree instance and use the spanning-tree vlan command to associate
the spanning-tree instance with the desired VLAN.
Command Modes
Global Configuration mode
Layer 2 Switching Commands 769
User Guidelines
This command can be configured even if the switch is configured for
MST(RSTP) mode. It is only used when the switch is configured for STP-PV
or RSTP-PV modes.
Example
This example configures a switch to use per VLAN spanning tree for VLANS
12, 13 and 24-26
console(config)#spanning-tree vlan 12,13,24-26
spanning-tree vlan forward-time
Use the spanning-tree vlan forward-time command to configure the
spanning tree forward delay time for a specified VLAN or a range of VLANs.
Use the no form of the command to return the forward time to its default
value.
Syntax
spanning-tree vlan vlan-list forward-time 4-30
no spanning-tree vlan vlan-list forward-time
• forward-time — The interval (time spent in listening and learning states)
before transitioning a port to the forwarding state. (Range: 4-30 seconds)
Default Configuration
The default forward delay time is 15.
Command Modes
Global Configuration Mode
User Guidelines
Set this value to a lower number to accelerate the transition to forwarding.
The network operator should take into account the end to end BPDU
propagation delay, the maximum frame lifetime, the maximum transmission
halt delay and the message age overestimate values specific to their network
when configuring this parameter.
Layer 2 Switching Commands 770
Forward delay is only application to STP modes. The forward delay setting is
ignored in MSTP, RSTP and RSTP-PV modes as the designated port is
transitioned to the forwarding state immediately.
Example
console(config)#spanning-tree vlan 3 forward-time 12
spanning-tree vlan hello-time
Use the spanning-tree vlan hello-time command to configure the spanning
tree hello time for a specified VLAN or a range of VLANs.
Syntax
spanning-tree vlan vlan-list hello-time 1-10
no spanning-tree vlan vlan-list hello-time
• Hello-time–The interval between sending successive BDPUs. Default: 2
seconds.
Default Configuration
The default hello time is 2 seconds.
Command Modes
Global Configuration Mode
User Guidelines
This command can be configured even if the switch is configured for
MST(RSTP) mode. It is only used when the switch is configured for STP-PV
or RSTP-PV modes.
Set this value to a lower number to accelerate discovery of topology changes.
Use the no form of the command to return the hello time to its default value.
Example
console(config)#spanning-tree vlan 3 hello-time 1
Layer 2 Switching Commands 771
spanning-tree vlan max-age
Use the spanning-tree vlan max-age command to configure the spanning tree
maximum age time for a set of VLANs. Use the no form of the command to
return the maximum age timer to the default value.
Syntax
spanning-tree vlan vlan-list max-age 6-40
no spanning-tree vlan vlan-list> max-age
• max-age — The maximum age time before a bridge port saves its
configuration information.
Default Configuration
The default maximum aging time is 20 seconds.
Command Modes
Global Configuration Mode
User Guidelines
Set this value to a lower number to accelerate discovery of topology changes.
The network operator must take into account the end to end BPDU
propagation delay and message age overestimate for their specific topology
when configuring this value.
The default setting of 20 seconds is suitable for a network of diameter 7, lost
message value of 3, transit delay of 1, hello interval of 2 seconds, overestimate
per bridge of 1 second, and a BPDU delay of 1 second. For a network of
diameter 4, a setting of 16 seconds is appropriate if all other timers remain at
their default values. IEEE 802.1Q notes that RSTP and MSTP treat the
common spanning tree message age field as a hop count. Section 13.37
Performance discusses appropriate and recommended values and further
refers the network operator to the discussion in IEEE 802.1D section 17.14.
In particular, operators should make themselves of the requirement that
bridges must enforce the following constraint:
2 × (Bridge_Forward_Delay – 1.0 seconds) >= Bridge_Max_Age >= 2 ×
(Bridge_Hello_Time + 1.0 seconds)
Layer 2 Switching Commands 772
Example
console(config)#spanning-tree vlan 3 max-age 18
spanning-tree vlan root
Use the spanning-tree vlan root primary command to configure the switch to
become the root bridge or standby root bridge by modifying the bridge
priority from the default value to a lower value calculated to ensure the bridge
is the root (or standby) bridge. Use the no form of the command to let the
network elect the root bridge.
Syntax
spanning-tree vlan vlan-list root {primary | secondary}
no spanning tree vlan vlan-list root
Default Configuration
The default bridge priority value is 32768.
Command Modes
Global Configuration mode
User Guidelines
This command can be configured even if the switch is configured for MST
(RSTP) mode. It is only used when the switch is configured for STP-PV or
RSTP-PV modes.
The logic sets the bridge priority to a value lower (primary) or next lower
(secondary) than the lowest bridge priority for the specified VLAN or a range
of VLANs. This command only applies when STP-PV or RSTP-PV is enabled.
Configuration of the bridge priority is given preference over configuration of
the root primary or root secondary configuration, which is given preference
over the configuration of DirectLink Rapid Convergence.
Example
console(config)#spanning-tree vlan 3 root primary
Layer 2 Switching Commands 773
spanning-tree vlan priority
Use the spanning-tree vlan priority command to configure the bridge priority
of a VLAN. The bridge priority is combined with the MAC address of the
switch and is used to select the root bridge for the VLAN. Use the no form of
the command to return the priority to the default value.
Syntax
spanning-tree vlan {vlan-list} priority priority
no spanning-tree vlan {vlan-list} priority
• vlan-list–A single VLAN ID or a list of VLAN IDs in comma delineated or
range format with no embedded blanks. Range 1-4093.
• priority –The bridge priority advertised when combined with the switch
MAC address. Range 0-61440.
Default Configuration
The default bridge priority is 32768.
Valid values are 0, 4096, 8192, 12288, 16384, 20480, 24576, 28672, 32768,
36864, 40960, 45056, 49152, 53248, 57344, and 61440. The default value is
32768.
If the value configured is not among the specified values, it will be rounded
off to the nearest valid value.
Command Modes
Global Configuration mode
User Guidelines
This command can be configured even if the switch is configured for
MST(RSTP) mode. It is only used when the switch is configured for STP-PV
or RSTP-PV modes.
The root bridge for a VLAN should be carefully selected to provide optimal
paths for traffic through the network. Generally, this means selecting a switch
that is well-connected with other switches in the network.
Layer 2 Switching Commands 774
Configuration of the bridge priority is given preference over configuration of
the root primary or root secondary configuration, which is given preference
over the configuration of DirectLink Rapid Convergence.
Example
This example configures a switch to be the spanning tree root bridge for
VLANs 12, 13, 24, 25, and 26. This presumes other switches in the network
utilize the default bridge priority configuration.
console(config)#spanning-tree vlan 12,13,24-26 priority 8192
Layer 2 Switching Commands 775
UDLD Commands
Dell EMC Networking N1100-ON/N1500/N2000/N2100-
ON/N3000/N3100-ON/N4000 Series Switches
The UDLD feature detects unidirectional links on physical ports. A
unidirectional link is a forwarding anomaly in a Layer 2 communication
channel in which a bi-directional link stops passing traffic in one direction.
UDLD must be enabled on the both sides of the link in order to detect a
unidirectional link. The UDLD protocol operates by exchanging packets
containing information about neighboring devices.
UDLD enabled devices send announcements to the multicast destination
address 01-00-0c-cc-cc-cc. UDLD packets are transmitted using SNAP
encapsulation, with OUI value 0x00000c (Cisco) and protocol ID 0x0111.
UDLD is supported on individual physical ports that are members of port
channel interface. If any of the aggregated links becomes unidirectional,
UDLD detects it and disables the individual link, but not the entire port
channel. This improves fault tolerance of port-channel.
UDLD PDUs act as network control packets. They are unaffected by
Spanning Tree state. Thus, they are transmitted and received regardless of
Spanning Tree state.
For the successful operation of UDLD, it is required that its neighbors are
UDLD-capable and UDLD is enabled on the corresponding ports. All ports
should also be configured to use the same mode of UDLD, either normal or
aggressive mode.
Detecting Unidirectional Links on a Device Port
A device detects unidirectional links on its port via UDLD. Every UDLD-
capable device distributes service information over the network via a layer 2
broadcast frame. This service frame contains information about sender
(source device) and all discovered neighbors. Every sender expects to receive
an UDLD echo frame. If an echo frame is received, but does not contain
information about the sender itself, it implies that the sender's frames have
not reached the neighbors. This can happen when the link is able to receive
traffic but cannot send traffic. In other words, a UDLD-capable device can
Layer 2 Switching Commands 776
recognize only the sending failures on unidirectional links. If all devices in the
network support UDLD, this functionality is enough to detect all
unidirectional links.
Processing UDLD Traffic from Neighbors
Every UDLD-capable device collects information about all other UDLD-
capable devices. Each device populates UDLD echo packets with collected
neighbor information to help neighbors identify unidirectional links. Every
frame basically contains the device ID of the sender and the collection of
device IDs of its discovered neighbors.
UDLD in Normal-mode
In normal mode, a port’s state is classified as undetermined if an anomaly
exists. These include the absence of its own information in received UDLD
messages or the failure to receive UDLD messages. The state of
undetermined has no effect on the operation of the port. The port is not
disabled and continues operating as it previously did. When in normal mode,
a port is diagnostically disabled for the following cases:
a
UDLD PDU is received from partner that does not have the port’s
own details (echo).
b
When there is a loopback, information sent out on a port is received
back as is.
UDLD in Aggressive-mode
Aggressive mode differs from normal UDLD mode – it can diagnostically
disable a port if the port does not receive any UDLD echo packets after a
bidirectional connection was established. It expands the cases when port can
be disabled. There can be several causes for a port not to receive UDLD
echoes. These include:
• A link is up on one side and down on the other. This can occur on fiber
ports if the transmit port is unplugged on one side.
• Loss of connectivity, i.e. the port is neither transmitting nor receiving, but
the port also reports it is up.
Layer 2 Switching Commands 777
UDLD will put the port into the diagnostically disabled state in the following
cases:
a
When there is a loopback, the device ID and port ID sent out on a
port is received back.
b
UDLD PDU is received from a partner does not have its own details
(echo).
c
Bidirectional connection is established and no UDLD packets are
received from the partner device within three times the message
interval.
d
In aggressive mode, when the partner does not respond to an ECHO
within 7 seconds.
Commands in this Section
This section explains the following commands:
udld enable (Global Configuration)
Use the udld enable command in Global Configuration mode to globally
enable UDLD.
Use the no form of the command to globally disable UDLD.
Syntax
udld enable
no udld enable
Default Configuration
UDLD is disabled by default.
udld enable (Global Configuration) udld enable (Interface Configuration)
udld reset udld port
udld message time show udld
udld timeout interval
–
Layer 2 Switching Commands 778
Command Mode
Global Configuration mode
User Guidelines
This command globally enables UDLD. Interfaces must also be individually
enabled for UDLD.
Example
This command globally enables UDLD.
console(config)#udld enable
udld reset
Use the udld reset command to reset (enable) all interfaces disabled by
UDLD.
Syntax
udld reset
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode
User Guidelines
The following commands will reset an interface disabled by UDLD:
• Use udld reset to reset all interfaces disabled by UDLD.
• The shutdown command followed by no shutdown interface configuration
command.
• The no udld enable global configuration command followed by the udld
enable command.
• The no udld port interface configuration command followed by the udld
port or udld port aggressive interface configuration command.
Layer 2 Switching Commands 779
Example
This example resets all UDLD disabled interfaces.
console#udld reset
udld message time
Use the udld message time command in Global Configuration mode to
configure the interval between the transmission of UDLD probe messages on
ports that are in the advertisement phase.
Use the no form of the command to return the message transmission interval
to the default value.
Syntax
udld message time message-interval
no udld message time
•
message-interval
—
UDLD message transmit interval in seconds. Range
is 7 to 90 seconds.
Default Configuration
The default message transmit interval is 15 seconds.
Command Mode
Global Configuration mode
User Guidelines
Lower message time values will detect the unidirectional links more quickly
at the cost of higher CPU utilization.
The message interval is also used to age out UDLD entries from the internal
database. UDLD entries are removed after three times the message interval
and the discovery process starts again.
Example
This example sets the UDLD message transmit interval to 10 seconds.
console(config)#udld message time 10
Layer 2 Switching Commands 780
udld timeout interval
Use the udld timeout interval command in Global Configuration mode to
configure the interval for the receipt of ECHO replies.
Use the no form of the command to return the value to the default setting.
Syntax
udld timeout interval timeout-interval
no udld timeout interval
• timeout-interval—UDLD timeout interval. Range is 5 to 60 seconds.
Default Configuration
The default timeout interval is 5 seconds.
Command Mode
Global Configuration mode
User Guidelines
This command sets the time interval used to determine if the link has
bidirectional or unidirectional connectivity. If no ECHO replies are received
within three times the message interval, then the link is considered to have
unidirectional connectivity.
Example
This example sets the UDLD timeout interval to 15 seconds.
console(config)#udld timeout interval 15
udld enable (Interface Configuration)
Use the udld enable command in Interface (physical) Configuration mode to
enable UDLD on a specific interface.
Use the no form of the command to disable UDLD on an interface.
Syntax
udld enable
Layer 2 Switching Commands 781
no udld enable
Default Configuration
UDLD is disabled by default on an interface. UDLD must be enabled
globally and on an interface in order to operate.
Command Mode
Interface (physical) Configuration mode
User Guidelines
UDLD cannot be enabled on a port channel. Instead, enable UDLD on the
physical interfaces of a port channel.
Example
This example enables UDLD on an interface. UDLD must also be enabled
globally.
console(config-if-Te1/0/1)#udld enable
udld port
Use the udld port command in Interface (physical) Configuration mode to
select the UDLD operating mode on a specific interface.
Use the no form of the command to reset the operating mode to the default
(normal).
Syntax
udld port aggressive
no udld port
• aggressive—Sets the port to discover peers in aggressive mode.
Default Configuration
Normal mode is configured by default when UDLD is enabled on an
interface.
Layer 2 Switching Commands 782
Command Mode
Interface (Ethernet) Configuration mode
User Guidelines
In aggressive mode, UDLD will attempt to detect a peer by sending an
ECHO packet every seven seconds until a peer is detected.
Example
This example configure an interface to operate in UDLD aggressive mode.
console(config-if-Te1/0/1)#udld port aggressive
show udld
Use the show udld command in User Exec or Privileged Exec mode to display
the global settings for UDLD.
Syntax
show udld [interface-id|all]
Default Configuration
This command has no default setting.
Command Mode
Privileged Exec or User Exec mode, Global Configuration mode and all
Configuration submodes
User Guidelines
When no interface is specified, the following fields are shown:
Field Description
Admin Mode The global administrative mode of UDLD.
Message Interval The time period (in seconds) between the transmission of
UDLD probe packets.
Layer 2 Switching Commands 783
When an interface ID is specified, the following fields are shown:
Timeout Interval The time period (in seconds) before making decision that link
is unidirectional.
Field Description
Interface Id The interface identifier in short form, e.g. te1/0/1.
Admin Mode The administrative mode of UDLD configured on this
interface. This is either Enabled or Disabled.
UDLD Mode The UDLD mode configured on this interface. This is either
Normal or Aggressive.
UDLD Status The status of the link as determined by UDLD. The options
are:
•Undetermined – UDLD has not collected enough information
to determine the state of the port.
•Not applicable – UDLD is disabled, either globally or on the
port.
•Shutdown – UDLD has detected a unidirectional link and
shutdown the port. That is, the port is in the D-Disable state.
•Bidirectional - UDLD has detected a bidirectional link.
•Undetermined (Link Down) – The port transitions into this
state when the port link physically goes down due to any
reasons other than the port being put into D-Disable mode by
the UDLD protocol on the switch.
Field Description
Layer 2 Switching Commands 784
VLAN Commands
Dell EMC Networking N1100-ON/N1500/N2000/N2100-
ON/N3000/N3100-ON/N4000 Series Switches
Dell EMC Networking 802.1Q VLANs are an implementation of the Virtual
Local Area Network, specification 802.1Q. Operating at Layer 2 of the OSI
model, the VLAN is a means of parsing a single network into logical user
groups or organizations as if they physically resided on a dedicated LAN
segment of their own. In reality, this virtually defined community may have
individual members scattered across a large, extended LAN. The VLAN
identifier is part of the 802.1Q tag, which is added to an Ethernet frame by an
Q-compliant switch or router. Devices recognizing 802.1Q-tagged frames
maintain appropriate tables to track VLANs. The first three bits of the
802.1Q tag are used by 802.1p to establish priority for the packet.
Dell EMC Networking switches supports 802.1Q VLANs. As such, ports may
simultaneously belong to multiple VLANs. VLANs allow a network to be
logically segmented without regard to the physical locations of devices in the
network.
Dell EMC Networking switches supports up to 4093 VLANs for forwarding.
Interfaces can be configured in trunk mode (multiple VLAN support) or
access mode (single VLAN support).
VLANs can be allocated by subnet and netmask pairs, thus allowing
overlapping subnets. For example, subnet 10.10.128.0 with Mask
255.255.128.0 and subnet 10.10.0.0 with Mask 255.255.0.0 can have different
VLAN associations.
Access, trunk and general mode VLAN configurations are maintained
independently by the switch and take affect when the interface is configured
in the relevant mode. In other words, trunk mode VLAN configuration only
affects an interface when it is configured in trunk mode. When the interface
is configured in trunk mode, access and general mode VLAN configuration is
ignored.
Layer 2 Switching Commands 785
Double VLAN Mode
An incoming frame is identified as tagged or untagged based on Tag Protocol
Identifier (TPID) value it contains. The IEEE 802.1Q standard specifies a
TPID value (0x8100) to recognize an incoming frame as tagged or untagged.
Any valid Ethernet frame with a value of 0x8100 in the 12th and 13th bytes is
recognized as a tagged frame.
Dell EMC Networking N-Series switches can be configured to enable the port
in double-VLAN (QinQ) mode. In this mode, the switch looks for 12th, 13th,
16th, and 17th bytes for the tag status in the incoming frame. The outer tag
TPID is identified by the 12th and 13th bytes values. The inner tag TPID is
identified by 16th and 17th bytes values. These two TPID values can be
different or the same. VLAN normalization, source MAC learning, and
forwarding are based on the outer value in a received frame.
NOTE: DVLAN is not available on the N3000 Series switches when utilizing the
AGGREGATION ROUTER image.
Independent VLAN Learning
Independent VLAN Learning (IVL) allows unicast address-to-port mappings
to be created based on a MAC Address in conjunction with a VLAN ID.
This arrangement associates the MAC Address only with the VLAN on which
the frame was received. Therefore, frames are forwarded based on their
unicast destination address as well as their VLAN membership. This
configuration affords multiple occurrences of an address in the forwarding
database. Each address associates with a unique VLAN. Care must be taken
in the administration of networks, as multiple instances of a MAC address,
each on a different VLAN, can quickly eat up address entries.
Each VLAN is associated with its own forwarding database. Hence the
number of forwarding databases equals the number of VLANs supported.
The MAC address stored is supplemented by a 2-byte VLAN ID. The first 2
bytes of a forwarding database entry contain the VLAN ID associated, and the
next 6 bytes contain the MAC address. There is a one-to-one relationship
between VLAN ID and FID (forwarding database ID).
Layer 2 Switching Commands 786
Protocol Based VLANs
The main purpose of Protocol-based VLANs (PBVLANs) is to selectively
process packets based on their upper-layer protocol by setting up protocol-
based filters. Packets are bridged through user-specified ports based on their
protocol.
In PBVLANs, the VLAN classification of a packet is based on its protocol (IP,
IPX, NetBIOS, and so on). PBVLANs help optimize network traffic because
protocol-specific broadcast messages are sent only to end stations using that
protocol. End stations do not receive unnecessary traffic, and bandwidth is
used more efficiently. It is a flexible method that provides a logical grouping
of users. An IP subnet or an IPX network, for example, can each be assigned
its own VLAN. Additionally, protocol-based classification allows an
administrator to assign nonrouting protocols, such as NetBIOS or DECnet, to
larger VLANs than routing protocols like IPX or IP. This maximizes the
efficiency gains that are possible with VLANs.
In port-based VLAN classification, the Port VLAN Identifier (PVID) is
associated with the physical ports. The VLAN ID (VID) for an untagged
packet is equal to the PVID of the port. In port-and protocol-based VLAN
classifications, multiple VIDs are associated with each of the physical ports.
Each VID is also associated with a protocol. The ingress rules used to classify
incoming packets include the use of the packet's protocol, in addition to the
PVID, to determine the VLAN to which the packet belongs. This approach
requires one VID on each port for each protocol for which the filter is desired.
IP Subnet Based VLANs
This feature allows an untagged packet to be placed in a configured VLAN
based upon its IP address.
MAC-Based VLANs
This feature allows an untagged packet to be placed in a configured VLAN
based upon its MAC address.
Layer 2 Switching Commands 787
Private VLAN Commands
The Dell EMC Networking Private VLAN feature separates a regular VLAN
domain into two or more subdomains. Each subdomain is defined
(represented) by a primary VLAN and a secondary VLAN. The primary VLAN
ID is the same for all subdomains that belong to a private VLAN. The
secondary VLAN ID differentiates subdomains from each another and
provides Layer 2 isolation between ports of the same private VLAN. There are
the following types of VLANs within a private VLAN:
• Primary VLAN
Forwards the traffic from the promiscuous ports to isolated ports,
community ports and other promiscuous ports in the same private VLAN.
Only one primary VLAN can be configured per private VLAN. All ports
within a private VLAN share the same primary VLAN.
• Isolated VLAN
Is a secondary VLAN. It carries traffic from isolated ports to promiscuous
ports. Only one isolated VLAN can be configured per private VLAN.
• Community VLAN
Is a secondary VLAN. It forwards traffic between ports which belong to the
same community and to the promiscuous ports. There can be multiple
community VLANs per private VLAN.
Three types of port designations exist within a private VLAN:
• Promiscuous port
Belongs to a primary VLAN and can communicate with all interfaces in
the private VLAN, including other promiscuous ports, community ports
and isolated ports. An endpoint connected to a promiscuous port is
allowed to communicate with any endpoint within the private VLAN.
Multiple promiscuous ports can be defined for a single private VLAN
domain.
• Host port
Belongs to a secondary VLAN and depending upon the type of secondary
VLAN can either communicate with other ports in the same community
(if the secondary VLAN is the community VLAN) and with the
Layer 2 Switching Commands 788
promiscuous ports or can communicate only with the promiscuous ports
(if the secondary VLAN is an isolated VLAN).
The Private VLANs can be extended across multiple switches through inter-
switch/stack links that transport primary, community and isolated VLANs
between devices, as shown in Figure 3-1.
Figure 3-1. Private VLANs
Isolated VLAN
An endpoint connected over an isolated VLAN is allowed to communicate
with endpoints connected to promiscuous ports only. Endpoints connected to
adjacent endpoints over an isolated VLAN cannot communicate with each
other.
Community VLAN
An endpoint connected over a community VLAN is allowed to communicate
with the endpoints within the community and can also communicate with
any configured promiscuous port. The endpoints which belong to one
community cannot communicate with endpoints which belong to a different
community or with endpoints connected over isolated VLANs.
Layer 2 Switching Commands 789
Private VLAN Operation in the Switch Environment
The Private VLAN feature operates in a stacked or single switch environment.
The stack links are transparent to the configured VLAN, thus there is no need
for special private VLAN configuration. Any private VLAN port can reside on
any stack member.
In order to enable Private VLAN operation across multiple switches which are
not stacked, the inter-switch links should carry VLANs which belong to a
private VLAN. The trunk ports which connect neighbor switches have to be
assigned to the primary, isolated, and community VLANs of a private VLAN.
In regular VLANs, ports in the same VLAN switch traffic at L2. However for
private VLAN, the promiscuous port is in the primary VLAN whereas the
isolated or community ports are in the secondary VLAN. Similarly, for
broadcasts, in regular VLANs, ports in the same VLAN receive broadcast
traffic. However, for private VLANs, the ports to which the broadcast traffic is
forwarded depend on the type of port on which the traffic was received. If the
received port is a host port; the traffic is forwarded to all promiscuous and
trunk ports. If the received port is community port the broadcast traffic is
forwarded to promiscuous, trunk and community ports in the same VLAN. A
promiscuous port sends traffic to other promiscuous ports, isolated and
community ports.
Commands in this Section
This section explains the following commands:
interface vlan show port protocol switchport general
acceptable-frame-
type tagged-only
switchport trunk
encapsulation dot1q
interface range vlan show switchport
ethertype
switchport general
allowed vlan
vlan
name (VLAN
Configuration)
show vlan switchport general
ingress-filtering
disable
vlan association mac
private-vlan show vlan
association mac
switchport general
pvid
vlan association subnet
Layer 2 Switching Commands 790
interface vlan
Use the interface vlan command in Global Configuration mode to enable L3
on a VLAN and enter VLAN Interface Configuration mode. Use the no form
of the command to disable routing on the VLAN.
Syntax
interface vlan {vlan-id}
no interface vlan { vlan-id }
• vlan-id—The ID of a valid VLAN (Range 1–4093).
Default Configuration
By default, Layer 3 is enabled on VLAN 1 on the N1100-
ON/N1500/N2000/N2100-ON Series switches. However, VLAN routing
interfaces do not route packets until an IP address is assigned to the VLAN
and IP routing is globally enabled. DHCP and Layer 3 are not enabled on
VLAN 1 by default for the N3000, N3100-ON, and N4000 Series switches.
DHCP is enabled on VLAN 1 by default for the N1100-
ON/N1500/N2000/N2100-ON switches. The N1100-ON does not support
routing.
Command Mode
VLAN Configuration or Global Configuration modes
protocol group show vlan
association subnet
switchport mode vlan makestatic
protocol vlan group show vlan private-
vlan
switchport mode
dot1q-tunnel
vlan protocol group
protocol vlan group
all
switchport access
vlan
switchport mode
private-vlan
vlan protocol group add
protocol
show dot1q-tunnel switchport dot1q
ethertype (Global
Configuration)
switchport private-
vlan
vlan protocol group
name
show interfaces
switchport
switchport general
forbidden vlan
switchport trunk vlan protocol group
remove
Layer 2 Switching Commands 791
User Guidelines
Assigning an IP address to a VLAN interface enables Layer 3 on the VLAN
interface. If IP routing is globally enabled and an IP address is assigned, the
router will route packets to and from the VLAN. When an interface is
enabled for routing using the interface vlan command, the port will no longer
be operationally enabled as a protected port on the interface.
Use the no form of the command to remove empty interface vlan entries from
the running config.
Dell EMC N1100-ON switches support configuration of a single IP address in
interface vlan configuration mode. That IP address is used as the L3 address
of the switch. Packets received over the configured VLAN which are addressed
to the L3 address are processed by the switch CPU. This includes
SNMP/HTTP/Telnet/SNMP and any other configured management
protocols. If a subsequent VLAN is configured with an IP address, the prior
VLAN configuration is removed. Dell EMC N1100-ON switches do not
support routing.
Examples
console(config-vlan10)# interface vlan 10
console(config-if-vlan10)#
interface range vlan
Use the interface range vlan command in Global Configuration mode to
enable routing on a range of VLANs and to execute a command on multiple
VLANs at the same time.
Syntax
interface range vlan {vlan-id | all}
• vlan-id — A list of valid VLAN IDs to add. Separate nonconsecutive VLAN
IDs with a comma and no spaces; use a hyphen to designate a range of IDs.
(Range: 1–4093)
•all — All existing static VLANs.
Default Configuration
This command has no default configuration.
Layer 2 Switching Commands 792
Command Mode
Global Configuration mode
User Guidelines
The VLANs in the interface range must by configured and enabled for
routing prior to use in the vlan range command. Commands used in the
interface range context are executed independently on each interface in the
range. If the command returns an error on one of the interfaces, an error
message is displayed and execution continues on other interfaces.
Example
The following example groups VLAN 221 through 228 and VLAN 889 to
execute the commands entered in interface range mode.
dellswitch(config)#vlan 2-5
dellswitch(config-vlan2-5)#exit
dellswitch(config)#interface vlan 2
dellswitch(config-if-vlan2)#interface vlan 3
dellswitch(config-if-vlan3)#interface vlan 4
dellswitch(config-if-vlan4)#interface vlan 5
dellswitch(config-if-vlan5)#interface range vlan 2-5
dellswitch(config-if)#
name (VLAN Configuration)
Use the name command in VLAN Configuration mode to configure the
VLAN name. To return to the default configuration, use the no form of this
command.
NOTE: This command cannot be configured for a range of interfaces (range
context).
Syntax
name vlan–name
no name
• vlan–name—The name of the VLAN. Must be 1–32 characters in length.
Default Configuration
The default VLAN name is default.
Layer 2 Switching Commands 793
Command Mode
VLAN Configuration mode
User Guidelines
The VLAN name may include any alphanumeric characters including a space,
underscore, or dash. Enclose the string in double quotes to include spaces
within the name. The surrounding quotes are not used as part of the name.
The CLI does not filter illegal characters and may truncate entries at the first
illegal character or reject the entry entirely. The name of VLAN 1 cannot be
changed.
Example
The following example configures a VLAN name of office2 for VLAN 2.
console(config)#vlan 2
console(config-vlan2)#name “RDU-NOC Management VLAN”
private-vlan
Use the private-vlan command in VLAN Configuration mode to define a
private VLAN association between the primary and secondary VLANs.
Use the no form of the command to remove the private VLAN association.
Syntax
private-vlan {primary|isolated|community|association [add|remove] vlan-
list}
no private-vlan [association]
•association—Defines an association between the primary VLAN and
secondary VLANs.
•primary—Specify that the selected VLAN is the primary VLAN.
•community—Specify that the selected VLAN is the community VLAN.
•isolated—Specify that the selected VLAN is the isolated VLAN.
•add—Associates a secondary VLAN with the primary VLAN.
•remove—Deletes the secondary VLAN association with the primary
VLAN.
Layer 2 Switching Commands 794
• vlan-list—A list of secondary VLAN ids to be mapped to a primary VLAN.
The VLAN list can contain multiple entries separated by commas and
containing no spaces. Each entry can be a single VLAN id or a hyphenated
range of VLANs.
Default Configuration
This command has no default setting.
Command Mode
VLAN Configuration mode
User Guidelines
A community VLAN carries traffic among community ports and from
community ports to the promiscuous ports on the corresponding primary
VLAN.
An isolated VLAN is used by isolated ports to communicate with
promiscuous ports. It does not carry traffic to other community ports or other
isolated ports with the same primary VLAN.
The primary VLAN is the VLAN that carries traffic from a promiscuous port
to the private ports.
VLAN 1 cannot be configured in a private VLAN configuration.
Examples
console# configure terminal
console(config)# vlan 10
console(config-vlan)# private-vlan primary
console(config-vlan)# exit
console(config)# vlan 1001
console(config-vlan)# private-vlan isolated
console(config-vlan)# exit
console(config)# vlan 1002
console(config-vlan)# private-vlan community
console(config-vlan)# exit
console(config)# vlan 1003
console(config-vlan)# private-vlan community
console(config-vlan)# exit
console(config)# vlan 20
console(config-vlan)# private-vlan association 1001-1003
console(config-vlan)# end
Layer 2 Switching Commands 795
protocol group
Use the protocol group command in VLAN Configuration mode to attach a
VLAN ID to the protocol-based group identified by groupid. A group may
only be associated with one VLAN at a time. However, the VLAN association
can be changed. The referenced VLAN should be created prior to the creation
of the protocol-based group except when GVRP is expected to create the
VLAN.
To detach the VLAN from this protocol-based group identified by this
groupid, use the no form of this command.
Syntax
protocol group group-id vlan-id
no protocol group group-id vlan-id
• group-id — The protocol-based VLAN group ID, which is automatically
generated when you create a protocol-based VLAN group with the vlan
protocol group command. To see the group ID associated with the name
of a protocol group, use the show port protocol all command.
• vlan-id — A valid VLAN ID.
Default Configuration
This command has no default configuration.
Command Mode
VLAN Configuration mode
User Guidelines
This command has no user guidelines.
Example
The following example displays how to attach the VLAN ID “100” to the
protocol-based VLAN group “3.”
console(config-vlan)#protocol group 3 100
Layer 2 Switching Commands 796
protocol vlan group
Use the protocol vlan group command in Interface Configuration mode to
add the physical unit/slot/port interface to the protocol-based group
identified by groupid. A group may have more than one interface associated
with it. Each interface and protocol combination can be associated with one
group only. If adding an interface to a group causes any conflicts with
protocols currently associated with the group, this command fails and the
interface(s) are not added to the group. Ensure that the referenced VLAN is
created prior to the creation of the protocol-based group except when GVRP
is expected to create the VLAN.
To remove the interface from this protocol-based VLAN group that is
identified by this groupid, use the no form of this command.
If you select all, all ports are removed from this protocol group.
Syntax
protocol vlan group group-id
no protocol vlan group group-id
• group-id — The protocol-based VLAN group ID, which is automatically
generated when you create a protocol-based VLAN group with the vlan
protocol group command. To see the group ID associated with the name
of a protocol group, use the show port protocol all command.
Default Configuration
This command has no default configuration.
Command Mode
Interface Configuration (Ethernet) mode
User Guidelines
This command has no user guidelines.
Example
The following example displays how to add an Ethernet interface to the group
ID of “2.”
Layer 2 Switching Commands 797
console(config-if-Gi1/0/1)#protocol vlan group 2
protocol vlan group all
Use the protocol vlan group all command in Global Configuration mode to
add all physical interfaces to the protocol-based group identified by groupid.
A group may have more than one interface associated with it. Each interface
and protocol combination can be associated with one group only. If adding an
interface to a group causes any conflicts with protocols currently associated
with the group, this command fails and the interface(s) are not added to the
group. Ensure that the referenced VLAN is created prior to the creation of the
protocol-based group except when GVRP is expected to create the VLAN.
To remove all interfaces from this protocol-based group that is identified by
this groupid, use the no form of the command
Syntax
protocol vlan group all group-id
no protocol vlan group all group-id
• group-id — The protocol-based VLAN group ID, which is automatically
generated when you create a protocol-based VLAN group with the vlan
protocol group command. To see the group ID associated with the name
of a protocol group, use the show port protocol all command.
Default Configuration
This command has no default configuration.
Command Mode
Global Configuration mode
User Guidelines
This command has no user guidelines.
Example
The following example displays how to add all physical interfaces to the
protocol-based group identified by group ID “2.”
console(config)#protocol vlan group all 2
Layer 2 Switching Commands 798
show dot1q-tunnel
Use the show dot1q-tunnel command to display the QinQ status for each
interface.
Syntax
show dot1q-tunnel [ interface interface-id ]
Default Configuration
If no interfaces are specified, information is shown for all interfaces.
Command Mode
Privileged Exec mode and all show modes
User Guidelines
Up to three additional TPIDs can be configured. The 802.1Q tag is pre-
defined in the system and cannot be removed.
It is not possible to configure an inner TPID value other than 0x8100.
The primary TPID is shown in the EtherType column. The primary TPID is
placed in the outer tag for traffic egressing the interface. The interface will
process incoming traffic as double tagged if any of the configured TPIDs is
present in the frames outer VLAN tag. Traffic with a TPID other than the
configured TPID is processed normally, i.e. as if it is not double tagged.
Example
console(config)#show dot1q-tunnel interface all
Interface Mode EtherType
--------- ------- --------------
Gi1/0/1 Disable 802.1
Gi1/0/2 Disable 802.1
Gi1/0/3 Disable 802.1
Gi1/0/4 Disable 802.1
Gi1/0/5 Disable 802.1
Gi1/0/6 Disable 802.1
Layer 2 Switching Commands 799
show interfaces switchport
Use the show interfaces switchport command to display the complete
switchport VLAN configuration for all possible switch mode configurations:
access, dot1q-tunnel, general, trunk, and (private VLAN) host or (private
VLAN) promiscuous.
Syntax
show interfaces switchport {{gigabitethernet unit/slot/port |
port-channel
port-channel-number
| tengigabitethernet unit/slot/port|
fortygigabitethernet unit/slot/port}}
Default Configuration
If no interface parameter is given, all interfaces are shown.
Command Mode
Privileged Exec mode, Interface Configuration mode and all Configuration
submodes
User Guidelines
Each of the switchport modes can be configured independently for a port or
port channel. The configurations are retained even when the port is
configured in a different mode.
It is recommended that the private VLAN host ports be configured as
spanning-tree portfast.
Examples
The following example displays switchport configuration individually for
gi1/0/1.
switch-top(config-if-Gi1/0/1)#show interfaces switchport gi1/0/1
Port: Gi1/0/1
VLAN Membership Mode: Trunk Mode
Access Mode VLAN: 1 (default)
General Mode PVID: 1 (default)
General Mode Ingress Filtering: Enabled
General Mode Acceptable Frame Type: Admit All
General Mode Dynamically Added VLANs:
Layer 2 Switching Commands 800
General Mode Untagged VLANs: 1
General Mode Tagged VLANs:
General Mode Forbidden VLANs:
Trunking Mode Native VLAN: 1 (default)
Trunking Mode Native VLAN Tagging: Disabled
Trunking Mode VLANs Enabled: 1-99,101-4093
Private VLAN Host Association: none
Private VLAN Mapping:
Private VLAN Operational Bindings:
Default Priority: 0
Protected: Disabled
Forbidden VLANS:
VLAN Name
---- ---------
73 Out
show port protocol
Use the show port protocol command to display the Protocol-Based VLAN
information for either the entire system or for the indicated group.
Syntax
show port protocol {group-id | all}
• group-id — The protocol-based VLAN group ID, which is automatically
generated when you create a protocol-based VLAN group with the vlan
protocol group command.
•all — Enter all to show all interfaces.
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
This command has no user guidelines.
Layer 2 Switching Commands 801
Example
The following example displays the Protocol-Based VLAN information for
either the entire system.
console#show port protocol all
Group
Group Name ID Protocol(s) VLAN Interface(s)
--------------- ----- ---------- ---- ------------
test 1 IP 1 gi1/0/1
show switchport ethertype
Use the show switchport ethertype to display the configured Ethertype for
each interface.
Syntax
show switchport ethertype [ interface interface-id | all ]
• interface-id—A physical interface or port channel.
•all—All interfaces.
Default Configuration
There is no default configuration for this command.
Command Mode
Privileged Exec mode and all Show modes
User Guidelines
Up to three additional TPIDs can be configured. The 802.1Q TPID is pre-
configured in the system and may not be removed.
It is not possible to configure an inner VLAN TPID value other than 0x8100.
The primary TPID is shown in the EtherType column. The primary TPID is
placed in the outer tag for traffic egressing the interface. The interface will
process traffic as double tagged if any of the configured TPIDs is present in
the frames outer VLAN tag. Traffic with a TPID other than the configured
TPID is processed normally, i.e. as if it is not double tagged.
Layer 2 Switching Commands 802
Example
This example shows the various invocations of the command.
console(config)#show switchport ethertype
Default TPID................................... 802.1
Configured TPIDs............................... vMAN Custom (1010)
console(config)#show switchport ethertype interface gi1/0/1
Interface EtherType Secondary TPIDs
--------- --------- ---------------
Gi1/0/1 802.1
console(config-vlan10)#show switchport ethertype interface all
console(config)#show switchport ethertype interface gi1/0/1
Interface EtherType Secondary TPIDs
--------- --------- ---------------
Gi1/0/1 802.1
Gi1/0/2 802.1 VMAN
Gi1/0/3 802.1
Gi1/0/4 802.1
Gi1/0/5 802.1
show vlan
Use the show vlan command to display detailed information, including
interface information and dynamic VLAN type, for a specific VLAN or
RSPAN VLAN. The ID is a valid VLAN identification number.
Syntax
show vlan [id
vlan-id
|
name vlan-name
]
• vlan-id—A VLAN identifier
• vlan-name—A valid VLAN name (Range 1-32 characters)
Default Configuration
This command has no default configuration.
Layer 2 Switching Commands 803
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
• VLAN—The VLAN identifier
• Name—The VLAN name
• Ports—The port membership for the VLAN
• Type—The type of VLAN (default, static, dynamic)
Example
This shows all VLANs and RSPAN VLANs.
console#show vlan
VLAN Name Ports Type
----- --------------- ------------- --------------
1 default Po1-128, Default
Gi1/0/1-48
10 Static
RSPAN Vlan
------------------------------------------------------------------
10
This example shows information for a specific VLAN ID.
console#show vlan id 10
VLAN Name Ports Type
----- --------------- ------------- --------------
10 Te1/0/1 Static
RSPAN Vlan
------------------------------------------------------------------
Enabled
This example shows information for a specific VLAN name.
console#show vlan name myspan
VLAN Name Ports Type
----- --------------- ------------- --------------
Layer 2 Switching Commands 804
10 myspan Te1/0/1 Static
RSPAN Vlan
------------------------------------------------------------------
Enabled
show vlan association mac
Use the show vlan association mac command to display the VLAN associated
with a specific configured MAC address. If no MAC address is specified, the
VLAN associations of all the configured MAC addresses are displayed.
Syntax
show vlan association mac [mac-address]
• mac-address — Specifies the MAC address to be entered in the list.
(Range: Any valid MAC address)
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
• MAC Address—The configured MAC address
• VLAN —The associated VLAN identifier
Example
The following example shows no entry in MAC address to VLAN cross-
reference.
console#show vlan association mac
MAC Address VLAN ID
----------------------- -------
0001.0001.0001.0001 1
Layer 2 Switching Commands 805
show vlan association subnet
Use the show vlan association subnet command to display the VLAN
associated with a specific configured IP-Address and netmask. If no IP
Address and net mask are specified, the VLAN associations of all the
configured IP-subnets are displayed.
Syntax
show vlan association subnet [ip-address ip-mask]
• ip-address — Specifies IP address to be shown
• ip-mask — Specifies IP mask to be shown
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
• IP Address—The configured IP address
• IP Mask—The configured IP subnet mask
• VLAN ID—The associated VLAN identifier
Example
The following example shows the case if no IP Subnet to VLAN association
exists.
console#show vlan association subnet
IP Address IP Mask VLAN ID
---------------- ---------------- -------
The IP Subnet to VLAN association does not exist.
Layer 2 Switching Commands 806
show vlan private-vlan
Use the show vlan private-vlan command to display information about the
configured private VLANs including primary and secondary VLAN IDs, type
(community, isolated, or primary), and the ports which belong to a private
VLAN.
Syntax
show vlan private-vlan [type]
Default Configuration
This command has no default setting.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
Do not configure private VLANs on ports configured with any of these
features:
• Link Aggregation Control Protocol (LACP)
• Multicast VLAN Registration (MVR)
• Voice VLAN
It is recommended that the private VLAN host ports be configured as
spanning-tree portfast.
The command displays the following information.
Parameter Description
Primary Primary VLAN ID.
Secondary Secondary VLAN ID.
Type Secondary VLAN type. Use the type parameter to display only
private VLAN ID and its type.
Ports Ports that are associated with a private VLAN.
Layer 2 Switching Commands 807
switchport access vlan
Use the switchport access vlan command in Interface Configuration mode to
configure the VLAN ID when the interface is in access mode. To reconfigure
the interface to use the default VLAN, use the no form of this command.
Syntax
switchport access vlan vlan-id
no switchport access vlan
• vlan-id — The identifier of the VLAN associated with the access port.
Default Configuration
This command has no default values.
Command Mode
Interface Configuration (Ethernet and port channel) mode
User Guidelines
This command configures the interface access mode VLAN membership. The
no form of the command sets the access mode VLAN membership to VLAN
1. It is possible to configure the access mode VLAN identifier when the port is
in general or trunk mode. Doing so does not change the VLAN membership
of the interface until the interface is configured into access mode.
If the VLAN identified in the command has not been previously created, the
system creates the VLAN, issues a message, and associates the VLAN with the
interface.
Examples
The following example configures interface gi1/0/8 to operate in access mode
with a VLAN membership of 23. Received untagged packets are processed on
VLAN 23. Received packets tagged with VLAN 23 are also accepted. Other
received tagged packets are discarded.
console(config)#interface gigabitethernet 1/0/8
console(config-if-Gi1/0/8)#switchport access vlan 23
The following example sets the PVID for interface Gi1/0/12 to VLAN ID 33.
Since VLAN 33 does not exist, it is automatically created.
Layer 2 Switching Commands 808
console(config)# interface gi1/0/12
console(config-if-Gi1/0/12)# switchport access vlan 33
Access VLAN does not exist. Creating VLAN 33
switchport dot1q ethertype (Global Configuration)
Use the switchport dot1q ethertype command to define additional QinQ
tunneling TPIDs for matching in the outer VLAN tag of received frames. Use
the no form of the command to remove the configured TPIDs.
Syntax
switchport dot1q ethertype { vman | custom 1-65535 }
no switchport dot1q ethertype { vman | custom 1-65535 }
•vman—Define the Ethertype as 0x88A8.
•custom—Define the Ethertype as a 16 bit user defined value (in decimal).
Default Configuration
802.1Q is the default Ethertype for both inner and outer VLAN TPIDs. The
802.1Q TPID cannot be removed from the configuration.
By default QinQ processing of frames is disabled.
Command Mode
Global Configuration
User Guidelines
This command globally defines additional TPIDs for use by the system for
matching of ingress packets in the outer tag. The switch uses the default
primary TPID 0x8100 and any of the additional TPIDs to match packets in
the outer tag on ingress. A TPID must be configured globally before it can be
applied to an interface. Up to three additional TPIDs can be configured for
acceptance in the outer VLAN tag on the SP port. Packets received on the SP
port which do not contain one of the configured TPIDs or which do not
contain the SP VLAN ID in the outermost VLAN tag are processed by the
port as if they are not part of the QinQ tunnel.
Layer 2 Switching Commands 809
Use the no form of the command to remove an additional TPID. Doing so
removes the TPID from all interfaces. If the removed TPID is the primary
TPID for an interface, the interface is configured to use the default primary
TPID 0x8100.
Packets are always transmitted by the system using the primary TPID value in
the outer VLAN tag.
It is not possible to configure an inner VLAN TPID value. The inner VLAN
TPID value is always 802.1Q (0x8100).
Use the switchport dot1q ethertype Interface Configuration mode command
to apply a configured TPID value to an interface.
NOTE: This feature is not available on the N3000 when loaded with the
AGGREGATION ROUTER enabled firmware (e.g., N3000_BGPvA.B.C.D.stk).
Example
This example defines the VMAN (0x88A8) TPID for use on a service provider
(SP) port and configures a service provider port (Te1/0/1) in general mode
after creating the common SP/CE VLAN. The port is configured in general
mode and to only allow tagged packets on ingress using the outer VLAN ID
10. Then, the port is configured to accept the VMAN TPID in the outer
VLAN on ingress and further configured to tag packets with the VMAN TPID
and VLAN ID 10 in the outer VLAN tag on egress.
This example configures an SP port using general mode.
console(config)#switchport dot1q ethertype vman
console(config)#vlan 10
console(config-vlan10)#exit
console(config)#interface te1/0/1
console(config-if-Te1/0/1)#switchport mode general
console(config-if-Te1/0/1)#switchport general allowed vlan add 10 tagged
console(config-if-Te1/0/1)#switchport dot1q ethertype vman primary-tpid
This example configures an SP port using trunk mode.
console(config)#switchport dot1q ethertype vman
console(config)#vlan 10
console(config-vlan10)#exit
console(config)#interface te1/0/1
console(config-if-Te1/0/1)#switchport mode trunk
console(config-if-Te1/0/1)#switchport trunk allowed vlan 10
Layer 2 Switching Commands 810
console(config-if-Te1/0/1)#switchport trunk native vlan 10
console(config-if-Te1/0/1)#switchport dot1q ethertype vman primary-tpid
switchport dot1q ethertype (Interface
Configuration)
Use the switchport dot1q ethertype command to apply previously defined
QinQ tunneling TPIDs to a service provider interface. Use the no form of the
command to remove the configured TPIDs.
Syntax
switchport dot1q ethertype { 802.1Q | vman | custom 0-65535 } [primary-
tpid]
no switchport dot1q ethertype { 802.1Q |vman | custom 0-65535 }
[primary-tpid]
•
802.1
Q—Allow ingress frames with Ethertype 0x8100.
•vman—Define the Ethertype as 0x88A8.
•custom—Define the Ethertype as a 16 bit user defined value (in decimal).
•primary-tpid—Set the outer VLAN tag TPID to be inserted in frames
transmitted on an SP port. Also processes ingress frames with the
configured Ethertype as double tagged.
Default Configuration
802.1Q is the default Ethertype for both inner and outer VLAN TPIDs.
By default QinQ processing of frames is disabled.
Command Mode
Interface Configuration mode (physical and port channel), Interface range
mode (physical and port channel)
User Guidelines
This command applies a previously defined TPID to an interface. The TPID
must be configured using the global configuration mode command before it
can be applied to an interface. Up to 3 additional TPIDs for use in the outer
VLAN tag may be configured.
Layer 2 Switching Commands 811
The outer VLAN tag in tagged packets received on the interface is compared
against the configured list of TPIDs. Frames that do not match any of the
configured TPIDs are forwarded normally, i.e. without QinQ processing.
Frames transmitted on the interface are always transmitted with the primary
TPID inserted in the outer VLAN tag.
Use the no form of the command to remove the TPID from an interface.
Defining a new primary TPID command overwrites the existing primary
TPID for an interface.
The no form of the command with the optional primary TPID specified sets
the primary TPID value to 802.1Q (0x8100).
If the TPID value was not configured as a primary TPID and the no form the
command includes the optional primary-tpid argument, the command will
fail.
If the TPID value was configured as the primary TPID, and the no form of
the command does not include the optional primary-tpid argument, the
command will fail.
If a TPID value is configured as the primary TPID, and it is added again
without the primary-tpid optional argument, the TPID will be treated as the
primary TPID (the primary TPID includes the behavior of secondary TPIDs).
It is not possible to configure an inner VLAN TPID value. The inner VLAN
TPID value is always 802.1Q (0x8100).
Example
This example defines the VMAN (0x88A8) TPID for use on a service provider
port and configures a service provider port (Te1/0/1) in general mode. The
general mode port is configured to only allow tagged packets on ingress using
VLAN ID 10. Then, in the last command, the port is configured to accept the
VMAN TPID in the outer VLAN on ingress and further configured to tag
packets with the VMAN TPID in the outer VLAN tag on egress.
console(config)#switchport dot1q ethertype vman
console(config)#vlan 10
console(config-vlan10)#exit
console(config)#interface te1/0/1
console(config-if-Te1/0/1)#switchport mode general
console(config-if-Te1/0/1)#switchport general allowed vlan add 10 tagged
console(config-if-Te1/0/1)#switchport dot1q ethertype vman primary-tpid
Layer 2 Switching Commands 812
switchport general forbidden vlan
Use the switchport general forbidden vlan command in Interface
Configuration mode to forbid adding specific VLANs to a general mode port.
To revert to allowing the addition of specific VLANs to the port, use the
remove parameter of this command.
Syntax
switchport general forbidden vlan {add vlan-list | remove vlan-list}
•add vlan-list — List of valid VLAN IDs to add to the forbidden list.
Separate nonconsecutive VLAN IDs with a comma and no spaces. Use a
hyphen to designate a range of IDs.
•remove vlan-list — List of valid VLAN IDs to remove from the forbidden
list. Separate nonconsecutive VLAN IDs with a comma and no spaces. Use
a hyphen to designate a range of IDs.
Default Configuration
All VLANs allowed.
Command Mode
Interface Configuration (Ethernet and port channel) mode
User Guidelines
This configuration only applies to ports configured in general mode. It is
possible to configure the general mode VLAN membership of a port while the
port is in access or trunk mode. Doing so does not change the VLAN
membership of the port until it is configured to be in general mode.
Example
The following example forbids adding VLAN numbers 234 through 256 to
port 1/0/8.
console(config)#interface gigabitethernet 1/0/8
console(config-if-Gi1/0/8)#switchport general forbidden vlan add 234-256
Layer 2 Switching Commands 813
switchport general acceptable-frame-type
tagged-only
Use the switchport general acceptable-frame-type tagged-only command in
Interface Configuration mode to discard untagged frames at ingress. To
enable untagged frames at ingress, use the no form of this command.
Syntax
switchport general acceptable-frame-type tagged-only
no switchport general acceptable-frame-type tagged-only
Default Configuration
All frame types are accepted at ingress.
Command Mode
Interface Configuration (Ethernet and port channel) mode
User Guidelines
It is possible to configure the general mode acceptable frame types of a port
while the port is in access or trunk mode. Doing so does not change the
configuration of the port until it is configured to be in general mode.
Example
The following example configures 1/0/8 to discard untagged frames at ingress.
console(config)#interface gigabitethernet 1/0/8
console(config-if-Gi1/0/8)#switchport general acceptable-frame-type tagged-
only
switchport general allowed vlan
Use the switchport general allowed vlan command in Interface
Configuration mode to add VLANs to or remove VLANs from a general port.
Syntax
switchport general allowed vlan add vlan-list [tagged | untagged]
switchport general allowed vlan remove vlan-list
Layer 2 Switching Commands 814
•add vlan-list — List of VLAN IDs to add. Separate nonconsecutive VLAN
IDs with a comma and no spaces. Use a hyphen to designate a range of
IDs.
•remove vlan-list — List of VLAN IDs to remove. Separate nonconsecutive
VLAN IDs with a comma and no spaces. Use a hyphen to designate a range
of IDs.
•tagged — Sets the port to transmit tagged packets for the VLANs. If the
port is added to a VLAN without specifying tagged or untagged, the
default is untagged.
•untagged — Sets the port to transmit untagged packets for the VLANs.
Default Configuration
Untagged.
Command Mode
Interface Configuration (Ethernet and port channel) mode
User Guidelines
Use this command to change the egress rule (for example, from tagged to
untagged) without first removing the VLAN from the list.
It is possible to configure the general mode VLAN membership of a port
while the port is in access or trunk mode. Doing so does not change the
VLAN membership of the port until it is configured to be in general mode.
Example
The following example shows how to add VLANs 1, 2, 5, and 8 to the allowed
list.
console(config)#interface gigabitethernet 1/0/8
console(config-if-Gi1/0/8)#switchport general allowed vlan add 1,2,5,8
tagged
switchport general ingress-filtering disable
Use the switchport general ingress-filtering disable command in Interface
Configuration mode to disable port ingress filtering. To enable ingress
filtering on a port, use the no form of this command.
Layer 2 Switching Commands 815
Syntax
switchport general ingress-filtering disable
no switchport general ingress-filtering disable
Default Configuration
Ingress filtering is enabled.
Command Mode
Interface Configuration (gigabitethernet, port-channel, tengigabitethernet,
fortygigabitethernet) mode
User Guidelines
Ingress filtering, when enabled, discards received frames that are not tagged
with a VLAN for which the port is a member. If ingress filtering is disabled,
tagged frames from all VLANs are processed by the switch.
Example
The following example shows how to enables port ingress filtering on Gigabit
Ethernet interface 1/0/8.
console(config)#interface gigabitethernet 1/0/8
console(config-if-Gi1/0/8)#switchport general ingress-filtering enable
switchport general pvid
Use the switchport general pvid command in Interface Configuration mode
to configure the Port VLAN ID (PVID) when the interface is in general mode.
Use the switchport mode general command to set the VLAN membership
mode of a port to “general.” To configure the default value, use the no form
of this command.
Syntax
switchport general pvid vlan-id
no switchport general pvid
• vlan-id — PVID. The VLAN ID may belong to a non-existent VLAN.
Layer 2 Switching Commands 816
Default Configuration
The default value for the vlan-id parameter is 1 when the VLAN is enabled.
Otherwise, the value is 4093.
Command Mode
Interface Configuration (gigabitethernet, port-channel, tengigabitethernet,
fortygigabitethernet) mode
User Guidelines
Setting a new PVID does NOT remove the previously configured PVID VLAN
from the port membership.
Example
The following example shows how to configure the PVID for 1/0/8, when the
interface is in general mode.
console(config)#interface gigabitethernet 1/0/8
console(config-if-Gi1/0/8)#switchport general pvid 234
switchport mode
Use the switchport mode command in Interface Configuration mode to
configure the VLAN membership mode of a port. To reset the mode to the
appropriate default for the switch, use the no form of this command.
Syntax
switchport mode {access | trunk | general}
no switchport mode
•access—An access port connects to a single end station belonging to a
single VLAN. An access port is configured with ingress filtering enabled
and will accept either an untagged frame or a packet tagged with the access
port VLAN. Tagged packets received with a VLAN other than the access
port VLAN are discarded. An access port transmits only untagged packets.
•trunk—A trunk port connects two switches. A trunk port may belong to
multiple VLANs. A trunk port accepts only packets tagged with the VLAN
IDs of the VLANs to which the trunk is a member or untagged packets if
Layer 2 Switching Commands 817
configured with a native VLAN. A trunk port only transmits tagged packets
for member VLANs other than the native VLAN and untagged packets for
the native VLAN.
•general—Full 802.1Q support VLAN interface. A general mode port is a
combination of both trunk and access ports capabilities. It is possible to
fully configure all VLAN features on a general mode port. Both tagged and
untagged packets may be accepted and transmitted.
Default Configuration
The default switchport mode is access.
Command Mode
Interface Configuration (gigabitethernet, port-channel, tengigabitethernet,
fortygigabitethernet) mode
User Guidelines
This command has no user guidelines.
Example
The following example configures Gi1/0/5 to access mode.
console(config)#interface gigabitethernet 1/0/5
console(config-if-Gi1/0/5)#switchport mode access
switchport mode dot1q-tunnel
Use the switchport mode dot1q-tunnel command to enable QinQ tunneling
on customer edge (CE) interfaces. Use the no form of the command to return
the interface to the default switchport mode (access).
Syntax
switchport mode dot1q-tunnel
no switchport mode dot1q-tunnel
Default Configuration
By default, QinQ processing of frames is disabled.
Layer 2 Switching Commands 818
Command Mode
Interface mode (physical and port channel), Interface range mode (physical
and port channel)
User Guidelines
This command configures a customer edge (CE) port for QinQ tunneling.
The dot1q-tunnel mode is an overlay on switchport access mode. In
particular, configuring the access mode PVID sets the outer dot1q-tunnel
VLAN ID. Changing the switchport mode to access, general, or trunk,
effectively disables tunneling on the interface.
Customer edge ports can be physical ports or port channels. Untagged frames
received on the CE interface will be processed as if they belong to the PVID
and will be transmitted out the SP interface with a single VLAN tag. Tagged
frames received on the CE interface will be transmitted out the service
provider (SP) interface with an outer tag containing the native VLAN ID and
the inner tag as received on the CE interface.
CE interfaces must be configured in dot1q-tunnel mode with the PVID
configured with the outer tag (native) VLAN ID for the associated service
provider (SP) interface. Configure the outer VLAN ID using the switchport
access vlan command. All MAC address learning and forwarding occurs on
the outer VLAN tag. The VLAN ID must be common to both the SP port and
the CE ports.
The service provider interface must be configured for egress tagging (trunk or
general mode) with a native VLAN identical to the PVID of the associated
CE ports. SP interfaces should be configured with a single VLAN ID. A trunk
mode port will accept untagged packets on the native VLAN and be a
member of any newly created VLANs by default. In general mode, it is
possible to directly configure the port to only accept tagged packets with a
single VLAN ID.
It is not possible to configure an inner VLAN TPID value. The inner VLAN
TPID value is always Ethernet (0x8100).
Multiple groups of associated CE and SP ports can be defined by configuring
the groups with unique VLAN IDs.
The port mirroring logic stage occurs after the after the tag processing stage
on ingress and before the tag processing stage on egress. When mirroring
packets associated with SP or CE ports, the outer VLAN tag may or may not
Layer 2 Switching Commands 819
appear in the frame. Due to the internal processing of QinQ tagging, the
TPID of ingress frames mirrored from the SP port will always be 0x8100. In
addition, packets forwarded internally across a stacking link may have
different tags applied than packets forwarded on a local egress port. This is
due to the processing required for forwarding across a stack.
Example
This example configures ports Gi1/0/10 through Gi1/0/24 as CE ports using
VLAN 10 as the service provider VLAN ID. See the example for the
switchport dot1q ethertype command to configure an associated SP port.
console(config)#vlan 10
console(config-vlan10)#exit
console(config)#interface range gi1/0/10-24
console(config-if)#switchport access vlan 10
console(config-if)#switchport mode dot1q-tunnel
console(config-if)#exit
switchport mode private-vlan
Use the switchport mode private-vlan command in Interface Configuration
mode to define a private VLAN association for an isolated or community
interface or a mapping for a promiscuous interface.
Use the no form of the command to remove the private VLAN association or
mapping from the interface.
Syntax
switchport mode private-vlan {host|promiscuous}
no switchport mode
•host—Configure the interface as a private VLAN host port. Host ports are
community or isolated ports, depending on the VLAN to which they
belong.
•promiscuous—Configure the interface as a private VLAN promiscuous
port. Promiscuous ports are members of the primary VLAN.
Default Configuration
This command has no default configuration. By default, a port is neither
configured as promiscuous or host.
Layer 2 Switching Commands 820
Command Mode
Interface Configuration (physical or port-channel)
User Guidelines
Do not configure private VLANs on ports configured with any of these
features:
• Link Aggregation Control Protocol (LACP)
• Multicast VLAN Registration (MVR)
• Voice VLAN
It is recommended that the private VLAN host ports be configured as
spanning-tree portfast.
Example
console(config)#interface gigabitethernet 1/0/8
console(config-if-Gi1/0/8)#switchport mode private-vlan host
switchport private-vlan
Use the switchport private-vlan command in Interface Configuration mode
to define a private VLAN association for an isolated or community port or a
mapping for a promiscuous port.
Use the no form of the command to remove the private VLAN association or
mapping from the interface.
Syntax
switchport private-vlan {host-association primary-vlan-id secondary-vlan-id
| mapping primary-vlan-id [add|remove] secondary-vlan-list}
no switchport private-vlan {host-association|mapping}
•host-association—Defines VLAN associations for community or host
ports.
•mapping—Defines the private VLAN mapping for promiscuous ports.
•primary-vlan-id—Primary VLAN ID of a private VLAN.
•secondary-vlan-id—Secondary (isolated or community) VLAN ID of a
private VLAN.
Layer 2 Switching Commands 821
•add—Associates the secondary VLAN with the primary one.
•remove—Deletes the secondary VLANs from the primary VLAN
association.
•secondary-vlan-list—A list of secondary VLANs to be mapped to a primary
VLAN.
Default Configuration
This command has no default association or mapping configuration.
Command Mode
Interface Configuration (physical or port-channel)
User Guidelines
This command has no user guidelines.
Example
console(config)#vlan 10,20
console(config-vlan10,20)#exit
console(config)#interface gigabitethernet 1/0/8
console(config-if-Gi1/0/8)#switchport private-vlan host-association 10 20
switchport trunk
Use the switchport trunk command in Interface Configuration mode to
configure VLAN membership for a trunk port or to set the native VLAN for
an interface in Trunk Mode.
Syntax
switchport trunk {allowed vlan vlan–list | native vlan vlan–id}
no switchport trunk { allowed | native } vlan
•
vlan–list
—Set the list of allowed VLANs that can receive and send traffic
on this interface in tagged format when in trunking mode. The default is
all. The vlan–list format is as follows:
The vlan-list format is all | [add | remove | except] vlan–atom [, vlan–
atom...] where:
Layer 2 Switching Commands 822
–all specifies all VLANs from 1 to 4093. This keyword is not allowed on
commands that do not permit all VLANs in the list to be set at the
same time.
–add adds the defined list of VLANs to those currently set instead of
replacing the list.
–remove removes the defined list of VLANs from those currently set
instead of replacing the list. Valid IDs are from 1 to 4093; extended-
range VLAN IDs of the form X-Y or X,Y,Z are valid in this command.
–except lists the VLANs that should be calculated by inverting the
defined list of VLANs. (VLANs are added except the ones specified.)
–vlan-atom is either a single VLAN number from 1 to 4093 or a
continuous range of VLANs described by two VLAN numbers, the
lesser one first, separated by a hyphen.
• valid–id—A valid VLAN id in the range 1–4093. This is the native VLAN
for the trunk port and will accept and send traffic on this VLAN in
untagged format.
Default Configuration
A trunk port is a member of all VLANs by default.
VLAN 1 is the default native VLAN on a trunk port. The default allowed
VLAN membership on a trunk port is all VLANs.
Command Mode
Interface Configuration (gigabitethernet, port-channel, tengigabitethernet,
fortygigabitethernet) mode
Interface Range mode
Port-Channel Range mode
User Guidelines
Untagged traffic received on a trunk port is forwarded on the native VLAN, if
configured.
To drop untagged traffic on a trunk port, remove the native VLAN from the
trunk port. (Ex. switchport trunk allowed vlan remove 1.) Management
traffic is still allowed on the trunk port in this configuration.
Layer 2 Switching Commands 823
The no form of the command sets the allowed or native VLAN membership
back to the defaults.
It is possible to exclude VLANs that have not yet been created from trunk
port membership. For example, it is possible to exclude VLANs learned
dynamically via GVRP from being configured on a trunk port using this
command.
Example
console(config)#interface gigabitethernet 1/0/1
console(config-if-Gi1/0/1)#switchport trunk allowed vlan 1-1024
console(config-if-Gi1/0/1)#switchport trunk allowed vlan except
1,2,3,5,7,11,13
switchport trunk encapsulation dot1q
Use this command for compatibility. This command performs no action.
Syntax
switchport trunk encapsulation dot1q
Default Configuration
Dell EMC Networking switches use dot1q encapsulation on trunk ports by
default.
Command Mode
Interface config mode, Interface range mode (including port-channels)
User Guidelines
This command performs no action. Dell EMC Networking switches always
use dot1q encapsulation on trunk mode ports.
Command History
Introduced in version 6.2.0.1 firmware.
Example
This example demonstrates compatibility.
console(config-if-Gi1/0/1)#switchport trunk encapsulation dot1q
Layer 2 Switching Commands 824
vlan
Use the vlan command in Global Configuration mode to configure a VLAN.
To delete a VLAN, use the no form of this command.
Syntax
vlan {vlan–list}
no vlan {vlan–list}
• vlan–list—A list of one or more valid VLAN IDs. List separate, non-
consecutive VLAN IDs separated by commas (without spaces). Use a
hyphen to designate a range of IDs. (Range: 1–4093)
Default Configuration
This command has no default configuration.
Command Mode
Global Configuration (Config)
User Guidelines
Deleting the VLAN assigned as the PVID on an access port will cause VLAN 1
to be assigned as the PVID for the access port. Deleting the VLAN assigned as
the native VLAN for a trunk port will cause the trunk port to discard
untagged frames received on the port. Creating a VLAN adds it to the allowed
list for all trunk ports except those where it is specifically excluded. Ports and
port channels can be configured with VLANs that do not exist. They will not
forward traffic on nonexisting VLANs.
Example
The following example shows how to create (add) VLAN IDs 22, 23, and 56.
console(config)#vlan 22,23,56
console(config-vlan)#
Layer 2 Switching Commands 825
vlan association mac
Use the vlan association mac command in VLAN Configuration mode to
associate a MAC address to a VLAN. The maximum number of MAC-based
VLANs is 256. Only packets with a matching source MAC address are placed
in the VLAN.
Syntax
vlan association mac mac-address
no vlan association mac mac-address
• mac-address — MAC address to associate to the VLAN. (Range: Any MAC
address in the format xxxx.xxxx.xxxx or xx:xx:xx:xx:xx:xx)
Default Configuration
No assigned MAC address.
Command Mode
VLAN Configuration mode
User Guidelines
This command has no user guidelines.
Example
The following example associates MAC address with VLAN ID 1.
console(config)# vlan 1
console(config-vlan-1)#vlan association mac 0001.0001.0001
vlan association subnet
Use the vlan association subnet command in VLAN Configuration mode to
associate a VLAN to a specific IP-subnet. Only packets with a matching
source IP address are placed into the VLAN.
Syntax
vlan association subnet ip-address subnet-mask
Layer 2 Switching Commands 826
no vlan association subnet ip-address subnet-mask
• ip-address — Source IP address. (Range: Any valid IP address)
• subnet-mask — Subnet mask. (Range: Any valid subnet mask)
Default Configuration
No assigned ip-subnet.
Command Mode
VLAN Configuration mode
User Guidelines
This command has no user guidelines.
Example
The following example associates the 192.168.0.xxx IP address with VLAN ID
1.
console(config)# vlan 1
console(config-vlan-1)#vlan association subnet 192.168.0.0 255.255.255.0
vlan makestatic
This command changes a dynamically created VLAN (one that is created by
GVRP registration) to a static VLAN (one that is permanently configured and
defined). The ID is a valid VLAN identification number. VLAN range is 2-
4093.
Syntax
vlan makestatic vlan-id
• vlan-id — Valid VLAN ID. Range is 2–4093.
Default Configuration
This command has no default configuration.
Command Mode
Global Configuration Mode
Layer 2 Switching Commands 827
User Guidelines
The dynamic VLAN (created via GRVP) should exist prior to executing this
command. See the Type column in output from the
show vlan
command to
determine that the VLAN is dynamic.
Example
The following changes vlan 3 to a static VLAN.
console(config-vlan)#vlan makestatic 3
vlan protocol group
Use the vlan protocol group command in Global Configuration mode to add
protocol-based groups to the system. When a protocol group is created, it is
assigned a unique group ID number. The group ID is used to identify the
group in subsequent commands. Use the no form of the command to remove
the specified VLAN protocol group name from the system.
Syntax
vlan protocol group
group-id
no vlan protocol group
group-id
• group-id — The protocol-based VLAN group ID, to create a protocol-
based VLAN group. To see the created protocol groups, use the show port
protocol all command.
Default Configuration
This command has no default configuration.
Command Mode
Global Configuration mode
User Guidelines
This command has no user guidelines.
Example
console(config)# vlan protocol group 1
Layer 2 Switching Commands 828
vlan protocol group add protocol
Use the vlan protocol group add protocol command in Global Configuration
mode to add a protocol to the protocol-based VLAN groups identified by
groupid. A group may have more than one protocol associated with it. Each
interface and protocol combination can be associated with one group only. If
adding a protocol to a group causes any conflicts with interfaces currently
associated with the group, this command fails and the protocol is not added
to the group.
To remove the protocol from the protocol-based VLAN group identified by
groupid, use the no form of this command.
Syntax
vlan protocol group add protocol
group-id
ethertype
value
no vlan protocol group add protocol
group-id
ethertype
value
• group-id — The protocol-based VLAN group ID, which is automatically
generated when you create a protocol-based VLAN group with the vlan
protocol group command. To see the group ID associated with the name
of a protocol group, use the show port protocol all command.
•ethertype value — The protocol you want to add. The ethertype value can
be any valid hexadecimal number in the range 0x0600 to 0xffff.
Default Configuration
This command has no default configuration.
Command Mode
Global Configuration mode
User Guidelines
This command has no user guidelines.
Example
The following example displays how to add the “ip” protocol to the protocol
based VLAN group identified as “2.”
console(config)#vlan protocol group add protocol 2 ethertype 0xXXXX
Layer 2 Switching Commands 829
vlan protocol group name
This is a new command for assigning a group name to
vlan protocol group id
.
Syntax
vlan protocol group name
group-id
groupName
no vlan protocol group name
group-id
• groupid—The protocol-based VLAN group ID, which is automatically
generated when you create a protocol-based VLAN group with the vlan
protocol group command. To see the group ID associated with the name
of a protocol group, use the show port protocol all command
• groupName—The group name you want to add. The group name can be
up to 16 characters length. It can be any valid alpha numeric characters.
Default Configuration
This command has no default configuration.
Command Mode
Global Configuration mode
User Guidelines
This command has no user guidelines.
Example
console(config)# vlan protocol group name 1 usergroup
vlan protocol group remove
Use the vlan protocol group remove command in Global Configuration
mode to remove the protocol-based VLAN group identified by groupid.
Syntax
vlan protocol group remove group-id
Layer 2 Switching Commands 830
• group-id — The protocol-based VLAN group ID, which is automatically
generated when you create a protocol-based VLAN group with the vlan
protocol group command. To see the group ID associated with the name
of a protocol group, use the show port protocol all command.
Default Configuration
This command has no default configuration.
Command Mode
Global Configuration mode
User Guidelines
This command has no user guidelines.
Example
The following example displays the removal of the protocol-based VLAN
group identified as “2.”
console(config)#vlan protocol group remove 2
Layer 2 Switching Commands 831
Voice VLAN Commands
Dell EMC Networking N1100-ON/N1500/N2000/N2100-
ON/N3000/N3100-ON/N4000 Series Switches
The Voice VLAN feature enables switch ports to carry voice traffic with an
administrator-defined priority so as to enable prioritization of voice traffic
over data traffic. Using Voice VLAN helps to ensure that the sound quality of
an IP phone is protected from deterioration when the data traffic utilization
on the port is high.
Voice VLAN is the preferred solution for applying QoS to voice traffic in an
enterprise environment. Voice VLAN scales with the number of ports and
does not make significant demands on the switch CPU for classification of
voice traffic. However, Voice VLAN does require the administrator to perform
the additional configuration step of defining the QoS policy to be applied to
voice traffic.
The switch can be configured to support voice VLAN on a port connecting to
the VoIP phone. When a VLAN is associated with the voice VLAN port, then
the VLAN ID information is passed onto the VoIP phone using LLDP-MED.
Voice data coming from the VoIP phone is tagged by the phone with the
transmitted VLAN ID; regular data arriving on the switch is given the default
PVID of the port.
When an IEEE 802.1p priority is associated with the voice VLAN port, then
the priority information is passed to the VoIP phone using LLDP-MED. It is
expected that the voice data coming from the VoIP phone is tagged with
VLAN 0 or the voice VLAN and with the transmitted priority. Configure the
voice vlan data priority on the port to enable the switch to transmit the IEEE
802.1p or DSCP values to the phone in the LLDP-MED Network Policy TLV.
Regular data arriving on the switch is given the default priority of the port
(default 0) and the voice traffic is received with the priority assigned by the
phone, allowing the switch to provide distinguished service to the voice
traffic.
The switch can be configured to override the voice traffic CoS by entering an
internal ACL associated with the MAC address of the IP phone. Alternatively,
a diffserv policy can be configured for the voice VLAN which assigns voice
traffic to a queue and also remarks the CoS or DSCP values in the voice
Layer 2 Switching Commands 832
traffic. See the User Configuration Guide for more information. Voice VLAN
is recommended for enterprise-wide deployment of voice services on the IP
network.
Commands in this Section
This section explains the following commands:
voice vlan
This command is used to enable the voice VLAN capability on the switch.
Syntax
voice vlan
no voice vlan
Command Mode
Global Configuration
User Guidelines
Voice VLAN must be configured on access or general mode ports. It is not
supported on trunk mode ports.
Default Value
This feature is disabled by default.
Example
console(config)#voice vlan
console(config)#no voice vlan
voice vlan (Interface)
This command is used to enable the voice VLAN capability on the interface.
voice vlan voice vlan data priority
voice vlan (Interface) show voice vlan
Layer 2 Switching Commands 833
Syntax
voice vlan {vlan-id | dot1p priority | none | untagged | data priority {trust |
untrust} | auth { enable | disable} | dscp dscp}
no voice vlan
•auth
{ enable | disable}
—Enables/disables authentication on the voice
VLAN port.
•data priority
{trust | untrust}
—Respect (ignore) the priority of received
voice VLAN traffic (trusted mode). The interface may be configured to
trust the IEEE 802.1p priority tagged packets as assigned by the phone.
•dot1p—Configure the Voice VLAN 802.1p priority transmitted to the
phone via LLDP-MED. In this configuration, it is expected that data
traffic is received untagged on the native VLAN, and voice traffic is
received tagged with the assigned priority. Set the port to trust the received
data priority. The valid priority range is 0-7.
•dscp—Configure the DSCP value for voice traffic on the voice VLAN port.
(Range: 0–64). Data traffic is expected to use the default or native VLAN
on the port.
•none—Allow the IP phone to use its own configuration to send untagged
voice traffic.
•untagged—Configure the phone to send untagged voice traffic.
• vlan-id—The voice VLAN ID.
Default Configuration
The default DSCP value is 46. The default is tagged voice VLAN traffic. The
default data priority is to trust the received CoS value. The default auth value
is Enabled. No voice VLAN ID is configured by default. The default 802.1p
value is none.
Command Mode
Interface Configuration (Ethernet) mode.
User Guidelines
Voice VLAN must be configured on general or access mode ports. It is not
supported on trunk mode ports.
Layer 2 Switching Commands 834
Example
This example configures an interface to use VLAN 100 as the voice VLAN
and sends LLDP configuration in the Network Policy TLV to the phone to
assign VLAN 100 to 802.1p priority 5. The data priority is trusted by default.
console(config)#vlan 100
console(config-vlan100)#interface gi1/0/1
console(config-if-Gi1/0/1)#voice vlan 100
console(config-if-Gi1/0/1)#voice vlan dot1p 5
In this example, the IP phone will use its own configuration (no policy is sent
via LLDP).
console(config-if-Gi1/0/1)#voice vlan none
console(config-if-Gi1/0/1)#voice vlan untagged
Command History
Description updated in 6.3.0.5 release.
voice vlan data priority
This command is to either trust or not trust (untrust) the data traffic arriving
on the voice VLAN port.
Syntax
voice vlan data priority {trust | untrust}
•
trust —
Trust the IEEE 802.1p user priority contained in packets arriving
on the voice VLAN port.
•
untrust —
Do not trust the IEEE 802.1p user priority contained in packets
arriving on the voice VLAN port. This overrides the received value with the
configured 801.2p value. If a distinguished service for voice traffic is
required, an ACL or diffserv policy must be configured.
Command Mode
Interface Configuration
Default Value
trust
Layer 2 Switching Commands 835
Example
console(config)#interface gigabitethernet 1/0/1
console(config-if-Gi1/0/1)#voice vlan data priority untrust
console(config-if-Gi1/0/1)#voice vlan data priority trust
show voice vlan
This command displays information about the voice VLAN.
Syntax
show voice vlan [interface {gigabitethernet unit/slot/port |
tengigabitethernet unit/slot/port | fortygigabitethernet unit/slot/port}|all]
Command Mode
Privileged Exec, Global Configuration mode and all Configuration submodes
User Guidelines
• When the interface parameter is not specified, only the global mode of the
voice VLAN is displayed.
• When the interface parameter is specified, the following is displayed:
When the all parameter is used for the interface, all interfaces are displayed.
Output Description
Interface The interface ID.
Voice VLAN
Interface Mode
The admin mode of the voice VLAN on the interface.
Voice VLAN ID The voice VLAN ID.
Voice VLAN Priority The 802.1p priority for the voice VLAN on the port. This is only
displayed if configured.
Voice VLAN
Untagged
The tagging option for the voice VLAN traffic.
Voice VLAN COS
Override
The Override option for the voice traffic arriving on the port.
Voice VLAN Status The operational status of voice VLAN on the port.
Layer 2 Switching Commands 836
Example
(console)#show voice vlan interface gi1/0/1
Interface...................................... Gi1/0/1
Voice VLAN Interface Mode...................... Enabled
Voice VLAN Priority............................ 2
Voice VLAN COS Override........................ True
Voice VLAN DSCP Value.......................... 46
Voice VLAN Port Status......................... Disabled
Voice VLAN Authentication...................... Disabled
Security Commands 837
4
Security Commands
Dell EMC Networking N1100-ON/N1500/N2000/N2100-
ON/N3000/N3100-ON/N4000 Series Switches
Security commands enable network operators to administer security for
administrator access to the switch management console or web interface as
well as to configure restrictions of network access for network attached
devices.
This section of the document contains the following security commands:
AAA Commands Captive Portal Commands
Administrative Profiles Commands Denial of Service Commands
E-mail Alerting Commands Management ACL Commands
RADIUS Commands Password Management Commands
TACACS+ Commands SSH Commands
802.1x Commands
–
Security Commands 838
AAA Commands
Dell EMC Networking N1100-ON/N1500/N2000/N2100-
ON/N3000/N3100-ON/N4000 Series Switches
Dell EMC Networking switches support authentication of network users and
switch administrators via a number of methods. Management access to the
switch is via telnet, HTTP, SSH, or the serial console (SNMP access is
discussed in the SNMP Commands section). To ensure that only authorized
users can access or change the configuration of the switch, the administrator
can require that administrative access be authenticated.
Administrative Authentication
Switch administrators can be authenticated based on:
• Login mode
• Switch access method
• Access to Privileged Exec mode
• Two levels of access:
– 1 = Read-only
– 15 = Read-Write
The supported authentication methods for switch management access are:
• Local: The user's locally stored ID and password are used for
authentication.
• RADIUS: The user's ID and password are authenticated using the
RADIUS server.
• TACACS+: The user's ID and password are authenticated using the
TACACS+ server.
• None: No authentication is used.
• Enable: Uses the enable password for authentication.
• Line: Uses the line password for authentication.
• Authentication Preference Lists (APLs): An Authentication Preference List
is an ordered list of authentication methods.
Security Commands 839
To authenticate a switch administrator, the authentication methods in the
APL for the access line are attempted in order until an authentication
attempt returns a success or failure return code. If a method times out, the
next method in the list is attempted. The component requesting
authentication is unaware of the ultimate authentication source. If a method
in the preference list does not support the concept of time-out, subsequent
entries in the list are never attempted. For example, the local authentication
method implementation does not supply a time-out value. If a list contains
the local method, followed by the RADIUS authentication method, the
RADIUS method is not attempted.
Once an APL is created, a reference to that APL can be stored in the access
line configuration to determine how specific components should
authenticate users. The APL and associated component ID are stored
together. A single APL can be referenced by multiple methods.
The administrator can enable/disable/reorder authentication methods on a
per method basis (see above).
Administrative Accounting
The administrator may choose to account administrative activity on the
switch. The following accounting types are supported:
• User exec sessions: User login and logout times are noted and conveyed to
an external AAA server.
• User executed commands: Commands executed by the user and the time
of execution are accounted and conveyed to an external AAA server.
Administrator activity can be accounted for at the end and/or at the
beginning of the activity. For this purpose, the following record-types are
defined:
• Start-stop
Accounting notifications are sent when the administrator logs into the
switch and when the administrator exits exec mode. Accounting
notifications are also sent at the beginning and at the end of each
administrator executed command. Command execution does not wait for
the accounting notification to be recorded at the AAA server.
• Stop-only
Security Commands 840
Accounting notification is sent when the administrator exits exec mode.
The duration of the exec session is logged in the accounting notice.
Accounting notifications are sent at the end of each administrator
executed command. In the case of commands like reload, and clear config,
an exception is made and the stop accounting notice is sent at the
beginning of the command.
Accounting Method Lists
An Accounting Method List (AML) is an ordered list of accounting methods
that can be applied to the accounting types (exec or commands). Accounting
Method Lists are identified by the default keyword or by a user-defined name.
TACACS+ and RADIUS are supported as accounting methods.
TACACS+ accounts all accounting types (exec and commands). RADIUS
only accounts exec sessions.
Access Line Modes
AMLs can be applied to the following access line modes for accounting
purposes:
• Console: This mode is used when user logs in to the switch using serial
console.
• Telnet: This mode is used when user logs in through Telnet.
• SSH: This mode is used when user logs in through SSH.
By default, no accounting is enabled for any line Configuration modes.
The following default Accounting Methods List are available.
The default lists are not applied to any line-configuration modes by default.
See
Line Commands
for information on associating an accounting method
list (AML) to a login session (console, SSH, Telnet).
Default List Name Accounting Type Record Type Accounting Method
Default Exec List exec Start-stop TACACS+
Default Command List commands Stop-only TACACS+
Security Commands 841
Command Authorization
Dell EMC Networking switches support per command or enable
authorization using a TACACS server. See the authorization command in
this section for further information. Additionally, the RADIUS or TACACS
server can be configured to assign an administrative profile to a switch
administrator. The administrative profile identifies groups of commands
which may be executed by the administrator. See the Administrative Profiles
Commands section for further information on this capability.
Network Authentication
The network administrator can require that devices attached to the network
be authenticated prior to gaining access to network resources. This is most
often performed by the use of IEEE 802.1x in conjunction with a RADIUS or
TACACS authentication server. Dell EMC Networking switches support use
of RADIUS or TACACS authentication servers as well as a local, switch based,
authentication server. Refer to the RADIUS Commands section for
information on configuring a RADIUS server for authentication of network
devices. See the 802.1x Commands section for information on configuring
device access to network resources.
Dell EMC Networking switches support an internal authentication capability
that allows configuration of authentication preference lists for network
connected devices. The authentication preference lists support
authentication methods such as IEEE 802.1x, internal authentication, and no
authentication. MAC Authentication Bypass may be configured to allow
IEEE 802.1x unaware devices access to the network. Refer to the section
below for information on configuring authentication preference lists for
network device access.
Local 802.1x Authentication Server
The Dell EMC Networking switch supports a dedicated database for local
authentication of users for network access through the 802.1x feature. This
functionality is distinct from management access for the switch. See the
802.1x Commands section for information on configuring IEEE 802.1x access
to the network using an external authentication server.
Security Commands 842
The Internal Authentication Server feature provides support for the creation
of users for IEEE 802.1x access only, i.e. without switch management access.
This feature maintains a separate database of users allowed for 802.1x access.
The authentication method internal is available in the list of methods
supported by authentication to support user database lookup. The internal
method cannot be added in the same authentication list that has other
methods like local, radius and reject.
Whenever an operator configures a port in 802.1x authentication mode and
selects the authentication method as internal, then the user credentials
received from the 802.1x supplicant are validated against the user database by
the 802.1x component. The 802.1x application accesses the 802.1x user
database to check whether the user credentials present in the authentication
message corresponds to a valid user or not. If so then an event is generated
which triggers the 802.1x state machine to send a challenge to the supplicant.
Otherwise a failure is returned to the 802.1x state machine and the user is not
granted access to the port.
If user(s) credentials are changed, the existing user connection(s) are not
disturbed and the changed user(s) credentials are only used when a new EAP
request arises.
A CLI configuration mode is added in order to configure 802.1x users and
their attributes. The 802.1x maintained user database can also be exported
(uploaded) or imported (downloaded) to/from a central location using a
TFTP server. Use the aaa ias-user username command to add users to the
internal database.
MAC Authentication Bypass
Today, IEEE 802.1x has become the recommended port-based authentication
method at the access layer in enterprise networks. However, there may be
802.1x unaware devices such as printers, fax-machines, etc., that would
require access to the network without 802.1x authentication. MAC
Authentication Bypass (MAB) is a supplemental authentication mechanism
to allow 802.1x unaware clients to authenticate to the network. It uses the
802.1x infrastructure. MAB cannot be supported independently of the 802.1x
component.
Security Commands 843
MAC Authentication Bypass (MAB) provides 802.1x unaware clients
controlled access to the network using the devices’ MAC address as an
identifier. This requires that the known and allowable MAC address and
corresponding access rights be prepopulated in the authentication server.
MAB only works when the port control mode of the port is MAC-based.
Port access by MAB clients is allowed via local authentication if the user
database has corresponding entries added for the MAB clients with user name
and password attributes set to the MAC address of MAB clients. Alternatively,
a RADIUS authentication server can be configured with the MAC addresses
of the MAB clients. In this configuration, the switch uses EAP-MD5
authentication to communicate with the authentication server. No other
authentication or privacy protocol is supported for server side authentication.
Guest VLAN
The Guest VLAN feature allows a Dell EMC Networking switch to provide a
distinguished service to unauthenticated network devices (not rogue devices
that fail authentication). This feature provides a mechanism to allow network
devices to have network access to reach an external network while restricting
their ability to access the internal LAN.
When a client that does not support 802.1x is connected to an unauthorized
port that is 802.1x-enabled, the client does not respond to the 802.1x requests
from the switch. The port remains in the unauthorized state and the client is
not granted access to the network. If a guest VLAN is configured for that port,
then the port is placed in the configured guest VLAN, and the port is moved
to the authorized state, allowing network access to the client over the guest
VLAN.
Unauthenticated VLAN
The Unauthenticated VLAN feature allows a Dell EMC Networking switch to
provide a distinguished service to unauthorized network devices that attempt
and fail authentication. This feature provides a mechanism to allow network
devices to have network access to an external network while restricting their
ability to access the internal LAN.
When a client network device that supports 802.1x is connected to an
unauthorized port that is 802.1x enabled with no unauthenticated VLAN
configured and the client attempts and fails to authenticate, the port remains
Security Commands 844
in the unauthorized state and the client is not granted access to the network.
If an unauthenticated VLAN is configured for the port and the 802.1x client
fails to authenticate for the configured number of attempts, the port is placed
in the authorized state on the unauthenticated VLAN and the client is
granted access to the network. The default number of authentication
attempts is three.
Commands in this Section
This section explains the following commands:
aaa accounting
Use this command to create an accounting method list for User Exec
sessions, user-executed commands or 802.1X. The no version of the
command deletes the accounting method list.
aaa accounting authentication priority show aaa statistics
aaa authentication dot1x
default
authentication restart show accounting methods
aaa authentication enable clear (IAS) show authentication
aaa authentication login clear authentication
statistics
show authentication
authentication-history
aaa authorization clear authentication
authentication-history
show authentication
methods
aaa authorization network
default radius
enable password show authentication
statistics
aaa ias-user username ip http authentication show authorization methods
aaa new-model ip https authentication show users accounts
aaa server radius dynamic-
author
password (AAA IAS User
Configuration)
show users login-history
authentication enable password (User Exec) username
authentication order show aaa ias-users username unlock
Security Commands 845
Use the no form of the command to delete a list. A list may be identified by
the default keyword or a user-specified listname.
Use either the aaa accounting dot1x default none or no aaa accounting
dot1x default command to disable dot1x accounting.
Use the no aaa accounting exec or no aaa accounting commands to disable
aaa accounting and optionally delete an accounting method list.
Syntax
aaa accounting {exec | commands | dot1x} {default | list-name} {start-stop
| stop-only |none} [method1 [method2…]] {radius|tacacs|radius
tacacs|tacacs radius}
• exec—Provides accounting for a User Exec terminal sessions.
• commands—Provides accounting for all user executed commands.
• dot1x—Provides accounting for DOT1X user commands. Only the default
method is available for dot1x.
• default—The default list of methods for accounting services.
• list-name—Character string used to name the list of accounting methods.
• start-stop—Sends a start accounting notice at the beginning of a process,
and a stop accounting notice at the end of a process.
• stop-only—Sends a stop accounting notice at the end of the requested
user process.
• none—Disables accounting services on this line or for 802.1X.
• method—Use either TACACS or RADIUS server for accounting purposes.
Default Configuration
Accounting is not enabled by default.
Command Mode
Global Configuration
Security Commands 846
User Guidelines
This list is identified by default or a user-specified list_name. Accounting
records, when enabled for a line-mode, can be sent at both the beginning and
at the end (start-stop) or only at the end (stop-only). If none is specified,
accounting is disabled for the specified list. If tacacs is specified as the
accounting method, accounting records are notified to a TACACS+ server. If
radius is the specified accounting method, accounting records are notified to
a RADIUS server.
Please note the following:
• A maximum of five Accounting Method lists can be created for each exec
and commands type.
• Only the default Accounting Method list can be created for RADIUS.
There is no provision to create more.
• The same list-name can be used for both exec and commands accounting
type
• AAA Accounting for commands with RADIUS as the accounting method
is not supported.
• Start-stop or None are the only supported record types for RADIUS
accounting. Start-stop enables accounting and None disables accounting.
• RADIUS is the only accounting method type supported for RADIUS
accounting.
• For the same set of accounting type and list name, the administrator can
change the record type, or the methods list, without having to first delete
the previous configuration.
Example
The following shows an example of the command.
(console)#configure
(console-config)#aaa accounting commands default stop-only tacacs
(console-config)#aaa accounting exec default start-stop radius
(console-config)#aaa accounting dot1x default start-stop radius
(console-config)#aaa accounting dot1x default none
(console-config)#exit
For the same set of accounting type and list name, the administrator can
change the record type, or the methods list, without having to first delete the
previous configuration.
Security Commands 847
(console)#configure
(console-config)#aaa accounting exec ExecList stop-only tacacs
(console-config)#aaa accounting exec ExecList start-stop tacacs
(console-config)#aaa accounting exec ExecList start-stop tacacs radius
(console-config)#exit
The first aaa command creates a method list for exec sessions with the name
ExecList, with record-type as stop-only and the method as TACACS+. The
second command changes the record type to start-stop from stop-only for the
same method list. The third command, for the same list changes the methods
list to {tacacs,radius} from {tacacs}.
The following shows an example of the no version of the command.
(console)#configure
(console-config)#aaa accounting commands userCmdAudit stop-only tacacs
(console-config)#no aaa accounting commands userCmdAudit
(console-config)#exit
aaa authentication dot1x default
Use the aaa authentication dot1x default command in Global Configuration
mode to specify an authentication method for 802.1x clients to access
network resources. Use the no form of the command to return the
authentication method to its default settings.
Syntax
aaa authentication dot1x default {radius| ias|none}
no aaa authentication dot1x default
•radius—
Uses the RADIUS server(s) for authentication.
•ias—
Uses the internal authentication server. Only EAP-MD5 authentication is
supported for the internal authentication server.
•none—
Uses no authentication.
Default Configuration
No default authentication method is defined.
Command Mode
Global Configuration mode
Security Commands 848
User Guidelines
Only one authentication method may be specified in the command. For the
RADIUS authentication method, if the RADIUS server cannot be contacted,
the supplicant fails authentication. The none method always allows access.
the ias method utilizes the internal authentication server. The internal
authentication server only supports the EAP-MD5 method.
Example
The following example configures 802.1x authentication to use no
authentication. Absent any other configuration, this command allows all
802.1x users to pass traffic through the switch.
console(config)# aaa authentication dot1x default none
The following example configures 802.1x authentication to use a RADIUS
server. A RADIUS server must be configured previously using the radius-
server host auth command for the radius method to succeed.
console(config)#aaa authentication dot1x default radius
aaa authentication enable
Use the aaa authentication enable command in Global Configuration mode
to set authentication for accessing higher administrator privilege levels when
logged in to the switch console. To return to the default configuration, use
the no form of this command.
Syntax
aaa authentication enable {default | list-name} method1 [method2...]
no aaa authentication enable {default | list-name}
•default — Uses the listed authentication methods that follow this
argument as the default list of methods, when using higher privilege levels.
• list-name — Character string used to name the list of authentication
methods activated, when using access higher privilege levels. (Range: 1-15
characters)
• method1
[
method2...
]
— Specify at least one from the following table:
Security Commands 849
Default Configuration
The default enable list is enableList. It is used by console, telnet, and SSH
and only contains the method enable and none.
Command Mode
Global Configuration mode
User Guidelines
The default and optional list names created with the aaa authentication
enable command are used with the enable authentication command.
Create a list by entering the aaa authentication enable list-name method
command where list-name is any character string used to name this list. The
method argument identifies the list of methods that the authentication
algorithm tries in the given sequence.
The additional methods of authentication are used only if the previous
method returns an error, not if it fails to authenticate the administrator. Only
the RADIUS or TACACS methods can return an error. For example, if none is
specified as an authentication method after radius, no authentication is used
if the RADIUS server is down.
To ensure that the authentication succeeds even if all methods return an
error, specify none as the final method in the command line. Note that enable
will not succeed for a privilege level one administrator if no authentication
method is defined. A privilege level one administrator must authenticate to
get to Privileged Exec mode.
Keyword Source or destination
enable Uses the enable password for authentication.
line Uses the line password for authentication.
none Uses no authentication.
radius Uses the list of all RADIUS servers for authentication.
tacacs Uses the list of all TACACS+ servers for authentication.
Security Commands 850
NOTE: Requests sent by the switch to a RADIUS server include the username
“$enabx$”, where x is the requested privilege level in decimal. For enable to be
authenticated on Radius servers, add “$enabx$” users to them. The login user ID is
also sent to TACACS+ servers for enable authentication.
Example
The following example configures enable authentication to use the enable
method for accessing higher privilege levels.
console(config)#authentication enable
console(config)# aaa authentication enable default enable
aaa authentication login
Use the aaa authentication login command in Global Configuration mode to
create and enable the authentication method required for administrative
access to the switch. To return to the default configuration and optionally
delete an authentication list, use the no form of this command.
Syntax
aaa authentication login {default | list-name} method1 [method2...]
no aaa authentication login {default | list-name}
•default — Uses the listed authentication methods that follow this
argument as the default list of methods when an administrator logs in.
• list-name — Character string used to name the list of authentication
methods activated when an administrator logs in to the switch. (Range: 1-
15 characters)
• method1
[
method2...
]
— Specify at least one from the following table:
Keyword Source or destination
enable Use the enable password for authentication.
line Use the line password for authentication.
local Use the local username database for authentication.
none Use no authentication.
radius Use the list of all RADIUS servers for authentication.
Security Commands 851
Default Configuration
The default login lists are defaultList and networkList. defaultList is used by
the console and only contains the method none. networkList is used by telnet
and SSH and only contains the method local.
Command Mode
Global Configuration mode
User Guidelines
The default and optional list names created with the aaa authentication
login command are used with the login authentication command. Create a
list by entering the aaa authentication login list-name method command for
a particular protocol, where list-name is any character string used to name
this list. The method argument identifies the list of methods that the
authentication algorithm tries, in the given sequence.
The additional methods of authentication are attempted only if the previous
method returns an error, not if there is an authentication failure. Only the
RADIUS, TACACS+, local and enable methods can return an error. To
ensure that authentication succeeds even if all methods return an error,
specify none as the final method in the command line. For example, if none is
specified as an authentication method after radius, no authentication is used
if the RADIUS server is down. If specified, none must be the last method in
the list.
NOTE: Auth-Type:=Local does not work for recent versions of FreeRadius.
FreeRadius ignores the configuration if Local is used. Administrators should remove
Auth-Type=Local and use the PAP or CHAP modules instead.
Example
The following example configures the default authentication login to attempt
RADIUS authentication, then local authentication, then enable
authentication, and then, if all the previous methods returned an error, allows
the administrator access to the switch console (via the none method).
console(config)# aaa authentication login default radius local enable none
tacacs Use the list of all TACACS+ servers for authentication.
Keyword Source or destination
Security Commands 852
aaa authorization
Use the aaa authorization command to enable authorization and optionally
create an authorization method list. A list may be identified by a user-
specified list-name or the keyword default.
Use the no form of the command to disable authorization and optionally
delete an authorization list.
Syntax
aaa authorization {commands|exec|network}{default|list-name} method1
[method2]
no aaa authorization {commands|exec|network} {default|list-name}
•exec—
Provides Exec authorization. All methods are supported.
•commands—
Performs authorization of user commands. Only none and
TACACs methods are supported.
•network—
Performs RADIUS authorization. Only the default list is
supported.
• default—
The default list of methods for authorization services
. The list
dfltCmdAuthList is the default list for command authorization and the
list dfltExecAuthList is the default list for Exec authorization.
• list-name—
Character string used to name the list of authorization
methods. The list name can consist of any alphanumeric character up to
15 characters in length. Use quotes around the list name if embedded
blanks are contained in the list name.
•method—The following authorization methods are supported:
– local—Perform local authorization.
– none—Do not perform authorization. All functions are authorized.
– radius—Request authorization from the configured RADIUS servers.
– tacacs—Request authorization from the configured TACACS+
servers.
Default Configuration
When authorization is enabled, the switch attempts to authorize the listed
function using the configured method.
Security Commands 853
Authorization is not enabled by default. Authorization supports Exec
authorization and network authorization for RADIUS. Only TACACS is
supported for command authorization. Setting a none or local method for
authorization authorizes Exec access for all functions.
The following default Authorization Methods List is present by default:
Command Mode
Global Configuration mode
User Guidelines
A maximum of five authorization method lists may be created for exec and
command types. The default methods may not be deleted.
When command authorization is configured for a line mode, the switch
sends information about the entered command to the AAA server. The AAA
server validates the received command and responds with a PASS or FAIL. If a
PASS response is received, the command is executed. If a FAIL response is
received, the command is not executed and a message is displayed to the user.
Command authorization attempts authorization for all Exec mode
commands associated with a privilege level, including global configuration
commands. Exec authorization attempts authorization when a user attempts
to enter Privileged Exec mode.
When exec authorization is configured for a line mode, the use may not be
required to use the enable command to enter Privileged Exec mode. If the
authorization response indicates the user has privileges for Privileged Exec
mode, then the switch bypasses User Exec mode entirely.
If multiple authorization methods are listed, the switch will attempt
communication with each method in order, until successful communication
is established or all methods in the list have been tried. If authorization fails,
then the command is denied and no further attempts at authorization are
made for the user request.
Default List Name Description Authorization Method
dfltCmdAuthList Default Command List None
dfltExecAuthList Default Exec list None
Security Commands 854
If no authorization server is available or configured, the function is denied
unless the none method is configured in the list. If authorization is
configured on the console, this can lead to situations where the console
denies administrative access. Therefore, it is recommended that the console
authorization only be enabled with due regard to the risks involved. If none is
configured as the last method after radius or tacacs, no authorization is
performed if the RADIUS/TACACS servers are down.
The various utility commands like tftp, ping, outbound telnet also must pass
command authorization. Applying a script is treated as a single command
apply script which also must pass authorization. Startup-config commands
applied on device boot-up are not subject to the authorization process.
Refer to the Line Commands section for information on configured an
authorization method for a particular type of line access.
Example
Per command authorization example for telnet access using TACACS:
Configure the Authorization Method list.
console(config)#aaa authorization commands telnet-list tacacs
Apply the AML to an access line mode (telnet):
console(config)#line telnet
console(config-telnet)#authorization commands telnet-list
Exec authorization example for SSH using RADIUS with a fallback to the
none method:
Configure the Authorization Method list.
Method Notes
Local The local method is not supported for command authorization.
This method is equivalent to selecting the none method when
used for Exec authorization.
TACACS Selects TACACS for command or exec authorization.
None Selecting the none method authorizes all commands. This
option is valid for both command and Exec authorization.
RADIUS The radius method is valid for Exec authorization and Network
authorization. Network and Exec authorization with RADIUS
will work only if the applied authentication method is radius.
Security Commands 855
console(config)#aaa authorization exec exec-list radius none
Apply the AML to an access line mode (SSH):
console(config)#line ssh
console(config-ssh)#authorization exec exec-list
Display the authorization methods:
console#show authorization methods
Exec Authorization List Methods
---------------------------- ------------------------------
dfltExecAuthList none
exec-list radius none
Command Authorization List Methods
---------------------------- ------------------------------
dfltCmdAuthList none
telnet-list tacacs
Line Exec Method Lists Command Method Lists
--------- --------------------- ---------------------
Console dfltExecAuthList dfltCmdAuthList
Telnet dfltExecAuthList telnet-list
SSH exec-list dfltCmdAuthList
Network Authorization Methods
---------------------- -------
Dot1x none
aaa authorization network default radius
Use the aaa authorization network default radius command in Global
Configuration mode to enable the switch to accept VLAN assignment by the
RADIUS server.
Syntax
aaa authorization network default radius
no aaa authorization network default radius
Default Configuration
By default, the switch does not accept VLAN assignments by the RADIUS
server.
Security Commands 856
Command Mode
Global Configuration mode
User Guidelines
The RADIUS server can place a port in a particular VLAN based on the result
of the authentication. VLAN assignment must be configured on the external
RADIUS server using the RADIUS TUNNEL-TYPE attribute and others. See
RADIUS Commands
and
Security Commands
for further information.
Example
The following example enables RADIUS-assigned VLANs.
console(config)#aaa authorization network default radius
aaa ias-user username
Use the aaa ias-user username command in Global Configuration mode to
configure IAS users and their attributes. Username and password attributes
are supported. The ias-user name is composed of up to 64 alphanumeric
characters. This command also changes the mode to a user Configuration
mode. Use the no form of this command to remove the user from the internal
user database.
Syntax
aaa ias-user username user
no aaa ias-user username user
Default Configuration
This command has no default configuration.
Command Mode
Global Configuration
User Guidelines
This command has no user guidelines.
Security Commands 857
Examples
console#configure
console(config)#aaa ias-user username client-1
console(config-ias-user)#exit
console(config)#no aaa ias-user username client-1
aaa new-model
The aaa new-model command in Global Configuration mode is a no-op
command. It is present only for compatibility purposes. Dell EMC
Networking switches only support the new model command set.
Syntax
aaa new-model
Default Configuration
This command has no default configuration.
Command Mode
Global Configuration mode
User Guidelines
There are no user guidelines for this command.
Example
The following example configures the switch to use the new model command
set.
(config)# aaa new-model
aaa server radius dynamic-author
Use this command to enter dynamic RADIUS server configuration mode.
Syntax
aaa server radius dynamic-author
Security Commands 858
Default Configuration
By default, no dynamic RADIUS servers are configured.
Command Mode
Global Configuration
User Guidelines
Configuring a dynamic RADIUS server causes the system to begin listening
on the default port 3799 for RADIUS CoA requests. The switch ensures that a
unique Acct-Session-Id and the Calling-Station-Id is sent to the RADIUS
server in all Access-Request packets. The Acct-Session-Id and Calling-
Station-Id identifiers are maintained in the switch. CoA-Request requests
must use the Acct-Session-Id or Calling-Station-Id or both for presentation to
the NAS for subsequent CoA requests.
A valid authenticated RFC 3575 Disconnect-Request terminates the session
without disabling the port. The termination may cause the host to attempt to
re-authenticate on the port. If an ACL was applied for the session (i.e., for
MAB), the ACL is removed when the session is terminated.
If a valid authenticated RFC 3575 Disconnect-Request request is received
from a configured server and the session cannot be found, the switch returns a
CoA-NAK message with the 503 Session Context Not Found response code.
If it expected that more than one session will authenticate over a port, use of
MAC based authentication is recommended. If MAC based authentication is
enabled, the user is denied access to the port even if a previous authentication
has occurred on the port.
Command History
Introduced in version 6.2.0.1 firmware.
Example
The following example configures RADIUS servers at 1.1.1.1, 2.2.2.2, and
3.3.3.3 and CoA clients at 4.4.4.4 and 5.5.5.5. It sets the front panel ports to
use 802.1x MAC-based authentication. CoA is configured for two dynamic
RADIUS servers located at 1.1.1.1 and 2.2.2.2 using a global shared secret and
a third server using a server specific shared secret. CoA and disconnect
requests are accepted from the CoA clients at 4.4.4.4 and 5.5.5.5. Any
Security Commands 859
authentication type is allowed for CoA and disconnect requests. In this
example, the NAS-IP-Address is optionally configured at the fixed IPv4
address of 3.3.3.3. CoA client 5.5.5.5 uses the global server key while client
4.4.4.4 uses a client-specific server key.
console#configure terminal
console(config)# aaa new-model
console(config)# aaa authentication dot1x default radius
console(config)# dot1x system-auth-control
console(config)# interface range gi1/0/1-24
console(config-if)# dot1x port-control mac-based
console(config-if)# exit
console(config)# radius-server host 1.1.1.1
console(Config-radius)#primary
console(Config-radius)#exit
console(config)# radius-server host 2.2.2.2
console(Config-radius)#exit
console(config)# radius-server host 3.3.3.3
console(Config-radius)#key “That’s your secret.”
console(Config-radius)#exit
console(config)# radius-server key “Keep it. Keep it.”
console(config)# aaa server radius dynamic-author
console(config-radius-da)# client 4.4.4.4 server-key 0 “That’s your secret.”
console(config-radius-da)# client 5.5.5.5
console(config-radius-da)# server-key 0 “Keep it. Keep it.”
console(config-radius-da)# port 3799
console(config-radius-da)# auth-type any
console(config-radius-da)# exit
console(config)#radius-server attribute 4 3.3.3.3
console(config)#dot1x system-auth-control
console(config)#exit
console#dot1x initialize
authentication enable
Use this command to globally enable the Authentication Manager. Interface
configuration set with the authentication order command takes effect only if
the Authentication Manager is enabled.
Use the no form of this command to disable the Authentication Manager.
Syntax
authentication enable
no authentication enable
Security Commands 860
Default Configuration
The default value is Disabled.
Command Mode
Global Configuration mode
User Guidelines
The administrator must ensure that any methods configured by the
Authentication Manager are enabled (e.g. enable IEEE 802.1x using the
dot1x system-auth-control command). Enable MAB using the dot1x mac-
auth-bypass command.
Example
console(config)# authentication enable
authentication order
This command sets the order of authentication methods used on a port. The
available authentication methods are Dot1x, MAB, and captive portal.
Ordering sets the order of methods that the switch attempts when trying to
authenticate a new device connected to a port. If one method is unsuccessful
or timed out, the next method is attempted.
Use the no form of this command to return the port to the default
authentication order.
Syntax
authentication order {dot1x [mab][captive-portal] | mab [dot1x] [captive-
portal] | captive-portal}
no authentication order
Default Configuration
There is no default configuration for this command.
Command Modes
Interface Configuration (Ethernet) mode
Security Commands 861
User Guidelines
Each method can only be entered once. Ordering is only possible between
802.1x and MAB. Captive portal can be configured either as a stand-alone
method or as the last method in the order.
Example
console(config-if-Gi1/0/1)# authentication order dot1x mab captive-portal
console(config-if-Gi1/0/1)# no authentication order
authentication priority
Use this command to set the priority for the authentication methods used on
a port. The available authentication methods are Dot1x, MAB, and captive
portal. The authentication priority decides if a previously authenticated client
is re-authenticated with a higher-priority method when the same is received.
Captive portal is always the last method in the list.
Use the no form of this command to return the port to the default order of
priority for the authentication methods.
Syntax
authentication priority {[dot1x|mab|captive-portal] [mab|dot1x|captive-
portal] [mab|dot1x|captive-portal]}
no authentication priority
Default Configuration
There is no default configuration for this command.
Command Modes
Interface Configuration (Ethernet) mode.
User Guidelines
Each method can only be entered once. There are no restrictions on the
priority ordering of methods.
Security Commands 862
Example
console(config-if-Gi1/0/1)# authentication priority mab dot1x captive-portal
console(config-if-Gi1/0/1)# no authentication priority
authentication restart
Use this command to set the interval after which reauthentication starts. This
timer starts only if all the authentication methods fail.
Use the no form of this command to set the authentication restart timer to
factory default value.
Syntax
authentication restart time
no authentication restart
•
time
—The time, in seconds, after which reauthentication starts, if all the
authentication methods have failed. Range: 300-65535.
Default Configuration
The default timer value is 300 seconds.
Command Modes
Interface Configuration (Ethernet) mode
User Guidelines
None
Example
console(config-if-Gi1/0/1)# authentication restart 1800
console(config-if-Gi1/0/1)# no authentication restart
clear (IAS)
Use the clear aaa ias-users command to delete all IAS users.
Security Commands 863
Syntax
clear aaa ias-users
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode
User Guidelines
There are no user guidelines for this command.
Example
console#clear aaa ias-users
clear authentication statistics
Use this command to clear the authentication statistics.
Syntax
clear authentication statistics {interface-id | all}
Default Configuration
There is no default configuration for this command.
Command Modes
Privileged Exec mode
User Guidelines
There are no user guidelines for this command.
Example
console(config)# clear authentication statistics Gi1/0/1
Are you sure you want to clear authentication manager port stats? (y/n)
Security Commands 864
clear authentication authentication-history
Use this command to clear the authentication history logs.
Syntax
clear authentication authentication-history {interface-id | all}
• interface-id—The interface.
•all—All interfaces.
Default Configuration
There is no default configuration for this command.
Command Modes
Privileged Exec mode
User Guidelines
None
Example
console(config)# clear authentication authentication-history Gi1/0/1
enable password
Use the enable password command in Global Configuration mode to set a
local password to control access to the privileged Exec mode. To remove the
password requirement, use the no form of this command.
Syntax
enable password password [encrypted]
no enable password
• password — Password for this level (Range: 8- 64 characters). The special
characters allowed in the password include ! # $ % & ‘ " ( ) * + , - .
/ : ; < = > @ [ \ ] ^ _ ` { | } ~. User names can contain blanks
if the name is surrounded by double quotes. To use the ! character as part
of the username or password string, it should be enclosed within quotation
marks. For example, username “test!xyz” password “test!xyz”.
Security Commands 865
•encrypted — Encrypted password entered, copied from another switch
configuration.
Default Configuration
This command has no default configuration.
Command Mode
Global Configuration mode
User Guidelines
The Dell EMC Networking firmware emulates industry standard behavior for
enable mode authentication over SSH and telnet. The default enable
authentication method for telnet and SSH uses the enableNetList method,
which requires an enable password. If users are unable to enter privileged
mode when accessing the switch via telnet or SSH, the administrator will
need to either change the enable authentication method, e.g. to enableList,
or set an enable password. If the encrypted parameter is specified, the
password parameter is stored as entered in the running-config. No attempt is
made to decode the encrypted password. To use the ! character as part of the
username or password string, it should be enclosed within quotation marks.
For example, username “test!xyz” password “test!xyz”.
Example
The following example defines password “xxxyyyzzz” to control access to user
and privilege levels.
console(config)# enable password xxxyyyzzz
ip http authentication
Use the ip http authentication command in Global Configuration mode to
specify authentication methods for http server users. To return to the default,
use the no form of this command.
Syntax
ip http authentication method1 [method2...]
no ip http authentication
Security Commands 866
• method1
[
method2...
]
— Specify at least one from the following table:
Default Configuration
The local user database is checked. This action has the same effect as the
command ip http authentication local.
Command Mode
Global Configuration mode
User Guidelines
The additional methods of authentication are used only if the previous
method returns an error, not if it fails. To ensure that the authentication
succeeds even if all methods return an error, specify none as the final method
in the command line. For example, if none is specified as an authentication
method after radius, no authentication is used if the RADIUS server is down.
Example
The following example configures the http authentication.
console(config)# ip http authentication radius local
ip https authentication
Use the ip https authentication command in Global Configuration mode to
specify authentication methods for users authenticating over HTTPS. To
return to the default configuration, use the no form of this command.
Syntax
ip https authentication method1 [method2...]
no ip https authentication
Keyword Source or destination
local Uses the local username database for authentication.
none Uses no authentication.
radius Uses the list of all RADIUS servers for authentication.
tacacs Uses the list of all TACACS+ servers for authentication.
Security Commands 867
• method1 [method2...] — Specify at least one from the following table:
Default Configuration
The local user database is checked. This action has the same effect as the
command ip https authentication local.
Command Mode
Global Configuration mode
User Guidelines
The additional methods of authentication are used only if the previous
method returns an error, not if it fails. To ensure that the authentication
succeeds even if all methods return an error, specify none as the final method
in the command line. If none is specified as an authentication method after
radius, no authentication is used if the RADIUS server is down.
When using a Cisco ACS with TACACS+ as the authentication method for
HTTPS, the Cisco ACS must be configured to allow the shell service. In
addition, for admin privileges, the privilege level attribute must be set to 15.
Example
The following example configures HTTPS authentication.
console(config)# ip https authentication radius local
Keyword Source or destination
local Uses the local username database for authentication.
none Uses no authentication.
radius Uses the list of all RADIUS servers for authentication.
tacacs Uses the list of all TACACS+ servers for authentication.
Security Commands 868
password (AAA IAS User Configuration)
Use the password command in aaa IAS User Configuration mode to configure
a password for an IAS user. The password is composed of up to 64
alphanumeric characters. An optional parameter [encrypted] is provided to
indicate that the password given to the command is already pre-encrypted. To
clear the user’s password, use the no form of this command.
Syntax
password password [encrypted]
no password
• password — Password for this level. (Range: 1- 64 characters)
•encrypted — Encrypted password to be entered, copied from another
switch configuration.
Default Configuration
This command has no default configuration.
Command Mode
AAA IAS User Configuration
User Guidelines
IAS user accounts are distinct from user (administrator) accounts. IAS
accounts give access to network resources (via 802.1X or MAB), whereas user
accounts give administrative access to the switch.
Example
console#configure
console(config)#aaa ias-user username client-1
console(config-ias-user)#password client123
console(config-ias-user)#no password
The following is an example of adding a MAB Client to the IAS user database
with MAC address f81f.3ccc.b157. Be sure to enter the password in upper case
letters or authentication will fail with an “MD5 Validation Failure” as the
password hash does not match.
console#configure
console(config)#aaa ias-user username f81f3cccb157
Security Commands 869
console(config-ias-user)#password F81F3CCCB157
console(config-ias-user)#exit
console(config)#
password (User Exec)
Use the password command in User Exec mode to allow a currently logged in
user to change the user password without having read/write privileges. This
command should be used after the password has aged. The user is prompted
to enter the old password and the new password.
The special characters
allowed in the password include ! # $ % & ‘ ( ) * + , - . / : ; < = > @
[ \ ] ^ _ ` { | } ~. User names can contain blanks if the name is
surrounded by double quotes.
NOTE: For commands that configure password properties, see
Password
Management Commands
.
Syntax
password
Default Configuration
There is no default configuration for this command.
Command Mode
User Exec mode
User Guidelines
This command configures the password for a switch administrative user.
Example
The following example shows the prompt sequence for executing the
password command.
console>password
Enter old password:********
Enter new password:********
Confirm new password:********
Security Commands 870
show aaa ias-users
Use the show aaa ias-users command to display configured IAS users and
their attributes. Passwords configured are not shown in the show command
output.
Syntax
show aaa ias-users
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec, Global Configuration mode and all Configuration submodes
User Guidelines
IAS users are distinct from switch administrative users. IAS users are allowed
access to network resources.
Example
console#show aaa ias-users
UserName
-------------------
Client-1
Client-2
show aaa statistics
Use the show aaa statistics command to display accounting statistics.
Syntax
show aaa statistics
Default Configuration
This command has no default setting.
Security Commands 871
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
This command has no user guidelines.
Examples
console#show aaa statistics
Number of Accounting Notifications sent at beginning of an Exec session: 0
Errors when sending Accounting Notifications beginning of an Exec session: 0
Number of Accounting Notifications sent at end of an Exec session: 0
Errors when sending Accounting Notifications at end of an Exec session: 0
Number of Accounting Notifications sent at beginning of a command execution: 0
Errors when sending Accounting Notifications at beginning of a command execution: 0
Number of Accounting Notifications sent at end of a command execution: 0
Errors when sending Accounting Notifications at end of a command execution: 0
show accounting methods
Use the show accounting methods command to display the configured
accounting method lists.
Syntax
show accounting methods
Default Configuration
This command has no default setting.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
This command has no user guidelines.
Examples
console#show accounting methods
AcctType MethodName MethodType Method1 Method2
Security Commands 872
------------------------------------------------------------------
Exec dfltExecList start-stop tacacs
Commands dfltCmdList stop-only tacacs
Dot1x dfltDot1xList start-stop
Line EXEC Method List Command Method List
-------------------------------------------------
Console none none
Telnet none none
SSH none none
Command History
Example updated in the 6.4 release.
show authentication
Use this command to list the authentication methods configured on the
interface and display if the Tiered Authentication feature is enabled.
Syntax
show authentication [interface {interface-id | all}]
• interface-id—The physical interface.
•all—All interfaces.
Default Configuration
There is no default configuration for this command.
Command Modes
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
This command has no user guidelines.
Example
console# show authentication
Tiered Authentication.......................... Enabled
Security Commands 873
console# show authentication interface gi1/0/1
Port........................................... Gi1/0/1
Authentication Restart timer................... 300
Configured method order........................ dot1x mab captive-portal
Enabled method order........................... dot1x mab undefined
Configured method priority..................... undefined undefined
undefined
Enabled method priority........................ undefined undefined
undefined
Number of authenticated clients................ 1
Logical Interface.............................. 0
client mac addr:............................... 00:00:00:00:00:01
Authenticated Method:.......................... dot1x
Auth State..................................... success
Auth Status.................................... Authenticated
show authentication authentication-history
Use this command to display the authentication history on one or more
interfaces.
Syntax
show authentication authentication-history {interface-id | all}
• interface-id—Any physical interface.
Default Configuration
There is no default configuration for this command.
Command Modes
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
This command has no user guidelines.
Example
console#show authentication authentication-history gi1/0/1
Time Stamp Interface MAC-Address Auth Status Method
Security Commands 874
--------------------- --------- ----------------- ------------ ------
Jul 21 1919 15:06:15 Gi1/0/1 00:00:00:00:00:01 Authorized 802.1x
show authentication methods
Use the show authentication methods command to display information
about the authentication methods.
Syntax
show authentication methods
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
This command has no user guidelines.
Example
The following example displays the authentication configuration.
console#show authentication methods
Login Authentication Method Lists
---------------------------------
defaultList : none
networkList : local
Enable Authentication Method Lists
----------------------------------
enableList : enable none
enableNetList : enable
Line Login Method List Enable Method List
------- ----------------- ------------------
Console defaultList enableList
Telnet networkList enableNetList
Security Commands 875
SSH networkList enableNetList
HTTPS :local
HTTP :local
DOT1X :
show authentication statistics
Use this command to display the Authentication Manager statistics on one or
more interfaces.
Syntax
show authentication statistics interface-id
• interface-id—The physical interface.
Default Configuration
There is no default configuration for this command.
Command Modes
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
This command has no user guidelines.
Example
config# show authentication statistics gi1/0/1
Port........................................... Gi1/0/1
802.1x attempts................................ 1
802.1x failed attempts......................... 0
Mab attempts................................... 0
Mab failed attempts............................ 0
Captive-portal attempts........................ 0
Captive-Portal failed attempts................. 0
Security Commands 876
show authorization methods
Use the show authorization methods command to display the configured
authorization method lists.
Syntax
show authorization methods
Default Configuration
This command has no default setting.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
Command authorization is supported only for the line, telnet, and SSH
access methods.
Example
console#show authorization methods
Exec Authorization List Methods
---------------------------- ------------------------------
dfltExecAuthList none
Command Authorization List Methods
---------------------------- ------------------------------
dfltCmdAuthList none
Line Exec Method Lists Command Method Lists
--------- --------------------- ---------------------
Console dfltExecAuthList dfltCmdAuthList
Telnet dfltExecAuthList dfltCmdAuthList
SSH dfltExecAuthList dfltCmdAuthList
Network Authorization Methods
---------------------- -------
Dot1x radius
Security Commands 877
show users accounts
Use the show users accounts command to display the local user status with
respect to user account lockout and password aging.
Syntax
show users accounts
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
User accounts are distinct from the IAS user accounts. IAS users are allowed
access to network resources when authenticating via AAA. User accounts are
switch administrators allowed access to the switch administrator console.
The following fields are displayed by this command.
Example
The following example displays information about the local user database.
Parameter Description
UserName Local user account’s user name.
Privilege User’s access level (read only-1 or
read/write-15). Use level 0 to block a
user’s access.
Password Aging Indicates whether password aging is
enabled and the password aging period.
Password Expiry Date Current password expiration date in date
format.
Lockout Displays the user’s lockout status (True or
False).
Security Commands 878
console(config)#show users accounts
UserName Privilege Password Password Lockout
Aging Expiry date
------------------------ --------- -------- -------------------- --------
admin 15 200 Jan 13 1915 00:32:12 False
Administrative Profile(s):
show users login-history
Use the show users login-history command in Global Configuration mode to
display information about the login history of users.
Syntax
show users login-history [username|long]
• username — name of user. (Range: 1-64 characters)
• long — display only the user login name
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
This command displays switch administrative user information.
Example
The following example shows user login history outputs.
console#show users login-history
Login Time Username Protocol Location
-------------------- --------- --------- -----------
Jan 19 2005 08:23:48 Bob Serial
Jan 19 2005 08:29:29 Robert HTTP 172.16.0.8
Jan 19 2005 08:42:31 John SSH 172.16.0.1
Jan 19 2005 08:49:52 Betty Telnet 172.16.1.7
Security Commands 879
Command History
Syntax updated in 6.4 release.
username
Use the username command in Global Configuration mode to add a new user
to the local user (switch administrator) database. The default privilege level is
1. The command optionally allows the specification of an Administrative
Profile for a local user.
Use the no form of this command to remove the username from the local user
database.
Syntax
username name {nopassword|password password} [privilege level|admin-
profile profile] [encrypted]
no username name
• name—The name of the user. Range: 1-64 printable characters. The
special characters allowed in the username include ! # $ % & ‘ ( ) * +
, - . / : ; < = > @ [ \ ] ^ _ ` { | } ~. Question marks are
disallowed.User names can contain blanks if the name is surrounded by
double quotes.
•
password
—The authentication password for the user. Range: 8-64
characters. This value can be 0 [zero] if the no passwords min-length
command has been executed. The special characters allowed in the
password include ! # $ % & ‘ ( ) * + , - . / : ; < = > @ [ \ ] ^
_ ` { | } ~. Question marks are disallowed.
•
level
—The user’s privilege level. Level 0 can be assigned by a level 15 user
to another user to restrict that user’s access to configuration commands.
Supported access levels are 0, 1, or 15. Enter access level 0 to restrict the
user’s access, 1 for Read Access, or 15 for Read/Write Access.
•
nopassword—
Configure a switch administrator with no password. Note
that the SSH is configured to require a password to access the switch. Use
of a password for administrative access is highly recommended.
•
profile
—
The name of the administrative profile(s) to apply to this user.
An administrative profile is mutually exclusive with a privilege level.
Security Commands 880
•encrypted—
Encrypted password entered, copied from another switch
configuration. Password strength checking is not applied to the encrypted
string.
Default Configuration
The default privilege level is 1.
Command Mode
Global Configuration mode
User Guidelines
To use the ! character as part of the username or password string, it should be
enclosed within quotation marks. For example, username “test!xyz” password
“test!xyz” includes an exclamation point in both the username and password.
Up to 8 users may be created. If the password strength feature is enabled, it
checks for password strength and returns an appropriate error if it fails to
meet the password strength criteria. If the encrypted keyword is entered, no
password strength checking is performed as the password is encrypted and the
system does not have the capability of decrypting the password. Privilege level
0 is restricted from using Privileged Exec or any Configuration level
commands. There is effectively no difference between Privilege level
1 and 15.
The following table lists the completion messages.
Message Type Message Description
Successful Completion Message No message is displayed.
Error Completion Message Could not set user password!
Security Commands 881
Example
The following example configures user bob with password xxxyymmmm and
user level 15.
console(config)# username bob password ?
<password> Enter the password. The special characters allowed in the
password include ~ ` ! @ # $ % ^ & * ( ) _ - + = [ ] { } \ | : ; ' < > . , /.
console(config)# username bob password xxxyyymmm privilege 15
username unlock
Use the username unlock command in Global Configuration mode to unlock
a locked user account. Only a user with read/write access can reactivate a
locked user account.
Syntax
username username unlock
Reason behind the failure 1
Exceeds Minimum Length of a Password.
Password should be in the range of 8-64
characters in length. Set minimum password
length to 0 by using the passwords min-length
0 command.
2
Password should contain Minimum
<number> uppercase-letters,
<number> lowercase-letters, <number>
numeric numbers,
<number> special characters and
<number> character classes and
Maximum limit of <number> consecutive
alphabetic and numeric
characters.
Maximum repetition of <number>
alphabetic and number characters.
3
Password should not contain the
keywords <keyword1>, <keyword2>
and <keyword3> in any form (reversed,
substring or case-insensitive).
Message Type Message Description
Security Commands 882
Default Configuration
This command has no default configuration.
Command Mode
Global Configuration mode
User Guidelines
This command applies to switch administrator accounts.
Privilege level 0 is restricted from using Privileged Exec or any Configuration-
level commands. There is effectively no difference between privilege level 1
and 15.
Security Commands 883
Administrative Profiles Commands
Dell EMC Networking N1100-ON/N1500/N2000/N2100-
ON/N3000/N3100-ON/N4000 Series Switches
The administrative profiles capability provides the network administrator
control over which commands a user (switch administrator) is allowed to
execute. The administrator is able to group commands into a “profile” and
assign a profile to a user upon authentication. This provides more granularity
than simply allowing read-only and read-write users. It may be, for example,
that a particular user is only allowed to manage the Captive Portal feature but
not allowed to manage any other of the switch features.
This capability is similar to the industry standard “User Roles” feature. The
main difference is that the Administrative Profile is obtained via
authentication rather than via authorization. This was necessary because Dell
EMC Networking does not support AAA authorization of users.
Functionally, the Administrative Profiles feature allows the network
administrator to define a list of rules which control the commands which may
be executed by a user. These rules are collected in a “profile.” A rule defines a
set of commands to which a user is permitted or denied access. Alternatively,
a rule may define a CLI command mode to which the user is permitted or
denied access. The rule numbers determine the order in which the rules are
applied: Rules are applied in descending numerical order until there is a
match. Rules may use regular expressions for command matching. All profiles
have an implicit “deny all” rule such that any command which does not
match any rules in the profile is considered to have been denied by that
profile.
It is possible to assign a user more than one profile. If there are conflicting
rules in profiles, the “permit” rule always takes precedence over the “deny”
rule, i.e., if any profile assigned to a user permits a command, then the user is
permitted access to that command. A user may be assigned up to 16 profiles.
A number of profiles are provided by default. These profiles may not be
altered by the switch administrator.
If the successful authentication method does not provide an Administrative
Profile for a user, then the user is permitted access based upon the user’s
privilege level (as in previous releases). This means that if a user successfully
Security Commands 884
passes enable authentication, the user is permitted access to all commands.
This is also true if none of the Administrative Profiles provided are configured
on the switch.
RADIUS and TACACS+
The network administrator may configure a custom attribute to be provided
by the server during authentication. The RADIUS and TACACS+
applications process this custom attribute and provide this data to the User
Manager for configuring the user profile.
The custom attribute is defined as:
cisco-av-pair=shell:roles=”roleA roleB …”
Commands in this Section
This section explains the following commands:
admin-profile
Use the admin-profile command in Global Configuration mode to create an
administrative profile. The system-defined administrative profiles cannot be
deleted. When creating a profile, the user is placed into Administrative
Profile Configuration mode.
Use the no form of the command to delete an administrative profile and all
its rules.
Syntax
admin-profile profile-name
no admin-profile profile-name
• profile-name—The name of the profile to create or delete. Range: 1 to 16
alphanumeric characters – may also include a hyphen.
admin-profile show admin-profiles
description (Administrative Profile
Configuration)
show admin-profiles brief
rule show cli modes
Security Commands 885
Default Configuration
The administrative profiles are defined by default.
Command Mode
Global Configuration mode
User Guidelines
This command has no user guidelines.
Example
console(config)#admin-profile qos
console(admin-profile)#
description (Administrative Profile Configuration)
Use the description command in Administrative Profile Configuration mode
to add a description to an administrative profile.
Use the no form of this command to delete the description.
Syntax
description text
no description
• text—A description of, or comment about, the administrative profile. To
include white space, enclose the description in quotes. Range: 1 to 128
printable characters.
Default Configuration
This command has no default configuration.
Command Mode
Administrative Profile Configuration mode
User Guidelines
The description string is required to be enclosed in quotes if it contains
embedded white space. Question marks are disallowed.
Security Commands 886
Example
console(admin-profile)#description “This profile allows access to QoS
commands.”
rule
Use the rule command to add a rule to an administrative profile.
Use the no form of this command to delete a rule.
Syntax
rule number {deny|permit} {command command-string|mode mode-
name}
no rule number
• number—The sequence number of the rule. Rules are applied from the
highest sequence number to the lowest. Range: 1 to 256.
• command-string—Specifies which commands to permit or deny. The
command-string may contain spaces and regular expressions. The
command string is required to be enclosed in quotes if it contains
embedded white space. Range: 1 to 128 characters). Regular expressions
should conform to Henry Spencer’s implementation of the POSIX 1003.2
specification.
NOTE: Note: In this usage, the beginning and end of line meta-characters have no
meaning.
• mode-name—The name of the CLI mode to which the profile will permit
or deny access.
Default Configuration
This command has no default configuration.
Command Mode
Administrative Profile Configuration mode
User Guidelines
This command has no user guidelines.
Security Commands 887
Example
console(admin-profile)#rule 1 permit command “access-list *”
console(admin-profile)#
show admin-profiles
Use the show admin-profiles command to show the administrative profiles. If
the optional profile name parameter is used, only that profile will be shown.
Syntax
show admin-profiles [name profile-name]
•
profile-name
—The name of the administrative profile to display.
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
The following admin profiles are predefined and may not be deleted or
changed by the administrator:
• Profile: network-admin
• Profile: network-security
• Profile: router-admin
• Profile: multicast-admin
• Profile: dhcp-admin
• Profile: CP-admin
• Profile: network-operator.
Example
console#show admin-profiles name qos
Profile: qos
Security Commands 888
Description: This profile allows access to QoS commands.
Rule Perm Type Entity
---- ------ ------- ----------------------------------------
1 permit command access-list *
2 permit command access-group *
3 permit mode class-map
show admin-profiles brief
Use the show admin-profiles brief command to list the names of the
administrative profiles defined on the switch.
Syntax
show admin-profiles brief
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
This command has no user guidelines.
Example
console#show admin-profiles brief
Profile: network-admin
Profile: network-security
Profile: router-admin
Profile: multicast-admin
Profile: dhcp-admin
Profile: CP-admin
Profile: network-operator
Security Commands 889
show cli modes
Use the show cli modes command to list the names of all the CLI modes.
Syntax
show cli modes
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
These are the generic mode names to be used in the
rule
command above.
These are not the same as the prompt which is displayed in a particular mode.
Example
console#show cli modes
user-exec
privileged-exec
global-config
ethernet-config
port-channel-config
Security Commands 890
E-mail Alerting Commands
Dell EMC Networking N1100-ON/N1500/N2000/N2100-
ON/N3000/N3100-ON/N4000 Series Switches
E-mail Alerting is an extension of the logging system. The Dell EMC
Networking logging system allows the user to configure a variety of
destinations for log messages. This feature adds e-mail configuration
capabilities, by which the log messages are sent to a configured SMTP server
such that an operator may receive the log in an e-mail account of their choice.
Figure 1: Log Messages Severity Level
The network operator can adjust the urgent and non-urgent severity levels.
These levels are global and apply to all destination e-mail addresses. Log
messages in the urgent group are sent immediately to SMTP server with each
log message in a separate mail. Log messages in the non-urgent group are
batched into a single e-mail message and after a configurable delay.
Only the minimum part (MUA functionality of RFC 4409) required by the
switch or router to send the messages to the SMTP server is supported. Some
SMTP servers insist on authentication before the messages may be received
by them. The minimum part (MUA functionality of RFC 4954) required by
the switch or router to become authenticated by the SMTP server is
supported. Only plain text authentication is supported.
Commands in this Section
This section explains the following commands:
Security Commands 891
logging email
Use the logging email command in Global Configuration mode to enable e-
mail alerting and set the lowest severity level for which log messages are e-
mailed. Use the no form of the command to disable e-mail alerting.
Syntax
logging email [severity]
no logging email
• severity—If you specify a severity level, log messages at or above the
severity level are e-mailed. The severity level may either be specified by
keyword or as an integer from 0 to 7. The accepted keywords, and the
numeric severity level each represents, are as follows.
– emergency (0)
– alert (1)
– critical (2)
– error (3)
– warning (4)
– notice (5)
– info (6)
– debug (7)
logging email show logging email statistics
logging email urgent clear logging email statistics
logging email message-type to-addr security
logging email from-addr mail-server ip-address | hostname
logging email message-type subject port (Mail Server Configuration Mode)
logging email logtime username (Mail Server Configuration
Mode)
logging email test message-type password (Mail Server Configuration
Mode)
–
show mail-server
Security Commands 892
Default Configuration
E-mail alerting is disabled by default. When e-mail alerting is enabled, log
messages at or above severity Warning are e-mailed.
Command Mode
Global Configuration mode
User Guidelines
The logging email command with no arguments enables e-mail alerting.
Specify a severity to set the severity level of log messages that are e-mailed in
a non-urgent manner. Log messages at or above this severity level, but below
the urgent severity level, are collected together until the log time expires (the
time specified in the
logging email logtime
command) and then e-mailed in a
single e-mail message. If you set the non-urgent severity level to the same
value as the urgent severity level, then no log messages are e-mailed non-
urgently. See the
logging email urgent
command to specify the urgent severity
level. The command no logging email disables all e-mail alerting.
logging email urgent
Use the logging email urgent command in Global Configuration mode to set
the lowest severity level at which log messages are e-mailed in an urgent
manner. To revert the urgent severity level to its default value, use the no
form of this command.
Syntax
logging email urgent {severity | none}
no logging email urgent
• severity—If you specify a severity level, log messages at or above the
severity level are e-mailed. The severity level may either be specified by
keyword or as an integer from 0 to 7. The accepted keywords, and the
numeric severity level each represents, are as follows.
– emergency (0)
– alert (1)
– critical (2)
Security Commands 893
– error (3)
– warning (4)
– notice (5)
– info (6)
– debug (7)
•none—
If you specify this keyword, no log messages are e-mailed urgently. All log
messages at or above the non-urgent level (configured with the logging email
command) are e-mailed in batch.
Default Configuration
The default severity level is alert.
Command Mode
Global Configuration mode
User Guidelines
Log messages at or above this severity level are considered urgent. By default,
Emergency and Alert log messages are considered urgent. Urgent log
messages are e-mailed immediately, one log message per e-mail message, and
do not wait for the log time to expire. Urgent log messages are not e-mailed
unless you enable e-mail alerting with the logging email command.
logging email message-type to-addr
Use the logging email message-type to-addr command in Global
Configuration mode to configure the To address field of the e-mail. The
message types supported are urgent, non-urgent, and both. For each
supported severity level, multiple e-mail addresses can be configured. For
example, for urgent type of messages, there could be multiple addresses
configured.
Syntax
logging email message-type {urgent | non-urgent | both} to-addr to-email-
addr
no logging email to-addr to-addr message-type
Security Commands 894
no logging email message-type {urgent | non-urgent | both} to-addr
to-
email-addr
Default Configuration
This command has no default configuration.
Command Mode
Global Configuration
User Guidelines
The to-email-addr is the address to which the email is sent.
Urgent | non-urgent | both—The priority with which the email is queued.
Urgent email is sent immediately. Non-urgent email is queued and sent
periodically.
Example
console(config)#logging email message-type urgent to-addr admin123@dell.com
Command History
Example added in the 6.4 release.
logging email from-addr
Use the logging email from-addr command in Global Configuration mode to
configure the From address of the e-mail. Use the no form of this command
to remove the e-mail source address.
Syntax
logging email from-addr
from-email-addr
no logging email from-addr
Default Configuration
This command has no default configuration.
Security Commands 895
Command Mode
Global Configuration
User Guidelines
The from-addr in this command is the email address of the email sender.
Many mail servers will validate the from address of an email to ensure that
abuse of the email server does not occur.
Example
console(config)#logging email from-addr dell@gmail.com
Command History
Example added in the 6.4 release.
logging email message-type subject
Use the logging email message-type subject command in Global
Configuration mode to configures subject of the e-mail. Use the no form of
this command to remove the existing subject and return to the default
subject.
Syntax
logging email message-type message-type subject subject
no logging email message-type message-type subject
Default Configuration
This command has no default configuration.
Command Mode
Global Configuration
User Guidelines
The user must enter the message-type parameter manually as tab and space
bar completion do not work for this parameter.
Security Commands 896
Example
console(config)#logging email message-type urgent subject UrgentLog
Command History
Example added in the 6.4 release.
logging email logtime
Use the logging email logtime command in Global Configuration mode to
configure the value of how frequently the queued messages are sent.
Syntax
logging email logtime time duration
no logging email logtime
• time duration—
Time in minutes. Range: 30 – 1440.
Default Configuration
The default value is 30 minutes.
Command Mode
Global Configuration
User Guidelines
This command has no user guidelines.
Example
console(config)#logging email logtime 50
Command History
Example added in the 6.4 release.
Security Commands 897
logging email test message-type
Use the logging email test message-type command in Global Configuration
mode to test whether or not an e-mail is being sent to an SMTP server.
Syntax
logging email test message-type message-type message-body message-body
• message-type—Urgent, non-urgent, or both
•
message-body
—
The message to log. Enclose the message in double quotes if it
contains any spaces.
Default Configuration
This command has no default configuration.
Command Mode
Global Configuration
User Guidelines
This command has no user guidelines.
Example
console(config)#logging email test message-type urgent message-body
urgentlog
Command History
Example added in the 6.4 release.
show logging email statistics
Use the show logging email statistics command to show the statistics about
the e-mails. The command displays information on how many e-mails are
sent, how many e-mails failed, how long it has been since the last e-mail was
sent.
Syntax
show logging email statistics
Security Commands 898
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec
User Guidelines
This command has no user guidelines.
Example
console#show logging email statistics
No of email Failures so far.................... 0
No of email sent so far......................... 0
Time since last email Sent.................... 00 days 00 hours 00 mins 00
secs
clear logging email statistics
Use the clear logging email statistics command to clear the e-mail alerting
statistics.
Syntax
clear logging email statistics
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec
User Guidelines
This command has no user guidelines.
Example
console#clear logging email statistics
Security Commands 899
Command History
Example added in the 6.4 release.
security
Use the security command in Mail Server Configuration mode to set the e-
mail alerting security protocol. This enables and disables the switch to use
TLS authentication with the SMTP Server. If the administrator sets the TLS
mode and, if the SMTP sever does not support TLS mode, then no e-mail
goes to the SMTP server.
Syntax
security {tlsv1 | none}
Default Configuration
The default value is disabled.
Command Mode
Mail Server Configuration
User Guidelines
This command has no user guidelines.
Example
console(config)#mail-server 10.131.1.11
console(mail-server)#security tlsv1
Command History
Example added in the 6.4 release.
mail-server ip-address | hostname
Use the mail-server ip-address | hostname command in Global
Configuration mode to configure the SMTP server IP address and change the
mode to Mail Server Configuration mode. Use the no form of this command
to remove the configured SMTP server address.
Security Commands 900
Syntax
mail-server {ip-address |
hostname
}
no mail-server {ip-address | hostname}
• ip-address—An IPv4 or IPv6 address.
• hostname—
The DNS name of an SMTP server.
Default Configuration
The default configuration for a mail server is shown in the table below.
Command Mode
Global Configuration
User Guidelines
The server address can be in the IPv4, IPv6, or DNS FQDN name format.
port (Mail Server Configuration Mode)
Use the port command in Mail Server Configuration mode to configure the
TCP port to use for communication with the SMTP server. The default for no
security is 25 (SMTP). The port for TLSv1 is port 465. The range is 1025 to
65535. Use the no form of the command to revert the SMTP port to the
default port.
Syntax
port port
no port
Field Default
Email Alert Mail Server Port 25
Email Alert Security Protocol none
Email Alert Username admin
Email Alert Password admin
Security Commands 901
Default Configuration
The default value is 25 (SMTP).
Command Mode
Mail Server Configuration
User Guidelines
Port 25 is the standard SMTP port for cleartext messages. Port 465 is the
standard port for messages sent using TLSv1.
Example
console(config)#mail-server 10.131.1.11
console(mail-server)#port 1024
Command History
Example added in the 6.4 release.
Description updated in the 6.4 release.
username (Mail Server Configuration Mode)
Use the username command in Mail Server Configuration mode to configure
the username required by the authentication. Use the no form of the
command to revert the username to the default value.
Syntax
username
username
no username
Default Configuration
The default value for username is admin.
Command Mode
Mail Server Configuration
Security Commands 902
User Guidelines
This command has no user guidelines.
Example
console(config)#mail-server 10.131.1.11
console(mail-server)#username admin
Command History
Example added in the 6.4 release.
password (Mail Server Configuration Mode)
Use the password command in Mail Server Configuration mode to configure
the password required to authenticate to the e-mail server. Use the no form of
the command to revert the password to the default value.
Syntax
password
password
no password
Default Configuration
The default value for password is admin.
Command Mode
Mail Server Configuration
User Guidelines
This command has no user guidelines.
Example
console(config)#mail-server 10.131.1.11
console(mail-server)#password admin123
Command History
Example added in the 6.4 release.
Security Commands 903
show mail-server
Use the show mail-server command to display the configuration of all the
mail servers or a particular mail server.
Syntax
show mail-server {ip-address | hostname | all}
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec, Global Configuration mode and all Configuration submodes
User Guidelines
This command has no user guidelines.
Example
console#show mail-server all
Mail Servers Configuration:
No of mail servers configured......................1
Email Alert Mail Server Address.................. 10.131.1.11
Email Alert Mail Server Port........................ 465
Email Alert SecurityProtocol........................ tlsv1
Email Alert Username................................ admin
Email Alert Password................................ password
console#show mail-server all
Mail Servers Configuration:
No of mail servers configured......................1
Email Alert Mail Server Address.................. 10.131.1.11
Email Alert Mail Server Port........................ 465
Email Alert SecurityProtocol........................ tlsv1
Email Alert Username................................ admin
Email Alert Password................................ password
console#show mail-server 10.131.1.11
Security Commands 904
Email Alert Mail Server Address................ 10.131.1.11
Email Alert Mail Server Port................... 465
Email Alert SecurityProtocol................... tlsv1
Email Alert Username........................... admin
Email Alert Password........................... password
Command History
Example added in the 6.4 release.
Security Commands 905
RADIUS Commands
Dell EMC Networking N1100-ON/N1500/N2000/N2100-
ON/N3000/N3100-ON/N4000 Series Switches
Authentication of users in a large network can be significantly simplified by
making use of a single database of accessible information supplied by an
Authentication Server. These servers commonly use the Remote
Authentication Dial In User Service (RADIUS) protocol as defined by RFC
2865.
RADIUS permits access to a user’s authentication and configuration
information contained on the server only when requests are received from a
client that shares an encrypted secret with the server. This secret is never
transmitted over the network in an attempt to maintain a secure
environment. Any requests from clients that are not appropriately configured
with the secret or access from unauthorized devices are silently discarded by
the server.
RADIUS conforms to a client/server model with secure communications
using UDP as a transport protocol. It is extremely flexible, supporting a
variety of methods to authenticate and statistically track users. It is very
extensible allowing for new methods of authentication to be added without
disrupting existing network functionality.
Dell EMC Networking supports a RADIUS client in conformance with RFC
2865 and accounting functions in conformance with RFC2866. The RADIUS
client will apply user policies under control of the RADIUS server, e.g.
password lockout or login time of day restrictions. The RADIUS client
supports up to 32 named authentication and accounting servers.
For the N1100-ON and N1500 Series switches, the number of supported
authentication and accounting servers is 8.
RADIUS-based Dynamic VLAN Assignment
If a VLAN assignment is enabled in the RADIUS server, then as part of the
response message, the RADIUS server sends the VLAN ID that the client is
requested to use in the 802.1x tunnel attributes. If dynamic VLAN creation is
enabled on the switch and the RADIUS assigned VLAN does not exist on the
supplicant connected interface, the assigned VLAN is dynamically created.
Security Commands 906
This implies that the client can connect from any port and be assigned to the
appropriate VLAN, which may be already configured on an uplink interface.
This gives flexibility for clients to move around the network with out
requiring the operator to perform additional provisioning for each network
interface.
RADIUS Change of Authorization
Dell EMC Networking supports the Change of Authorization Disconnect -
Request per RFC 3575. The Dell EMC Networking switch listens for the
Disconnect-Request on UDP port 3799. The Disconnect-Request identifies
the user session to be terminated using the following attributes:
• State (IETF attribute #24)
• Acct-Session-Id (IETF attribute #44)
• Calling-Station-Id (IETF attribute #31, which contains the host MAC
address)
The following messages from RFC 3575 are supported:
• 40 - Disconnect-Request
• 41 - Disconnect-ACK
• 42 - Disconnect-NAK
A CoA Disconnect-Request terminates the session without disabling the
switch port. Instead, CoA Disconnect-Request termination causes re-
initialization of the authenticator state machine for the specified host. MAC
port control can be enabled for 802.1x sessions. In this case, if the RADIUS
server issues a disconnect request and subsequently does not authorize the
MAC address to access network resources, the host is effectively denied
network access.
If the session cannot be located, the device returns a Disconnect-NAK
message with the “Session Context Not Found” error-code attribute. If the
session is located, the device terminates the session. After the session has
been completely removed, the device returns a Disconnect-ACK message.
The attributes returned within a CoA ACK can vary based on the CoA
Request.
Security Commands 907
The administrator can configure whether all or any of the session attributes
are used to identify a client session. If all is configured, all session
identification attributes included in the CoA Disconnect-Request must
match a session or the device returns a Disconnect-NAK or CoA-NAK with
the “Invalid Attribute Value” error-code attribute.
Dell EMC Networking supports the following attributes in responses:
• State (IETF attribute #24)
• Calling-Station-ID (IETF attribute #31)
• Acct-Session-ID (IETF attribute #44)
• Message-Authenticator (IETF attribute #80)
• Error-Cause (IETF attribute #101)
A CoA NAK message is not sent for all CoA requests with a key mismatch.
The message is sent only for the first three requests for a client. After that, all
the packets from that client are dropped. When there is a key mismatch, the
response authenticator sent with the CoA NAK message is calculated from a
dummy key value.
The Dell EMC Networking switch starts listening to the client again based on
re-authentication timer.
Refer to the RADIUS Change of Authorization section in the Users
Configuration Guide for examples of configuring RADIUS CoA.
Commands in this Section
This section explains the following commands:
acct-port primary radius-server source-ip
attribute 6 priority radius-server source-
interface
attribute 8 radius-server attribute 4 radius-server timeout
attribute 25 radius-server attribute 6 retransmit
attribute 31 radius-server attribute 8 show aaa servers
authentication event fail
retry
radius-server attribute 25 show radius statistics
Security Commands 908
acct-port
Use the acct-port command to set the port on which the RADIUS accounting
server listens for connections. Use the no form of this command to reset the
port to the default.
Syntax
acct-port port
no acct-port
• port — The layer 4 port number of the accounting server (Range: 1 -
65535).
Default Configuration
The default value of the port number is 1813.
Command Mode
RADIUS Server Accounting mode
User Guidelines
There are no user guidelines for this command.
Example
The following example sets port number 56 for accounting requests.
console(config)#radius-server host acct 3.2.3.2
console(Config-acct-radius)#acct-port 56
auth-port radius-server attribute 31 source-ip
deadtime radius-server deadtime timeout
key radius-server host usage
msgauth radius-server key
–
name (RADIUS server) radius-server retransmit
–
Security Commands 909
attribute 6
Use the attribute 6 command to configure processing of the RADIUS
Service-Type attribute.
Syntax
attribute 6 [on-for-login-auth|mandatory]
no attribute 6 [on-for-login-auth|mandatory]
Default Configuration
By default, the Service-Type is not included in the Access-Request message
sent to the authentication server.
Command Mode
RADIUS Server Configuration
User Guidelines
on-for-login
—If the on-for-login parameter is enabled, the Service-Type TLV is
send in the Access-Request message.
mandatory—If the mandatory parameter is enabled, the Service-Type
attribute is required and validated in the Access-Accept packet received from
the RADIUS server. Dell EMC Networking N-Series switches accept the
Login-User (1) and Administrative-User (6) values in the Access-Accept
message returned from the RADIUS server. If the mandatory parameter is not
configured, the Service-Type TLV received in an Access-Accept packet is
ignored.
Command History
Introduced in version 6.3.0.1 firmware. Updated in 6.3.5.0 firmware.
Example
This example configures the switch to send the Service-Type attribute to the
RADIUS server in the Access-Request message.
console#conf
console(config)#radius-server host 4.3.2.1
console(config-auth-radius)#attribute 6 on-for-login-auth
Security Commands 910
This example configures the switch to process and validate the Service-Type
received in the Access-Accept message from the RADIUS server.
console#conf
console(config)#radius-server host 4.3.2.1
console(config-auth-radius)#attribute 6 mandatory
attribute 8
Use the attribute 8 command to configure the switch to send the RADIUS
Framed-IP-Address attribute in the Access-Request message sent to a specific
RADIUS authentication server. The switch sends the IP address of the host
attempting to authenticate in the Framed-IP-Address attribute in the Access-
Request sent to the authentication server.
Syntax
attribute 8 include-in-access-req
no attribute 8 include-in-access-req
Default Configuration
By default, the Service-Type is not included in the Access-Request message
sent to the authentication server.
Command Mode
RADIUS Server Configuration
User Guidelines
There are no user guidelines for this command.
Command History
Introduced in version 6.3.0.1 firmware.
Example
console#conf
console(config)#radius-server host 4.3.2.1
console(config-auth-radius)#attribute 8 include-in-access-req
Security Commands 911
attribute 25
Use the attribute 25 command to enable the switch to send the RADIUS
Class attribute as supplied by the RADIUS server in accounting messages
sent to the specific accounting server.
Syntax
attribute 25 include-in-access-req
no attribute 25 include-in-access-req
Default Configuration
By default, the Service-Type is included in the accounting messages sent to
the accounting server.
Command Mode
RADIUS Server Configuration
User Guidelines
The switch sends the value supplied by the RADIUS server in the Class
attribute. The Class attribute may be up to 16 octets in length
Command History
Introduced in version 6.3.0.1 firmware.
Example
console#conf
console(config)#radius-server host 4.3.2.1
console(config-auth-radius)#attribute 25 include-in-access-req
attribute 31
Use the attribute 31 command to alter the format of the MAC address sent to
the RADIUS server in the Calling-Station-Id attribute and the USER-NAME
attribute when authenticating using 802.1X MAC based authentication for
an interface. Use the no form of the command to return the MAC address
format to the default.
Security Commands 912
Syntax
attribute 31 mac format { ietf | unformatted | legacy } [lower-case | upper-
case]
no attribute 31 mac format
• ietf—Format the MAC address as aa-aa-bb-bb-cc-cc. The default is upper
case.
• unformatted—Format the MAC address as aaaabbbbcccc. The default is
lower case.
• legacy—Format the MAC address as aa:aa:bb:bb:cc:cc. The default is lower
case.
• lower-case—Format hexadecimal characters using the character set [0-9a-
f].
• upper-case—Format hexadecimal characters using the character set [0-9A-
F].
Default Configuration
There is no default configuration.
Command Mode
RADIUS Server Configuration
User Guidelines
Use this command to override the formats of MAC addresses sent in
authentication requests for ports configured for MAC based 802.1x
authentication for a specific interface.
This command is only valid for 802.1X authentication.
This command overrides the global configuration for attribute 31 (Calling-
Station-ID) and attribute 1 (User-Name) on a specific interface.
Command History
Introduced in version 6.3.0.1 firmware.
Security Commands 913
Example
This example configures the format of the MAC address sent in MAC based
authentication to IETF lower case for the RADIUS server at address 1.2.3.4.
MAB must be configured on the switch in an active authentication list, IEEE
802.1X must be configured, and a RADIUS server must also be configured.
console(config)#radius-server host 1.2.3.4
console(config-auth-radius)# attribute 31 mac format ietf lower-case
authentication event fail retry
Use the authentication event fail retry command to select the number of
times authentication is reattempted by the user for an IEEE 802.1X
supplicant. Use the no form of the command to return the number of
maximum attempts to the default value.
Syntax
authentication event fail retry max-attempts
no authentication event fail retry
• max-attempts — The number of times RADIUS authentication is allowed
to fail before failing the authentication and moving to the next
authentication method. Default 1. Range 1–5.
Default Configuration
By default, the number of failed authentication attempts is 1. An
authentication failure is declared failed after a single authentication attempt
and the next authentication method is attempted.
Command Mode
Interface Configuration mode, Interface Range mode
User Guidelines
The authentication manager must be enabled for this command to have
effect.
This command is only applicable to IEEE 802.1X authentication with a
RADIUS server. It has no effect on any other authentication method.
Security Commands 914
This parameter is independent of, and does not control, the number of times
the authenticator will attempt to contact the RADIUS servers. For example, if
the max-retries for a single configured RADIUS server is set to 3 and the max-
attempts is set to 2, on a supplicant login attempt, the authenticator will send
up to three access requests to the RADIUS server before returning failure.
The authenticator will then re-invoke supplicant authentication method
which allows the RADIUS back end to again send up to three requests to the
RADIUS server before the authenticator allows IEEE 802.1x to stop
supplicant authentication and to invoke the quiet period for the supplicant.
This command sets the limit for retring failed authentications for RADIUS.
The switch attempts authentication based on the selected method and if
authentication returns an error (as opposed to a failure), the next
authentication method is attempted regardless of this setting.
For example, if one or multiple RADIUS servers are configured and no
RADIUS server responds to the authentication message, RADIUS returns an
error and the next authentication method is attempted even when the retry
parameter is configured to a value larger than 1.
Example
The following example configures the switch to allow IEEE 802.1X
supplicants to fail authentication (e.g., enter incorrect passwords) three times
before invoking the quiet timer on the interface.
console#conf
console(config)#authentication enable
console(config)#interface gi1/0/3
console(config-if-Gi1/0/3)#authentication order dot1x
console(config-if-Gi1/0/3)#authentication event fail retry 3
Command History
Introduced in version 6.3.0.1 firmware.
auth-port
Use the auth-port command in RADIUS Server Configuration mode to set
the port number on which the RADIUS server listens for authentication
requests.
Security Commands 915
Syntax
auth-port auth-port-number
• auth-port-number — Port number for authentication requests. (Range: 1 -
65535)
Default Configuration
The default value of the port number is 1812.
Command Mode
RADIUS Server Configuration mode
User Guidelines
User must enter the mode corresponding to a specific RADIUS Server
Configuration before executing this command.
Example
The following example sets the port number 2412 for authentication
requests.
console(config)#radius-server host 192.143.120.123
console(config-auth-radius)#auth-port 2412
deadtime
Use the deadtime command in RADIUS Server Configuration mode to
configure the minimum amount of time to wait before attempting to
recontact an unresponsive RADIUS server. If a RADIUS server is currently
active and responsive, that server will be used until it no longer responds.
RADIUS servers whose deadtime interval has not expired are skipped when
searching for a new RADIUS server to contact.
Syntax
deadtime deadtime
• deadtime — The amount of time that the unavailable server is skipped
over. (Range: 0-2000 minutes)
Security Commands 916
Default Configuration
The default deadtime interval is 0 minutes.
Command Mode
RADIUS Server Configuration mode
User Guidelines
If only one RADIUS server is configured, it is recommended to use a
deadtime interval of 0.
Example
The following example specifies a deadtime interval of 60 minutes.
console(config)#radius-server host 192.143.120.123
console(config-auth-radius)#deadtime 60
key
Use the key command to specify the encryption key which is shared with the
RADIUS server. Use the no form of this command to remove the key.
Syntax
key [ 0|7] key-string
no key
• 0—The key string that follows is the unencrypted shared secret. The
length is 1–128 characters.
• 7—The key string that follows is the encrypted shared secret. The length is
exactly 256 characters.
• key-string — The key string in encrypted or unencrypted form. In
encrypted form, it must be 256 characters in length. In unencrypted form,
it may be up to 128 characters in length.
Default Configuration
There is no key configured by default.
Security Commands 917
Command Mode
RADIUS Server Configuration mode
User Guidelines
There are no user guidelines for this command.
In an Access-Request, encrypted passwords are sent using the RSA Message
Digest algorithm (MD5).
If no encryption parameter (7) is present, the key string is interpreted as an
unencrypted shared secret.
Keys are always displayed in their encrypted form in the running
configuration.
The encryption algorithm is the same across switches. Encrypted passwords
may be copied from one switch and pasted into another switch.
Command History
Updated in version 6.3.0.1 firmware.
Example
The following two examples globally configure the RADIUS server key for all
configured servers. The two examples are identical in effect.
console(config)#radius-server host 1.2.3.4
console(config-auth-radius)#key "This is a key string"
console(config-auth-radius)#key 0 "This is a key string"
msgauth
Use the msgauth command to enable the message authenticator attribute to
be used for the RADIUS Authenticating server being configured. Use the
“no” form of this command to disable the message authenticator attribute.
Syntax
msgauth
no msgauth
Security Commands 918
Default Configuration
The message authenticator attribute is enabled by default.
Command Mode
RADIUS Server Configuration mode
User Guidelines
There are no user guidelines for this command.
Example
console(Config-auth-radius)#msgauth
name (RADIUS server)
Use the name command to assign a name to a RADIUS server. Use the no
form of the command to return the name to the default (Default-RADIUS-
Server). The no form of the command does not require the user to enter the
configured name.
Syntax
name servername
no name
• servername—The name for the RADIUS server (Range: 1 - 32 characters).
Default Configuration
The default RADIUS server name is Default-RADIUS-Server.
Command Mode
RADIUS Server Configuration mode
User Guidelines
Names may only be set for authentication servers, not for accounting servers.
Names may consist of alphanumeric characters and the underscore, dash and
blanks.Embed the name in double quotes to use a name with blanks.
Security Commands 919
Note that, when multiple RADIUS servers are configured with different
names (for example, ServerName is name1 and address is 1.1.1.1 and
ServerName is name2 and address is 1.1.1.2):
The RADIUS request is always sent to the first ordered name server list, i.e.
name1 server list would be tried before moving on to name2. Even if the
priority value of servers in name2 is lower (lower value indicates high priority)
the request would be sent to the name1 servers. If for name1 list, the
configured servers fail to respond, the request is sent to the second configured
name list.
Within the same server list, the first primary server would be tried. You can
have multiple secondary servers in the same name list. From the multiple
secondary servers, the one with the lowest priority value would be tried. For a
different named server list, the server name would be based on lexicographic
order. For example, if name9, name1, name6 are configured in this order,
name1, then name6, then name9 would be tried.
Example
console(config)#radius-server host 44.44.44.44
console(config-auth-radius)#name NAME
console(config-auth-radius)#no name
primary
Use the primary command to specify that a configured server should be the
primary server in the group of authentication servers which have the same
server name. Multiple primary servers can be configured for each group of
servers which have the same name. When the RADIUS client has to perform
transactions with an authenticating RADIUS server of the specified name, it
uses the primary server that has the specified server name by default. If it fails
to communicate with the primary server for any reason, it uses the backup
servers configured with the same server name. These backup servers are
identified as the “Secondary” type.
Syntax
primary
Default Configuration
There is no primary authentication server by default.
Security Commands 920
Command Mode
RADIUS Server Configuration mode
User Guidelines
There are no user guidelines for this command.
Example
console(Config-auth-radius)#primary
priority
Use the priority command in RADIUS Server Configuration mode to specify
the order in which the servers are to be used, with 0 being the highest priority.
Syntax
priority priority
• priority — Sets server priority level. (Range 0-65535)
Default Configuration
The default priority is 0.
Command Mode
RADIUS Server Configuration mode
User Guidelines
User must enter the mode corresponding to a specific RADIUS server before
executing this command.
Example
The following example specifies a priority of 10 for the designated server.
console(config)#radius-server host 192.143.120.123
console(config-auth-radius)#priority 10
Security Commands 921
radius-server attribute 4
Use the radius-server attribute 4 command to set the network access server
(NAS) IPv4 address for the RADIUS server. The NAS-IP-Address is RADIUS
attribute number 4. Use the no version of the command to set the value to
the default.
Syntax
radius-server attribute 4 ip-address
no radius-server attribute 4
• ip-address — Specifies the IPv4 address to be used as the RADIUS
attribute 4, the NAS-IP-Address.
Default Configuration
If a RADIUS server has been configured on the switch, the default NAS-IP-
Address sent to the RADIUS server is the address of the switch or the address
of the interface over which the Access-Request is sent.
Command Mode
Global Configuration mode
User Guidelines
This command does not alter the address in the IP header in Access-Requests
transmitted to the RADIUS server. It only configures the NAS-IP-Address
attribute sent to the RADIUS server inside the RADIUS Access-Request
packet. This capability is useful when configuring multiple RADIUS clients
(switches) to simulate a single RADIUS client for scalability. The RADIUS
Acct-Session-Id may overlap if multiple switches are configured with the
same NAS-IP-Address.
The configured NAS-IP-Address need not be the same as the IPv4 source
address transmitted in the IP header. Use the radius-server source-ip
command to configure the IPv4 source address transmitted in the IP header.
Example
The following example sets the NAS IP address RADIUS attribute 4 to
192.168.10.22.
Security Commands 922
console(config)#radius-server attribute 4 192.168.10.22
radius-server attribute 6
Use the radius-server attribute 6 command to configure the use of the
RADIUS Service-Type attribute.
Syntax
radius-server attribute 6 [on-for-login-auth|mandatory]
no radius-server attribute 6 [on-for-login-auth|mandatory]
Default Configuration
By default, the switch does not send the Service-Type attribute to the
RADIUS server in the Access-Request packets. By default, the switch ignores
the Service-Type received in Access-Accept packets.
Command Mode
Global Configuration
User Guidelines
on-for-login—This parameter globally configures the switch to send the
RADIUS Service-Type attribute in the Access-Request message sent to all
RADIUS authentication servers. The switch sends the Service-Type value
Administrative (6) for administrators attempting to access the switch console
and sends Service-Type value Login (1) for users attempting to access the
network.
mandatory—This parameter enables processing and validation of the Service-
Type parameter received from the RADIUS server in Access-Accept messages.
Dell EMC Networking N-Series switches accept the Login-User (1) or
Administrative-User (6) values in the Access-Accept message returned from
the RADIUS server. Access-Accept messages without one of those values are
treated as if an Access-Reject message has been received.
Command History
Introduced in version 6.3.0.1 firmware. Updated in 6.3.0.5 firmware.
Security Commands 923
Example
This command configures the switch to send the Service-Type attribute in the
Access-Request message sent to the RADIUS server.
console#conf
console(config)#radius-server attribute 6 on-for-login-auth
radius-server attribute 8
Use the radius-server attribute 8 command to enable the switch to send the
RADIUS Framed-IP-Address attribute in authentication messages sent to the
authentication server.
Syntax
radius-server attribute 8 include-in-access-req
no rradius-server attribute 8 include-in-access-req
Default Configuration
By default, the switch does not send the Framed-IP-Address attribute to the
authentication server.
Command Mode
Global Configuration
User Guidelines
The switch sends the IP address of the host attempting to access the network
in the Framed-IP-Address attribute.
Command History
Introduced in version 6.3.0.1 firmware.
Example
console#conf
console(config)#radius-server attribute 8 include-in-access-req
Security Commands 924
radius-server attribute 25
Use the radius-server attribute 25 command to globally enable the switch to
send the RADIUS Class attribute as supplied by the RADIUS server in
accounting messages sent to the accounting server.
Syntax
radius-server attribute 25 include-in-access-req
no radius-server attribute 25 include-in-access-req
Default Configuration
By default, the switch sends the Class attribute to the accounting server.
Command Mode
Global Configuration
User Guidelines
The switch sends the value supplied by the RADIUS server in the Class
attribute. The Class attribute may be up to 16 octets in length
Command History
Introduced in version 6.3.0.1 firmware.
Example
console#conf
console(config)#radius-server attribute 25 include-in-access-req
radius-server attribute 31
Use the radius-server attribute 31 command to alter the format of the MAC
address sent to the RADIUS server when authenticating using 802.1X MAC
based authentication. Use the no form of the command to return the MAC
address format to the default.
Security Commands 925
Syntax
radius-server attribute 31 mac format { ietf | unformatted | legacy } [lower-
case | upper-case]
no radius-server attribute 31 mac format
•ietf—Format the MAC address as aa-aa-bb-bb-cc-cc. The default is upper
case.
•unformatted—Format the MAC address as aaaabbbbcccc. The default is
lower case.
•legacy—Format the MAC address as aa:aa:bb:bb:cc:cc. The default is
lower case.
•lower-case—Format hexadecimal characters using the character set [0-9a-
f].
•upper-case—Format hexadecimal characters using the character set [0-9A-
F].
Default Configuration
By default, the switch sends the Calling-Station-Id MAC address in lower
case legacy format and the User-Name (Attribute 1) is sent in legacy upper
case format.
Command Mode
Global Configuration
User Guidelines
Use this command to override the format of MAC addresses sent in the
Calling-Station-Id (attribute 31) and the User-Name (attribute 1) for
authentication requests for ports configured for MAC based 802.1x
authentication (MAB).
This command is only valid for 802.1X authentication.
This command does not override interface configuration for attribute 31 or
attribute 1.
Command History
Introduced in version 6.3.0.1 firmware.
Security Commands 926
Example
This example globally configures the format of the MAC address sent in the
Calling-Station-Id attribute and the User-Name attribute when using MAC
based authentication to IETF lower case. It also configures interface Gi1/0/1
to use MAB. MAB must be configured on the switch in an active
authentication list, IEEE 802.1X must be configured, and a RADIUS server
must also be configured.
console(config)#radius-server attribute 31 mac format ietf lower-case
console(config)#interface gi1/0/1
console(config-if-Gi1/0/1)#dot1x port-control mac-based
"console(config-if-Gi1/0/1)#dot1x mac-auth-bypass"
radius-server deadtime
Use the radius-server deadtime command to configure the minimum amount
of time to wait before attempting to recontact an unresponsive RADIUS
server. To set the deadtime to 0, use the no form of this command.
Syntax
radius-server deadtime deadtime
no radius-server deadtime
• deadtime — Length of time in minutes, for which a RADIUS server is
skipped over by transaction requests. (Range: 0–2000 minutes). Deadtime
is used to mark an unavailable RADIUS server as dead until this user-
configured time expires. Deadtime is configurable on a RADIUS server
basis.
Default Configuration
The default dead time is 0 minutes.
Command Mode
Global Configuration mode
Security Commands 927
User Guidelines
If only one RADIUS server is configured, it is recommended that the
deadtime interval be left at 0. If a RADIUS server is currently active and
responsive, that server will be used until it no longer responds. RADIUS
servers whose deadtime interval has not expired are skipped when searching
for a new RADIUS server to contact.
Example
The following example sets the minimum interval for a RADIUS server will
not be contacted after becoming unresponsive.
console(config)#radius-server deadtime 10
radius-server host
Use the radius-server host command to specify a RADIUS server host and
enter RADIUS Server Configuration mode. To delete the specified RADIUS
host, use the no form of this command.
Syntax
radius-server host [acct | auth] {ip–address | hostname}
no radius-server host [acct | auth] {ip–address | hostname}
•acct | auth—The type of server (accounting or authentication).
• ip–address—The RADIUS server host IP address.
• hostname —Host name of the RADIUS server host. (Range: 1–255
characters).
Default Configuration
The default server type is authentication. The default server name is Default
RADIUS Server. The default port number is 1812 for an authentication
server and 1813 for an accounting server.
Command Mode
Global Configuration mode
Security Commands 928
User Guidelines
RADIUS servers are keyed by the host name, therefore it is advisable to use
unique server host names.
Example
The following example specifies a RADIUS server host with the following
characteristics:
Server host IP address — 192.168.10.1
console(config)#radius-server host 192.168.10.1
radius-server key
Use the radius-server key command to set the authentication and encryption
key for all RADIUS communications between the switch and the RADIUS
server. Use the no form of the command to disable the key.
Syntax
radius-server key [ 0 | 7 ]key-string
no radius-server key
• 0—The key string that follows is the unencrypted shared secret. The
length is 1–128 characters.
• 7—The key string that follows is the encrypted shared secret. The length is
exactly 256 characters.
• key-string — The key string in encrypted or unencrypted form. In
encrypted form, it must be 256 characters in length. In unencrypted form,
it may be up to 128 characters in length.
Default Configuration
The default is an empty string.
Command Mode
Global Configuration
Security Commands 929
User Guidelines
In an Access-Request, encrypted passwords are sent using the RSA Message
Digest algorithm (MD5).
If no encryption parameter (7) is present, the key string is interpreted as an
unencrypted shared secret.
Keys are always displayed in their encrypted form in the running
configuration.
The encryption algorithm is the same across switches. Encrypted passwords
may be copied from one switch and pasted into another switch configuration.
Command History
Updated in version 6.3.0.1 firmware.
Example
The following two examples globally configure the RADIUS server key for all
configured servers. The two examples are identical in effect.
console(config)#radius-server key “This is a key string”
console(config)#radius-server key 0 “This is a key string”
radius-server retransmit
Use the radius-server retransmit command to specify the number of times
the RADIUS client will retransmit requests to the RADIUS server. To reset
the default configuration, use the no form of this command.
Syntax
radius-server retransmit retries
no radius-server retransmit
• retries — Specifies the retransmit value. (Range: 1–10)
Default Configuration
The default is 3 attempts.
Command Mode
Global Configuration mode
Security Commands 930
User Guidelines
This command has no user guidelines.
Example
The following example configures the number of times the RADIUS client
attempts to retransmit requests to the RADIUS server to five attempts.
console(config)#radius-server retransmit 5
radius-server source-ip
Use the radius-server source-ip command to specify the source IPv4 address
used in the IP header for communication with RADIUS servers. To return to
the default, use the no form of this command. 0.0.0.0 is interpreted as a
request to use the IPv4 address of the outgoing IP interface.
Syntax
radius-server source-ip source
no radius-server source-ip
• source — Specifies the source IPv4 address.
Default Configuration
The default IPv4 address is the outgoing interface IPv4 address.
Command Mode
Global Configuration mode
User Guidelines
The command configures the source IP address present in the IPv4 header. It
is not the optional NAS-IP-Address in the RADIUS message. Use the radius-
server attribute 4 command to configure the NAS-IP-Address attribute sent in
the RADIUS Access-Request message.
Example
The following example configures the source IP address used for
communication with RADIUS servers to 10.1.1.1.
Security Commands 931
console(config)#radius-server source-ip 10.1.1.1
radius-server source-interface
Use the radius-server source-interface command to select the interface from
which to use the IP address in the source IP address field of transmitted
RADIUS packets. Use the no form of the command to revert to the default IP
address.
Syntax
radius-server source-interface {loopback loopback-id | vlan vlan-id}
no radius-server source-interface
• loopback-id — A loopback interface identifier.
• vlan-id—A VLAN identifier.
Default Configuration
By default, the switch uses the assigned switch IP address as the source IP
address for RADIUS packets. This is either the IP address assigned to the
VLAN from which the RADIUS packet originates or the out-of-band interface
IP address.
Command Mode
Global Configuration
User Guidelines
The source IP address of RADIUS packets sent to a server should match the
NAS IP address configured on the RADIUS server. A mismatch may lead to a
RADIUS packet timeout.
Loopback interfaces are not supported on the Dell EMC N1100-ON Series
switches.
Command History
Introduced in version 6.3.0.1 firmware.
Example
console#conf
Security Commands 932
console(config)#interface vlan 1
console(config-if-vlan1)#ip address dhcp
console(config-if-vlan1)#exit
console(config)#radius-server source-interface vlan 1
radius-server timeout
Use the radius-server timeout command in Global Configuration mode to set
the interval for which a switch waits for a server to reply. To restore the
default, use the no form of this command.
Syntax
radius-server timeout timeout
no radius-server timeout
• timeout — Specifies the timeout value in seconds. (Range: 1–30)
Default Configuration
The default value is 15 seconds.
Command Mode
Global Configuration mode
User Guidelines
This command has no user guidelines.
Example
The following example sets the interval for which a switch waits for a server to
reply to 5 seconds.
console(config)#radius-server timeout 5
retransmit
Use the retransmit command in RADIUS Server Configuration mode to
specify the number of times the RADIUS client retransmits requests to the
RADIUS server.
Security Commands 933
Syntax
retransmit retries
• retries — Specifies the retransmit value. (Range: 1-10 attempts)
Default Configuration
The default number for attempts is 3.
Command Mode
RADIUS mode
User Guidelines
User must enter the mode corresponding to a specific RADIUS server before
executing this command.
Example
The following example of the retransmit command specifies five retries.
console(config)#radius-server host 192.143.120.123
console(config-auth-radius)#retransmit 5
show aaa servers
Use the show aaa servers command to display the list of configured RADIUS
servers and the values configured for the global parameters of the RADIUS
servers.
Syntax
show aaa servers [accounting | authentication] [name [servername]]
•accounting—This optional parameter will cause accounting servers to be
displayed.
•authentication—This optional parameter will cause authentication servers
to be displayed.
•name—This optional parameter will cause the server names to be
displayed instead of the server configuration parameters.
Security Commands 934
• servername—Will cause only the server(s) with server-name name to be
displayed. There are no global parameters displayed when this parameter is
specified.
Default Configuration
All authentication servers are displayed by default.
Command Mode
User Exec, Privileged Exec, Global Configuration mode and all Configuration
submodes
User Guidelines
The following fields are displayed:
Field Description
Configured
Authentication Servers
The number of RADIUS Authentication servers that have
been configured.
Configured Accounting
Servers
The number of RADIUS Accounting servers that have
been configured.
Named Authentication
Server Groups
The number of configured named RADIUS server groups.
Named Accounting
Server Groups
The number of configured named RADIUS server groups.
Timeout The configured timeout value, in seconds, for request
retransmissions.
Retransmit The configured value of the maximum number of times a
request packet is retransmitted.
Deadtime The length of time an unavailable RADIUS server is
skipped.
RADIUS Accounting
Mode
A Global parameter to indicate whether the accounting
mode for all the servers is enabled or not.
RADIUS Attribute 4
Mode
A Global parameter to indicate whether the NAS-IP-
Address attribute has been enabled to use in RADIUS
requests.
Security Commands 935
Command History
Introduced in version 6.2.0.1 firmware.
Example
console#show aaa servers
IP address Type Port TimeOut Retran. DeadTime Source IP Prio.Usage
---------------- ----- ----- ------- ------- -------- ---------- ----- ------
6.6.6.6 Auth 1812 Global Global Global Default 0 all
5.5.5.5 Auth 1812 Global Global Global 2.2.2.2 0 all
4.4.4.4 Auth 1812 Global Global Global Default 0 all
3.3.3.3 Auth 1812 Global Global Global Default 0 all
2.2.2.2 Auth 1812 Global Global Global Default 0 all
1.1.1.1 Acct 1813 N/A N/A N/A N/A N/A N/A
Global values
--------------------------------------------
Number of Configured Authentication Servers.... 5
Number of Configured Accounting Servers........ 1
Number of Named Authentication Server Groups... 2
Number of Named Accounting Server Groups....... 1
Number of Retransmits.......................... 3
Timeout Duration............................... 15
Deadtime....................................... 0
Source IP...................................... Default
RADIUS Accounting Mode......................... Disable
RADIUS Attribute 4 Mode........................ Disable
RADIUS Attribute 4 Value....................... 0.0.0.0
console#show aaa servers name
Server Name Host Address Port Secret
Configured
-------------------------------- ------------------------ ------ ----------
Default-RADIUS-Server 4.4.4.4 1812 No
RADIUS Attribute 4
Value
A Global parameter that specifies the IP address to be
used in NAS-IP-Address attribute to be used in RADIUS
requests.
Source Interface The source interface from which the source IP address is
obtained.
Field Description
Security Commands 936
test 6.6.6.6 1812 No
switch-top#show aaa servers authentication name CoA-Server-1
RADIUS Server Name............................. CoA-Server-1
Current Server IP Address...................... 1.1.1.1
Number of Retransmits.......................... 3
Timeout Duration............................... 15
Deadtime....................................... 0
Port........................................... 3799
Source IP...................................... Default
RADIUS Accounting Mode......................... Disabled
Secret Configured.............................. Yes
Message Authenticator.......................... Enable
Number of CoA Requests Received...................... 203
Number of CoA ACK Responses Sent..................... 111
Number of CoA NAK Responses Sent...................... 37
Number of Coa Requests Ignored.........................55
Number of CoA Missing/Unsupported Attribute Requests...18
Number of CoA Session Context Not Found Requests.......5
Number of CoA Invalid Attribute Value Requests.........11
Number of Administratively Prohibited Requests.........3
show radius statistics
Use the show radius statistics command to show the statistics for an
authentication or accounting server.
Syntax
show radius statistics [accounting | authentication] [{ipaddress | hostname
| name servername}]
•accounting | authentication—The type of server (accounting or
authentication).
• ipaddress—The RADIUS server host IP address.
• hostname—Host name of the RADIUS server host. (Range: 1–158
characters). The command allows spaces in the host name when specified
in double quotes. For example, console(config)#snmp-server host “host
name”
• servername—The alias used to identify the server.
Security Commands 937
Default Configuration
There is no default configuration for this command.
Command Mode
User Exec, Privileged Exec mode, Global Configuration mode and all
Configuration submodes
User Guidelines
The following fields are displayed for accounting servers:
Field Description
RADIUS
Accounting Server
Name
Name of the accounting server.
Server Host
Address
IP address of the host.
Round Trip Time The time interval, in hundredths of a second, between the most
recent Accounting Response and the Accounting Request that
matched it from this RADIUS accounting server.
Requests The number of RADIUS Accounting Request packets sent to this
server not including the retransmissions.
Retransmissions The number of RADIUS Accounting Request packets
retransmitted to this RADIUS accounting server.
Responses The number of RADIUS packets received on the accounting port
from this server.
Malformed
Responses
The number of malformed RADIUS Accounting Response
packets received from this server. Malformed packets include
packets with an invalid length. Bad authenticators or signature
attributes or unknown types are not included as malformed
accounting responses.
Bad
Authenticators
The number of RADIUS Accounting Response packets
containing invalid authenticators received from this accounting
server.
Pending Requests The number of RADIUS Accounting Request packets destined
for this server that have not yet timed out or received a response.
Security Commands 938
The following fields are displayed for authentication servers:
Timeouts The number of accounting timeouts on this server.
Unknown Types The number of packets unknown type which were received from
this server on accounting port.
Packets Dropped The number of RADIUS packets received from this server on
accounting port and dropped for some other reason.
Field Description
RADIUS Server
Name
Name of the authenticating server.
Server Host
Address
IP address of the host.
Access Requests The number of RADIUS Access Request packets sent to this
server. This number does not include retransmissions.
Access
Retransmissions
The number of RADIUS Access Request packets retransmitted
to this RADIUS authentication server.
Access Accepts The number of RADIUS Access Accept packets, including both
valid and invalid packets, that were received from this server.
Access Rejects The number of RADIUS Access Reject packets, including both
valid and invalid packets, that were received from this server.
Access Challenges The number of RADIUS Access Challenge packets, including
both valid and invalid packets, that were received from this
server.
Malformed Access
Responses
The number of malformed RADIUS Access Response packets
received from this server. Malformed packets include packets
with an invalid length. Bad authenticators or signature attributes
or unknown types are not included as malformed access
responses.
Bad
Authenticators
The number of RADIUS Access Response packets containing
invalid authenticators or signature attributes received from this
server.
Pending Requests The number of RADIUS Access Request packets destined for
this server that have not yet timed out or received a response.
Field Description
Security Commands 939
Example
console#show radius statistics accounting 192.168.37.200
RADIUS Accounting Server Name................. Default_RADIUS_Server
Host Address.................................. 192.168.37.200
Round Trip Time............................... 0.00
Requests...................................... 0
Retransmissions............................... 0
Responses..................................... 0
Malformed Responses........................... 0
Bad Authenticators............................ 0
Pending Requests.............................. 0
Timeouts...................................... 0
Unknown Types................................. 0
Packets Dropped............................... 0
console#show radius statistics name Default_RADIUS_Server
RADIUS Server Name............................ Default_RADIUS_Server
Server Host Address........................... 192.168.37.200
Access Requests............................... 0.00
Access Retransmissions........................ 0
Access Accepts................................ 0
Access Rejects................................ 0
Access Challenges............................. 0
Malformed Access Responses.................... 0
Bad Authenticators............................ 0
Pending Requests.............................. 0
Timeouts...................................... 0
Unknown Types................................. 0
Packets Dropped............................... 0
Timeouts The number of authentication timeouts to this server.
Unknown Types The number of packets unknown type which were received from
this server on the authentication port.
Packets Dropped The number of RADIUS packets received from this server on
authentication port and dropped for some other reason.
Field Description
Security Commands 940
source-ip
Use the source-ip command in RADIUS Server Configuration mode to
specify the source IP address to be used for communication with RADIUS
servers. 0.0.0.0 is interpreted as a request to use the IP address of the outgoing
IP interface.
Syntax
source-ip source
• source — A valid source IP address.
Default Configuration
The IP address is of the outgoing IP interface.
Command Mode
RADIUS Server Configuration mode
User Guidelines
The administrator must enter the mode corresponding to a specific RADIUS
server before executing this command.
Example
The following example specifies 10.240.1.23 as the source IP address.
console(config)#radius-server host 192.143.120.123
console(config-auth-radius)#source-ip 10.240.1.23
timeout
Use the timeout command in RADIUS mode to set the timeout value in
seconds for the designated RADIUS server.
Syntax
timeout timeout
• timeout — Timeout value in seconds for the specified server. (Range: 1-30
seconds.)
Security Commands 941
Default Configuration
The default value is 15 seconds.
Command Mode
RADIUS mode
User Guidelines
User must enter the mode corresponding to a specific RADIUS server before
executing this command.
Example
The following example specifies the timeout setting for the designated
RADIUS Server.
console(config)#radius-server host 192.143.120.123
console(config-radius)#timeout 20
usage
Use the usage command in RADIUS mode to specify the usage type of the
server.
Syntax
usage type
• type — Variable can be one of the following values: login, dot1x or all.
Default Configuration
The default variable setting is all.
Command Mode
RADIUS mode
User Guidelines
User must enter the mode corresponding to a specific RADIUS server before
executing this command.
Security Commands 942
Example
The following example specifies usage type login.
console(config)#radius-server host 192.143.120.123
console(config-auth-radius)#usage login
Security Commands 943
TACACS+ Commands
Dell EMC Networking N1100-ON/N1500/N2000/N2100-
ON/N3000/N3100-ON/N4000 Series Switches
TACACS+ provides access control for networked devices via one or more
centralized servers, similar to RADIUS this protocol simplifies authentication
by making use of a single database that can be shared by many clients on a
large network. TACACS+ is based on the TACACS protocol (described in
RFC1492) but additionally provides for separate authentication,
authorization and accounting services. The original protocol was UDP based
with messages passed in clear text over the network; TACACS+ uses TCP to
ensure reliable delivery and a shared key configured on the client and daemon
server to encrypt all messages.
Dell EMC Networking supports authentication of a user using a TACACS+
server. When TACACS+ is configured as the authentication method for a
user login type (CLI/HTTP/HTTPS), the NAS will prompt for the user login
credentials and request services from the TACACS+ client; the client will
then use the configured list of servers for authentication and provide results
back to the NAS. The TACACS+ server list is configured with one or more
hosts defined via their network IP address; each can be assigned a priority to
determine the order in which the TACACS+ client will contact them, a
server is contacted when a connection attempt fails or times out for a higher
priority server. Each server host can be separately configured with a specific
connection type, port, time-out, and shared key, or the global configuration
may be used for the key and time-out. Like RADIUS, the TACACS+ server
may do the authentication itself, or redirect the request to another back-end
device, all sensitive information is encrypted and the shared secret is never
passed over the network.
Commands in this Section
This section explains the following commands:
key tacacs-server host
port tacacs-server key
priority tacacs-server source-interface
Security Commands 944
key
Use the key command in TACACS Configuration mode to specify the
authentication and encryption key for all TACACS communications between
the device and the TACACS server. This key must match the key used on the
TACACS daemon.
Syntax
key [0|7] key-string
no key
• 0—The key string that follows is the unencrypted shared secret. The
length is 1–128 characters.
• 7—The key string that follows is the encrypted shared secret. The length is
256 characters.
• key-string — Specifies the key string in encrypted or unencrypted form. It
may be up to 128 characters in length in unencrypted format and 256
characters in length in encrypted format.
Default Configuration
If left unspecified, the key-string parameter defaults to the global value.
Command Mode
TACACS Configuration mode
User Guidelines
The key command accepts any printable characters for the key except a
question mark. Enclose the string in double quotes to include spaces within
the key. The surrounding quotes are not used as part of the name. The CLI
does not filter illegal characters and may accept entries up to the first illegal
character or reject the entry entirely.
If no encryption parameter is present, the key string is interpreted as an un-
encrypted shared secret.
show tacacs tacacs-server timeout
–
timeout
Security Commands 945
Keys are always displayed in their encrypted form in the running
configuration.
In an Access-Request, encrypted passwords are sent using the RSA Message
Digest algorithm (MD5).
The encryption algorithm is the same across switches. Encrypted passwords
may be copied from one switch and pasted into another switch configuration.
Command History
Updated in version 6.3.0.1 firmware.
Example
The following example sets the authentication encryption key.
console(config-tacacs)#key “This is a key string”
console(config-tacacs)#key 0 “This is a key string”
port
Use the port command in TACACS Configuration mode to specify a port
number on which a TACACS server listens for connections.
Syntax
port [port-number]
• port-number — The server port number. If left unspecified, the default
port number is 49. (Range: 0–65535)
Default Configuration
The default port number is 49.
Command Mode
TACACS Configuration mode
User Guidelines
This command has no user guidelines.
Security Commands 946
Example
The following example displays how to specify TACACS server port number
1200.
console(config-tacacs)#port 1200
priority
Use the priority command in TACACS Configuration mode to specify the
order in which servers are used, where 0 (zero) is the highest priority.
Syntax
priority [priority]
• priority — Specifies the priority for servers. 0 (zero) is the highest priority.
(Range: 0–65535).
Default Configuration
If left unspecified, this parameter defaults to 0 (zero).
Command Mode
TACACS Configuration mode
User Guidelines
This command has no user guidelines.
Example
The following example shows how to specify a server priority of 10000.
console(config-tacacs)#priority 10000
show tacacs
Use the show tacacs command to display the configuration and statistics of a
TACACS+ server.
Syntax
show tacacs [ip-address]
Security Commands 947
•
ip-address
— The name or IP address of the host.
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
This command has no user guidelines.
Examples
The following example displays TACACS+ server settings.
console#show tacacs
Global Timeout: 5
Server Address Port Timeout Priority Source Interface
--------------- ----- ------- -------- -----------------
10.254.24.162 49 Global 0 Loopback 0
tacacs-server host
Use the tacacs-server host command in Global Configuration mode to
configure a TACACS+ server. This command enters into the TACACS+
configuration mode. To delete the specified hostname or IP address, use the
no form of this command.
Syntax
tacacs-server host {ip-address | hostname}
no tacacs-server host {ip-address | hostname}
•
ip-address
— The IP address of the TACACS+ server.
• hostname — The hostname of the TACACS+ server. (Range: 1-255
characters).
Security Commands 948
Default Configuration
No TACACS+ host is specified.
Command Mode
Global Configuration mode
User Guidelines
To specify multiple hosts, multiple tacacs-server host commands can be used.
TACACS servers are keyed by the host name, therefore it is advisable to use
unique host names.
Example
The following example specifies a TACACS+ host.
console(config)#tacacs-server host 172.16.1.1
console(config-tacacs)#
tacacs-server key
Use the tacacs-server key command in Global Configuration mode to set the
authentication and encryption key for all TACACS+ communications
between the switch and the TACACS+ daemon. To disable the key, use the
no form of this command.
Syntax
tacacs-server key [ 0 | 7 ][key-string]
no tacacs-server key
• 0—The key string that follows is the unencrypted shared secret. The
length is 1–128 characters.
• 7—The key string that follows is the encrypted shared secret. The length is
fixed at 256 characters.
• key-string — Specifies the key string in encrypted or unencrypted form. It
may be up to 128 characters in length in unencrypted format and is exactly
256 characters in length in encrypted format.
Security Commands 949
Default Configuration
The default is an empty string.
Command Mode
Global Configuration mode
User Guidelines
The tacacs-server key command accepts any printable characters for the key
except a question mark. Enclose the string in double quotes to include spaces
within the key. The surrounding quotes are not used as part of the name. The
CLI does not filter illegal characters and may accept entries up to the first
illegal character or reject the entry entirely.
If no encryption parameter is present, the key string is interpreted as an un-
encrypted shared secret.
Keys are always displayed in their encrypted form in the running
configuration.
In an Access-Request, encrypted passwords are sent using the RSA Message
Digest algorithm (MD5).
The encryption algorithm is the same across switches. Encrypted passwords
may be copied from one switch and pasted into another switch.
Command History
Updated in version 6.3.0.1 firmware.
Example
The following example sets the authentication encryption key.
console(config)#tacacs-server key “This is a key string”
console(config)#tacacs-server key 0 “This is a key string”
tacacs-server source-interface
Use the tacacs-server source-interface command to select the interface from
which to use the IP address in the source IP address field of transmitted
TACACS packets. Use the no form of the command to revert to the default
IP address.
Security Commands 950
Syntax
tacacs-server source-interface { loopback loopback-id | vlan vlan-id }
no tacacs-server source-interface
• loopback-id — Identifies the loopback interface.
• vlan-id — Identifies the VLAN.
Default Configuration
By default, the switch uses the assigned switch IP address as the source IP
address for TACACS packets. This is either the IP address assigned to the
VLAN from which the TACACS packet originates or a loopback interface IP
address.
Command Mode
Global Configuration
User Guidelines
The source interface must have an assigned IP address (either manually or via
another method such as DHCP). Loopback interfaces are not suppported on
the Dell EMC N1100-ON Series switches.
Command History
Introduced in version 6.3.0.1 firmware.
Example
console#conf
console(config)#interface vlan 1
console(config-if-vlan1)#ip address dhcp
console(config-if-vlan1)#exit
console(config)#tacacs-server source-interface vlan 1
tacacs-server timeout
Use the tacacs-server timeout command in Global Configuration mode to set
the interval during which a switch waits for a server host to reply. To restore
the default, use the no form of this command.
Security Commands 951
Syntax
tacacs-server timeout [timeout]
no tacacs-server timeout
• timeout — The timeout value in seconds. (Range: 1–30)
Default Configuration
The default value is 5 seconds.
Command Mode
Global Configuration mode
User Guidelines
This command has no user guidelines.
Example
The following example sets the timeout value as 30.
console(config)#tacacs-server timeout 30
timeout
Use the timeout command in TACACS Configuration mode to specify the
timeout value in seconds. If no timeout value is specified, the global value is
used.
Syntax
timeout [timeout]
• timeout — The timeout value in seconds. (Range: 1–30)
Default Configuration
If left unspecified, the timeout defaults to the global value.
Command Mode
TACACS Configuration mode
Security Commands 952
User Guidelines
This command has no user guidelines.
Example
This example shows how to specify the timeout value.
console(config-tacacs)#timeout 23
Security Commands 953
802.1x Commands
Dell EMC Networking N1100-ON/N1500/N2000/N2100-
ON/N3000/N3100-ON/N4000 Series Switches
Local Area Networks (LANs) are often deployed in environments that permit
the attachment of unauthorized devices. The networks also permit
unauthorized users to attempt to access the LAN through existing
equipment. In such environments, the administrator may desire to restrict
access to the services offered by the LAN.
Port-based network access control makes use of the physical characteristics of
LAN infrastructures to provide a means of authenticating and authorizing
devices attached to a LAN port. Port-based network access control prevents
access to the port in cases in which the authentication and authorization
process fails. A port is defined as a single point of attachment to the LAN.
The Dell EMC Networking switches support an 802.1x Authenticator service
with a local authentication server or authentication using remote RADIUS or
TACACS servers. Refer to "AAA Commands" on page 838 for information on
configuring connectivity to a RADIUS or TACACS authentication server or
to configure the local authentication service.
Dell EMC Networking switches also support 802.1X accounting to RADIUS
or TACACS servers. Refer to the “AAA Commands” section to configure
802.1X accounting.
MD5 or none is the supported authentication method for communication
with an authentication server. Dell EMC Networking does not support
encryption of switch initiated authenticator/authentication server
communication. However, Dell EMC Networking switches are capable of
transporting end-to-end encrypted traffic such as EAP-TLS between a
supplicant and an authenticator.
802.1x Monitor Mode
Monitor mode is a special mode that can be enabled in conjunction with
Dot1x authentication. It allows network access even in case where there is a
failure to authenticate but logs the results of the authentication process for
diagnostic purposes. The exact details are described in the below sections.
The main aim of the monitor mode is to provide a mechanism to the operator
Security Commands 954
to be able to identify the short-comings in the configuration of a 802.1x
authentication on the switch without affecting the network access to the
users of the switch.
There are three important aspects to this feature after activation:
1
To allow successful authentications using the returned information from
authentication server.
2
To provide a mechanism to report unsuccessful authentications without
negative repercussions to the user due to operator errors or failure cases
from the Authentication server or supplicants.
3
To accurately report the data received from the successful and
unsuccessful operations so that the operator can make the appropriate
changes or learn where the problem areas are.
The monitor mode can be configured globally on a switch. If the switch fails
to authenticate the user for any reason (say RADIUS access reject from
RADIUS server, RADIUS time-out, or the client itself is 802.1x unaware), the
client is authenticated and is undisturbed by the failure condition(s). The
reasons for failure are logged and buffered into the local logging database such
that the operator can track the failure conditions. Clients authenticated when
monitor mode is enabled are always assigned to the default VLAN, regardless
of the RADIUS assignment.
Commands in this Section
This section explains the following commands:
dot1x dynamic-vlan enable dot1x system-auth-control
monitor
server-key
dot1x eapolflood dot1x timeout quiet-period show dot1x
dot1x initialize dot1x timeout re-
authperiod
show dot1x authentication-
history
dot1x mac-auth-bypass dot1x timeout server-
timeout
show dot1x clients
dot1x max-req dot1x timeout supp-
timeout
show dot1x interface
Security Commands 955
802.1x Advanced Features
dot1x dynamic-vlan enable
Use the dot1x dynamic-vlan enable command in Global Configuration mode
to enable the capability of creating VLANs dynamically when a RADIUS–
assigned VLAN does not exist in the switch. Use the no form of the command
to disable this capability.
Syntax
dot1x dynamic-vlan enable
no dot1x dynamic-vlan enable
Default Configuration
The default value is Disabled.
Command Mode
Global Configuration
User Guidelines
This command has no user guidelines.
dot1x max-users dot1x timeout tx-period show dot1x interface
statistics
dot1x port-control auth-type show dot1x users
dot1x re-authenticate client clear dot1x authentication–
history
dot1x reauthentication ignore dot1x guest-vlan
dot1x system-auth-control port dot1x unauth-vlan
––
show dot1x advanced
dot1x guest-vlan dot1x unauth-vlan show dot1x advanced
dot1x timeout guest-vlan-
period
––
Security Commands 956
dot1x eapolflood
This command enables the flooding of received IEEE 802.1x frames in the
VLAN. Use the no form of the command to return the processing of EAPOL
frames to the default.
Syntax
dot1x eapolflood
no dot1x eapolflood
Default Configuration
By default, the switch does not forward received IEEE 802.1x frames, even if
802.1x is not enabled on the switch. This is the default behavior required by
IEEE 802.1x-2010.
Command Mode
Global Configuration mode
User Guidelines
Local processing of IEEE 802.1x frames must be disabled (no dot1x system-
auth-control) for this capability to be enabled. This capability is useful in
situations where the authenticator device is placed one or more hops away
from the authenticating host. The intervening switch will flood all received
IEEE 802.1x frames in the VLAN.
Flooding of IEEE 802.1x frames makes end stations vulnerable to a denial of
service attack should another end station record and play back certain flooded
EAPOL frames at a high rate.
dot1x initialize
This command begins the initialization sequence on the specified port. This
command is only valid if the control mode for the specified port is auto or
mac-based. If the control mode is not auto or mac-based, an error will be
returned.
Security Commands 957
Syntax
dot1x initialize [interface interface-id]
• interface-id—The port to be initialized.
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode
User Guidelines
There are no user guidelines for this command.
dot1x mac-auth-bypass
Use the dot1x mac-auth-bypass command to enable MAB on an interface.
Use the no form of this command to disable MAB on an interface.
Syntax
dot1x mac-auth-bypass
no dot1x mac-auth-bypass
Default Configuration
MAC Authentication Bypass is disabled by default.
Command Mode
Interface Configuration (Ethernet) mode
User Guidelines
Authentication of a user via mac-auth-bypass will not occur until the “dot1x
time-out guest-vlan-period” timer expires.
When using MAB, configure the user name and password attributes with the
supplicant MAC address using the form XXXXXXXXXXXX where X is an
upper case hexadecimal digit.
Security Commands 958
Example
The following example sets MAC Authentication Bypass on interface
gigabitethernet 1/0/2:
console(config-if-Gi1/0/2)#dot1x port-control mac-based
console(config-if-Gi1/0/2)#dot1x mac-auth-bypass
dot1x max-req
Use the dot1x max-req command in Interface Configuration mode to set the
maximum number of times that the switch sends an Extensible
Authentication Protocol (EAP)-request frame (assuming that no response is
received) to the client before restarting the authentication process. To return
to the default setting, use the no form of this command.
Syntax
dot1x max-req count
no dot1x max-req
• count — Number of times that the switch sends an EAP-request/identity
frame before restarting the authentication process. (Range: 1–10)
Default Configuration
The default value for the count parameter is 2.
Command Mode
Interface Configuration (Ethernet) mode
User Guidelines
Change the default value of this command only to adjust for unusual
circumstances, such as unreliable links or specific behavioral problems with
certain clients and authentication servers.
Example
The following example sets the number of times that the switch sends an
EAP-request/identity frame to 6.
console(config)# interface gigabitethernet 1/0/16
console(config-if-Gi1/0/16)# dot1x max-req 6
Security Commands 959
dot1x max-users
Use the dot1x max-users command in Interface Configuration mode to set
the maximum number of clients supported on the port when MAC-based
802.1x authentication is enabled on the port. Use the no version of the
command to reset the maximum number of clients supported on the port
when MAC-based 802.1x authentication is enabled on the port.
Syntax
dot1x max-users users
no dot1x max-users
• users — The number of users the port supports for MAC-based 802.1x
authentication (Range: 1–64)
Default Configuration
The default number of clients supported on a port with MAC-based 802.1x
authentication is 64. The N1100-ON Series switches, the range is 1–32.
Command Mode
Interface Configuration (Ethernet) mode
User Guidelines
The N1100-ON Series switches support up to 32 users per interface.
Example
The following command limits the number of devices that can authenticate
on port gigabitethernet 1/0/2 to 3.
console(config-if-Gi1/0/2)#dot1x max-users 3
dot1x port-control
Use the dot1x port-control command in Interface Configuration mode to
configure the 802.1x mode of authentication on the port. Use the no form of
the command to return the mode to the default.
Security Commands 960
Syntax
dot1x port-control {force-authorized | force-unauthorized | auto | mac-
based}
no dot1x port-control
•auto — Enables 802.1x authentication on the interface and causes the
port to transition to the authorized or unauthorized state based on the
802.1x authentication exchange between the switch and the client. VLAN
assignment is allowed on the port if it is not configured in trunk mode.
This is the default port-control mode.
•force-authorized — Disables 802.1x authentication on the interface and
causes the port to transition to the authorized state without any
authentication exchange required. The port sends and receives normal
traffic without 802.1x-based authentication of the client. VLAN
assignment is not supported in this mode.
•force-unauthorized — Denies all access through this interface by forcing
the port to transition to the unauthorized state, ignoring all attempts by
the client to authenticate. The switch cannot provide authentication
services to the client through the interface. VLAN assignment is not
supported in this mode.
•mac-based — Enables 802.1x authentication on the interface and allows
multiple hosts to authenticate on a single port. The hosts are distinguished
by their MAC addresses. VLAN assignment is allowed on the port if it is
configured in General mode.
Default Configuration
The default port-control mode is auto.
Command Mode
Interface Configuration (Ethernet) mode
User Guidelines
It is recommended that you disable spanning tree or enable spanning-tree
portfast mode on 802.1x edge ports (ports in auto state that are connected to
end stations) in order to go immediately to the forwarding state after
successful authentication.
Security Commands 961
When configuring a port to use MAC-based authentication, the port must be
in switchport general mode.
Example
The following command enables MAC-based authentication on port 1/0/2
console(config)# interface gigabitethernet 1/0/2
console(config-if-Gi1/0/2)# dot1x port-control mac-based
dot1x re-authenticate
Use the dot1x re-authenticate command to manually initiate a
re-authentication of all 802.1x-enabled ports or the specified 802.1x-enabled
port.
Syntax
dot1x re-authenticate [gigabitethernet unit/slot/port | tengigabitethernet
unit/slot/port | fortygigabitethernet unit/slot/port]
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode
User Guidelines
Interfaces that are not running the 802.1x protocol (e.g. MAB configured
ports) are not re-authenticated. Only ports that have an authentication dot1x
port-control mode of auto are re-authenticated.
Example
The following command manually initiates a reauthentication of the 802.1x-
enabled port.
console# dot1x re-authenticate gigabitethernet 1/0/16
Security Commands 962
dot1x reauthentication
Use the dot1x reauthentication command in Interface Configuration mode
to enable periodic re-authentication of the client. To return to the default
setting, use the no form of this command.
Syntax
dot1x reauthentication
no dot1x reauthentication
Default Configuration
Periodic reauthentication is disabled.
Command Mode
Interface Configuration (Ethernet) mode
User Guidelines
This command has no user guidelines.
Example
The following example enables periodic reauthentication of the client.
console(config)# interface gigabitethernet 1/0/16
console(config-if-Gi1/0/16)# dot1x reauthentication
dot1x system-auth-control
Use the dot1x system-auth-control command in Global Configuration mode
to enable 802.1x globally. To disable 802.1x globally, use the no form of this
command.
Syntax
dot1x system-auth-control
no dot1x system-auth-control
Security Commands 963
Default Configuration
The default for this command is disabled.
Command Mode
Global Configuration mode
User Guidelines
Devices connected to interfaces on which IEEE 802.1X authentication is
enabled will be required to authenticate before accessing network resources.
This command enables local processing of IEEE 802.1x frames on the switch.
Dot1x eapolflood mode must be disabled for local processing to occur.
If 802.1x is used in combination with the authentication manager, be sure to
enable the authentication manager with the authentication enable
command.
Example
The following example enables 802.1x globally.
console(config)# dot1x system-auth-control
dot1x system-auth-control monitor
Use the dot1x system-auth-control monitor command in Global
Configuration mode to enable 802.1x monitor mode globally. To disable this
function, use the no form of this command.
Syntax
dot1x system-auth-control monitor
no dot1x system-auth-control monitor
Default Configuration
Dot1x monitor mode is disabled.
Command Mode
Global Configuration mode
Security Commands 964
User Guidelines
Monitor mode always allows access to network resources, even if
authentication fails.
Example
The following command enables monitor mode. Clients are always
authenticated in monitor mode.
console(config)# dot1x system-auth-control monitor
dot1x timeout quiet-period
Use the dot1x timeout quiet-period command in Interface Configuration
mode to set the number of seconds that the switch remains in the quiet state
following a failed authentication exchange (for example, the client provided
an invalid password). To return to the default setting, use the no form of this
command.
Syntax
dot1x timeout quiet-period seconds
no dot1x timeout quiet-period
• seconds — Time in seconds that the switch remains in the quiet state
following a failed authentication exchange with the client. (Range: 0–
65535 seconds)
Default Configuration
The switch remains in the quiet state for 60 seconds.
Command Mode
Interface Configuration (Ethernet) mode
User Guidelines
During the quiet period, the switch does not accept or initiate any
authentication requests.
Security Commands 965
Change the default value of this command only to adjust for unusual
circumstances, such as unreliable links or specific behavioral problems with
certain clients and authentication servers.
To provide a faster response time to the user, enter a smaller number than the
default.
Example
The following example sets the number of seconds that the switch remains in
the quiet state following a failed authentication exchange to 3600.
console(config)# interface gigabitethernet 1/0/16
console(config-if-Gi1/0/16)# dot1x timeout quiet-period 3600
dot1x timeout re-authperiod
Use the dot1x timeout re-authperiod command in Interface Configuration
mode to set the number of seconds between reauthentication attempts. To
return to the default setting, use the no form of this command.
Syntax
dot1x timeout re-authperiod seconds
no dot1x timeout re-authperiod
• seconds — Number of seconds between re-authentication attempts.
(Range: 300–4294967295)
Default Configuration
The default re-authentication period is 3600 seconds.
Command Mode
Interface Configuration (Ethernet) mode
User Guidelines
The re-authentication process sends an authentication message (EAP-
Request/Identity)to authenticated supplicants asking them to re-
authenticate themselves. If a supplicant fails re-authentication, it is denied
access to switch resources.
Security Commands 966
Example
The following example sets the number of seconds between re-authentication
attempts to 300.
console(config)# interface gigabitethernet 1/0/16
console(config-if-Gi1/0/16)# dot1x timeout re-authperiod 300
dot1x timeout server-timeout
Use the dot1x timeout server-timeout command in Interface Configuration
mode to set the time that the switch waits for a response from the
authentication server. To return to the default setting, use the no form of this
command.
Syntax
dot1x timeout server-timeout seconds
no dot1x timeout server-timeout
• seconds — Time in seconds that the switch waits for a response from the
authentication server. (Range: 1–65535)
Default Configuration
The period of time is set to 30 seconds.
Command Mode
Interface Configuration (Ethernet) mode
User Guidelines
The actual timeout is this parameter or the product of the RADIUS
transmission times the RADIUS timeout, whichever is smaller.
Example
The following example sets the time for the retransmission to the
authentication server to 3600 seconds.
console(config-if-gi1/0/1)# dot1x timeout server-timeout 3600
Security Commands 967
dot1x timeout supp-timeout
Use the dot1x timeout supp-timeout command to set the time that the
switch waits for a response before retransmitting an Extensible
Authentication Protocol (EAP-Request/Identity) frame to the client. To
return to the default setting, use the no form of this command.
Syntax
dot1x timeout supp-timeout seconds
no dot1x timeout supp-timeout
• seconds—The time in seconds that the switch should wait for a response
to an EAP-request frame from the client before resending the request.
(Range: 1–65535)
Default Configuration
The default supplicant timeout is 30 seconds.
Command Mode
Interface Configuration mode
User Guidelines
Change the value of the supplicant timeout only to adjust for unusual
circumstances, such as unreliable links or specific behavioral problems with
certain clients and authentication servers. The default timeout value is set
per IEEE 802.1x.
This value is used in conjunction with the dot1x timeout server-timeout
command to limit the amount of time a supplicant can remain in a pending
authentication state.
Example
console(config-if-Gi1/0/1)#dot1x timeout supp-timeout 60
Security Commands 968
dot1x timeout tx-period
Use the dot1x timeout tx-period command in Interface Configuration mode
to set the number of seconds that the switch waits for a response to an
Extensible Authentication Protocol
EAP-Request/Identity
frame from the
client before resending the request. To return to the default setting, use the
no form of this command.
Syntax
dot1x timeout tx-period seconds
no dot1x timeout tx-period
• seconds — Time in seconds that the switch should wait for a response to
an EAP-Request/Identity frame from the client before resending the
request. (Range: 1–65535)
Default Configuration
The period of time is set to 30 seconds.
Command Mode
Interface Configuration (Ethernet) mode
User Guidelines
Change the default value of this command only to adjust for unusual
circumstances, such as unreliable links or specific behavioral problems with
certain clients and authentication servers.
Example
The following command sets the number of seconds that the switch waits for
a response to an EAP-request/identity frame to 3600 seconds.
console(config)# interface gigabitethernet 1/0/16
console(config-if-Gi1/0/16)# dot1x timeout tx-period 3600
Security Commands 969
auth-type
Use this command to set the accepted authorization types for dynamic
RADIUS clients. Use the no form of the command to set the authorization
type to the default.
Syntax
auth-type { all | any |session-key}
no auth-type
•all—Selects all COA client authentication types. All authentication
attributes must match for the authentication to succeed.
•any—Selects any COA client authentication type. Any authentication
attribute may match for the authentication to succeed.
•session-key—Indicates that the session-key must match for authentication
to succeed.
Default Configuration
The default is to authenticate with all parameters.
Command Modes
Dynamic Radius Configuration
User Guidelines
This command specifies the attributes to validate before acting on a CoA or
disconnect request. If session-key is specified and the session ID is valid,
authentication succeeds even if the session-key does not match.
This command works in concert with the ignore command. The ignore
command refines the all parameter to limit the attribute matching.
Command History
Introduced in version 6.2.0.1 firmware.
Example
console(config-radius-da)# auth-type all
Security Commands 970
client
Use this command to enter the CoA client parameters.
Syntax
client {ip-address | hostname } [ server-key [0 | 7] key-string ]
no client {ip-address | hostname }
• ip-address—The IPv4 address of a CoA client. The IPv4 address is entered
in dotted-quad notation.
•
host
name—The fully qualified domain name (FQDN) of a CoA client.
Maximum length of a host FQDN is 255 characters.
• server-key —Sets the shared secret to verify client COA requests for this
server.
•0—An unencrypted key is to be entered.
•7—An encrypted key is to be entered.
•
key-
string—The key string in encrypted or unencrypted form. In encrypted
form, it must be 256 characters in length. In unencrypted form, it may be
up to 128 characters in length. Enclose in key string in quotes to use
special characters or embedded blanks.
Default Configuration
By default, no dynamic CoA clients are configured.
Command Modes
Dynamic Radius Configuration
User Guidelines
Up to 8 dynamic CoA clients can be configured.
The server-key, if configured, overrides the global shared secret for this client
only.
Messages received from a dynamic RADIUS client are validated against the
configured servers. Messages received from unconfigured dynamic RADIUS
clients are silently discarded.
Security Commands 971
Command History
Introduced in version 6.2.0.1 firmware.
Example
The following example configures RADIUS servers at 1.1.1.1, 2.2.2.2, and
3.3.3.3 and CoA clients at 3.3.3.3, 4.4.4.4, and 5.5.5.5. It sets the front panel
ports to use 802.1x MAC-based authentication. CoA is configured for two
RADIUS servers located at 1.1.1.1 and 2.2.2.2 using a global shared secret and
a third server using a server specific shared secret. CoA and disconnect
requests are accepted from these servers. Any authentication type is allowed
for CoA and disconnect requests.
console#configure terminal
console(config)# aaa new-model
console(config)# aaa authentication dot1x default radius
console(config)# dot1x system-auth-control
console(config)# interface range gi1/0/1-24
console(config-if)# dot1x port-control mac-based
console(config-if)# exit
console(config)# radius-server host 1.1.1.1
console(config-auth-radius)#primary
console(config-auth-radius)#exit
console(config)# radius-server host 2.2.2.2
console(config-auth-radius)#exit
console(config)# radius-server host 3.3.3.3
console(config-auth-radius)#key “That’s your secret.”
console(config-auth-radius)#exit
console(config)# radius-server key “Keep it. Keep it.”
console(config)# aaa server radius dynamic-author
console(config-radius-da)# client 3.3.3.3 server-key 0 “That’s your secret.”
console(config-radius-da)# client 4.4.4.4
console(config-radius-da)# client 5.5.5.5
console(config-radius-da)# server-key 0 “Keep it. Keep it.”
console(config-radius-da)# port 3799
console(config-radius-da)# auth-type any
console(config-radius-da)# exit
console(config)#dot1x system-auth-control
console(config)#dot1x initialize
Security Commands 972
ignore
Use this command to set the switch to ignore certain authentication
parameters from dynamic RADIUS clients. Use the no form of the command
to restore checking of the specific authentication parameters as configured by
the auth-type command.
Syntax
ignore {session-key | server-key}
no ignore {session-key | server-key}
• Session-key—Do not attempt to authenticate with the session key.
• Server-key—Do not attempt to authenticate with the server key.
Default Configuration
The default is to authenticate using the parameters as specified by the
configured auth-type.
Command Modes
Dynamic Radius Configuration
User Guidelines
This command specifies the attributes to validate before acting on a CoA or
disconnect request. If session-key is specified and the session ID is valid,
authentication succeeds even if the session-key does not match.
The ignore command refines the all parameter to limit the attribute
matching.
Setting the auth-type to session-key in conjunction with setting the ignore
session-key is invalid and causes all configured servers to authenticate with no
warnings.
Command History
Introduced in version 6.2.0.1 firmware.
Example
console(config-radius-da)# ignore session-key
Security Commands 973
port
Use this command to set the port on which to listen for CoA and disconnect
requests from authorized dynamic RADIUS clients.
Syntax
port port–number
no port
• port-number—An integer in the range of 1025–65535
Default Configuration
The default is port 3799.
Command Modes
Dynamic Radius Configuration
User Guidelines
Only one port may be defined and it is used to all RADIUS clients. Do not use
a port number reserved for use by the switch. UDP, TCP and RAW Ports
reserved by the switch and unavailable for use or configuration are:
Ports 1, 17, 58, 255, 546, 547, 2222, 4567, 6343, 49160
Command History
Introduced in version 6.2.0.1 firmware.
Example
console(config-radius-da)# port 1700
server-key
Use this command to configure a global shared secret that is used for all
dynamic RADIUS clients that do not have an individual shared secret
configured. Use the no form of the command to remove the global shared
secret configuration.
Security Commands 974
Syntax
server-key [0 | 7] key-string
no server-key
•0—An unencrypted key is to be entered.
•7—An encrypted key is to be entered.
• key-string—The key string in encrypted or unencrypted form. In encrypted
form, it must be 256 characters in length. In unencrypted form, it may be
up to 128 characters in length. Enclose the key string in quotes to use
special characters or embedded blanks.
Default Configuration
By default, no global server key is configured.
Command Modes
Dynamic Radius Configuration
User Guidelines
Only one global server key may be defined. Use the server-key parameter in
the client command to configure a unique server key for each client.
Command History
Introduced in version 6.2.0.1 firmware.
Example
The following example configures RADIUS servers at 1.1.1.1, 2.2.2.2, and
3.3.3.3. It sets the front panel ports to use 802.1x MAC-based authentication.
CoA is configured for two RADIUS servers located at 1.1.1.1 and 2.2.2.2 using
a global shared secret and a third server 3.3.3.3 using a server specific shared
secret. CoA and disconnect requests are accepted from these servers. Any
authentication type is allowed for CoA and disconnect requests.
console#configure terminal
console(config)# aaa new-model
console(config)# aaa authentication dot1x default radius
console(config)# dot1x system-auth-control
console(config)# interface range gi1/0/1-24
console(config-if)# dot1x port-control mac-based
Security Commands 975
console(config-if)# exit
console(config)# radius-server host 1.1.1.1
console(config-auth-radius)#primary
console(config-auth-radius)#exit
console(config)# radius-server host 2.2.2.2
console(config-auth-radius)#exit
console(config)# radius-server host 3.3.3.3
console(config-auth-radius)#key “That’s your secret.”
console(config-auth-radius)#exit
console(config)# radius-server key “Keep it. Keep it.”
console(config)# aaa server radius dynamic-author
console(config-radius-da)# client 3.3.3.3 server-key 0 “That’s your secret.”
console(config-radius-da)# client 1.1.1.1
console(config-radius-da)# client 2.2.2.2
console(config-radius-da)# server-key 0 “Keep it. Keep it.”
console(config-radius-da)# port 3799
console(config-radius-da)# auth-type any
console(config-radius-da)# exit
console(config)#dot1x system-auth-control
console(config)#dot1x initialize
show dot1x
Use the show dot1x command to display:
•
A summary of
the global dot1x configuration.
• Summary information of the dot1x configuration for a specified port or all
ports.
• Detailed dot1x configuration for a specified port
• Dot1x statistics for a specified port, depending on the tokens used.
Syntax
show dot1x [interface interface-id [statistics]]
• interface-id—Any valid interface. See Interface Naming Conventions for
interface representation.
Default Configuration
This command has no default configuration.
Security Commands 976
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
If you do not use the optional parameters, the command displays the global
dot1x mode, Dynamic VLAN Creation Mode, Monitor Mode, EAPOL Flood
Mode, and the VLAN Assignment mode.
Example
console(config-if-Gi1/0/1)#show dot1x
Administrative Mode............... Disabled
Dynamic VLAN Creation Mode........ Disabled
VLAN Assignment Mode.............. Disabled
Monitor Mode...................... Disabled
EAPOL Flood Mode.................. Disabled
Port Admin Mode Oper Mode Reauth Reauth
Control Period
--------- ------------------ ------------ -------- ----------
Gi1/0/1 auto N/A FALSE 3600
Gi1/0/2 auto N/A FALSE 3600
Gi1/0/3 auto N/A FALSE 3600
Field Description
Administrative
Mode
Indicates whether authentication control on the switch is
enabled or disabled.
VLAN Assignment
Mode
Indicates whether assignment of an authorized port to a
RADIUS assigned VLAN is allowed (enabled) or not (disabled).
Monitor Mode Indicates whether the Dot1x Monitor mode on the switch is
enabled or disabled.
Dynamic VLAN
Creation Mode
Indicates if VLANs assigned by the RADIUS server are
dynamically created by the dot1x client.
EAPOL flood mode Indicates whether EAPOL frames are flooded on the interface
or are processed locally by the switch.
Security Commands 977
show dot1x authentication-history
Use the show dot1x authentication-history command to display the dot1x
authentication events and information during successful and unsuccessful
dot1x authentication processes. The command is available to display all
events, or events per interface, or only failure authentication events in
summary or in detail.
Syntax
show dot1x authentication-history {interface-id | all} [failed-auth-only]
[detail]
• interface-id— Any valid interface. See Interface Naming Conventions for
interface representation.
• all—All interfaces.
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
The following table explains the output parameters.
Parameter Description
Time Stamp Exact time at which the event occurs.
Interface Physical Port on which the event occurs.
MAC-Address Supplicant/Client MAC Address
VLAN assigned VLAN assigned to the client/port on authentication.
VLAN assigned
Reason
Type of VLAN ID assigned i.e Guest VLAN, Unauth,
Default, Radius Assigned or Monitor Mode VLAN ID.
Auth Status Authentication Status
Security Commands 978
Example
console#show dot1x authentication-history all detail
Time Stamp.......................... Mar 22 2010 01:16:31
Result Age.......................... 0 days, 1 hours, 17 minutes, 38 seconds
Interface........................... Gi1/0/2
MAC-Address......................... 00:01:02:03:04:05
VLAN Assigned....................... 111
VLAN Assigned Reason................ Guest VLAN
Filter Name.........................
Auth Status......................... Authorized
Reason.............................. Dot1x Authentication due to Guest VLAN
Timer Expiry.
......
......
console#show dot1x authentication-history all
Time Stamp Interface MAC-Address VLANID Auth Status
--------------------- --------- ----------------- ------ ----------
Mar 22 2010 01:16:31 Gi1/0/2 00:01:02:03:04:05 111 Authorized
Mar 22 2010 01:20:33 Gi1/0/7 00:00:0D:00:00:00 222 Authorized
console#show dot1x authentication-history gi1/0/1
Time Stamp Interface MAC-Address VLANID Auth Status
--------------------- --------- ----------------- ------ ----------
Mar 22 2010 01:16:31 Gi1/0/1 00:01:02:03:04:05 111 Authorized
Mar 22 2010 01:18:22 Gi1/0/1 00:00:00:03:04:05 0 Unauthorized
console#show dot1x authentication-history gi1/0/1 failed-auth-only
Time Stamp Interface MAC-Address VLANID Auth Status
--------------------- --------- ----------------- ------ ----------
Mar 22 2010 01:18:22 Gi1/0/2 00:00:00:03:04:05 0 Unauthorized
Reason Actual reason behind the successful or failure authentication.
Result Age Time since last result.
Filter Name The name of the assigned filter (policy map).
Parameter Description
Security Commands 979
show dot1x clients
Use the show dot1x clients command to display 802.1x client information.
The client information is displayed in summary or in detail. The command
also displays the statistics of the number of clients that are authenticated
using Monitor Mode and using 802.1x.
Syntax
show dot1x clients {interface–id | all}
• interface–id—Any valid interface. See Interface Naming Conventions for
interface representation.
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
The following fields are displayed by this command.
The following table describes the significant fields shown in the display.
Field Description
Clients
Authenticated using
Monitor Mode
Indicates the number of Dot1x clients authenticated using
Monitor mode.
Clients
Authenticated using
Dot1x
Indicates the number of Dot1x clients authenticated using
802.1x authentication process.
Field Description
Interface The port number.
Security Commands 980
Example
The following example displays information about the 802.1x clients.
console#show dot1x clients all
Clients Authenticated using Monitor Mode....... 1
Clients Authenticated using Dot1x.............. 1
Interface...................................... Gi1/0/2
User Name...................................... 000102030405
Supp MAC Address............................... 00:01:02:03:04:05
Session Time................................... 518
Filter Id......................................
VLAN Assigned.................................. 1
Interface...................................... Gi1/0/7
User Name...................................... dell
Supp MAC Address............................... 00:08:A1:7E:45:1A
Session Time................................... 67
VLAN Assigned.................................. Monitor Mode
show dot1x interface
This command shows the status and configuration of an IEEE 802.1x
configured interface.
Username The username representing the identity of the Supplicant.
This field shows the username when the port control is
auto or mac-based. If the port is Authorized, it shows the
username of the current user. If the port is unauthorized it
shows the last user that was authenticated successfully.
Supp MAC Address The MAC-address of the supplicant
Session Time The amount of time, in seconds, since the client was
authenticated on the port.
Filter ID The Filter ID assigned to the client by the RADIUS server.
This field is not applicable when the Filter-ID feature is
disabled on the RADIUS server and client.
VLAN Assigned The VLAN assigned to the client by the radius server.
When VLAN assignments are disabled, RADIUS server
does not assign any VLAN to the port, and this field is set
to 0.
Field Description
Security Commands 981
Syntax
show dot1x interface interface-id
Default Configuration
There is no default configuration for this command.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
The command accepts Ethernet interface identifiers.
Example
console#show dot1x interface gigabitethernet 1/0/10
Administrative Mode............... Disabled
Dynamic VLAN Creation Mode........ Disabled
Monitor Mode...................... Disabled
Port Admin Oper Reauth Reauth
Mode Mode Control Period
------- ------------------ ------------ -------- ----------
Gi1/0/10 auto N/A FALSE 3600
Quiet Period................................... 60
Transmit Period................................ 30
Maximum Requests............................... 2
Max Users...................................... 16
VLAN Assigned..................................
Supplicant Timeout............................. 30
Guest-vlan Timeout............................. 30
Server Timeout (secs).......................... 30
MAB mode (configured).......................... Disabled
MAB mode (operational)......................... Disabled
Authenticator PAE State........................ Initialize
Backend Authentication State................... Initialize
Security Commands 982
show dot1x interface statistics
Use the show dot1x interface statistics command to display 802.1x statistics
for the specified interface.
Syntax
show dot1x interface {gigabitethernet unit/slot/port| tengigabitethernet
unit/slot/port | fortygigabitethernet unit/slot/port} statistics
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
The following table describes the significant fields shown in the display.
Field Description
Port The interface for which counters are displayed.
EAPOL Frames Received The number of valid EAPOL frames of any type that
have been received by this Authenticator.
EAPOL Frames
Transmitted
The number of EAPOL frames of any type that have
been transmitted by this Authenticator.
EAPOL Start Frames
Received
The number of EAPOL Start frames that have been
received by this Authenticator.
EAPOL Logoff Frames
Received
The number of EAPOL Logoff frames that have been
received by this Authenticator.
EAP Response/ID Frames
Received
The number of EAP Resp/Id frames that have been
received by this Authenticator.
EAP Response Frames
Received
The number of valid EAP Response frames (other than
Resp/Id frames) that have been received by this
Authenticator.
Security Commands 983
Example
The following example displays 802.1x statistics for the specified interface.
console#show dot1x interface gigabitethernet 1/0/2 statistics
Port......................................... Gi1/0/2
EAPOL Frames Received.......................... 0
EAPOL Frames Transmitted....................... 0
EAPOL Start Frames Received.................... 0
EAPOL Logoff Frames Received................... 0
Last EAPOL Frame Version....................... 0
Last EAPOL Frame Source........................ 0000.0000.0000
EAP Response/Id Frames Received................ 0
EAP Response Frames Received................... 0
EAP Request/Id Frames Transmitted.............. 0
EAP Request Frames Transmitted................. 0
Invalid EAPOL Frames Received.................. 0
EAPOL Length Error Frames Received............. 0
show dot1x users
Use the show dot1x users command to display 802.1x authenticated users for
the switch.
EAP Request/ID Frames
Transmitted
The number of EAP Req/Id frames that have been
transmitted by this Authenticator.
EAP Request Frames
Transmitted
The number of EAP Request frames (other than Rq/Id
frames) that have been transmitted by this
Authenticator.
Invalid EAPOL Frames
Received
The number of EAPOL frames that have been received
by this Authenticator in which the frame type is not
recognized.
EAPOL Length Error
Frames Received
The number of EAPOL frames that have been received
by this Authenticator in which the Packet Body Length
field is invalid.
Last EAPOL Frame
Version
The protocol version number carried in the most recently
received EAPOL frame.
Last EAPOL Frame
Source
The source MAC address carried in the most recently
received EAPOL frame.
Field Description
Security Commands 984
Syntax
show dot1x users [username username]
• username — Supplicant username (Range: 1–160 characters)
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
This command has no user guidelines.
Example
The following example displays 802.1x users.
console#show dot1x users
Port Username
--------- ---------
Gi1/0/1 Bob
Gi1/0/2 John
Switch# show dot1x users username Bob
Port Username
--------- ---------
Gi1/0/1 Bob
The following table describes the significant fields shown in the display:
clear dot1x authentication–history
Use the clear dot1x authentication–history command to clear the
authentication history table captured during successful and unsuccessful
authentication.
Field Description
Username The username representing the identity of the Supplicant.
Port The port over which the user authenticated.
Security Commands 985
Syntax
clear dot1x authentication–history [interface–id]
• interface–id—Any valid interface. See Interface Naming Conventions for
interface representation.
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode
User Guidelines
This command has no user guidelines.
Example
This examples clears all entries from the authentication log.
console#clear dot1x authentication-history
This example purges all entries for the specified interface from the
authention log.
console#clear dot1x authentication-history gi1/0/1
802.1x Advanced Features
dot1x guest-vlan
Use the dot1x guest-vlan command in Interface Configuration mode to set
the guest VLAN on a port. The VLAN must be defined prior to use. The no
form of this command sets the guest VLAN id to zero, which disables the
guest VLAN on a port.
Syntax
dot1x guest-vlan vlan-id
no dot1x guest-vlan
Security Commands 986
• vlan-id — The ID of a valid VLAN to use as the guest VLAN (Range: 0-
4093).
Default Configuration
The guest VLAN is disabled on the interface by default.
Command Mode
Interface Configuration (Ethernet) mode
User Guidelines
If configured, the guest VLAN is the VLAN to which 802.1X unaware clients
are assigned. Configure the guest VLAN before using this command.
The switch attempts authentication three times before assigning a supplicant
to the guest VLAN.
Example
The following example sets the guest VLAN on port 1/0/2 to VLAN 10.
console(config-if-Gi1/0/2)#dot1x guest-vlan 10
dot1x timeout guest-vlan-period
Use the dot1x timeout guest-vlan-period command in Interface
Configuration mode to set the number of seconds that the switch waits
before authorizing the client if the client is an 802.1X unaware client. Use the
no form of the command to return the timeout to the default value.
Syntax
dot1x timeout guest-vlan-period seconds
no dot1x timeout guest-vlan-period
• seconds — Time in seconds that the switch waits before authorizing the
client if the client is a
802.1X
unaware client. Range 1-300.
Default Configuration
The switch remains in the quiet state for 90 seconds.
Security Commands 987
Command Mode
Interface Configuration (Ethernet) mode
User Guidelines
It is recommended that the user set the dot1x timeout guest-vlan-period to at
least three times the while timer so that at least three EAP Requests are sent,
before assuming that the client is an 802.1X unaware client. An 802.1X
unaware client is one that does not respond to EAP-Request/Identity frames
and does not send EAPOL-Start or EAP-Response/Identity frames.
Example
The following example sets the 802.1X timeout guest vlan period to 100
seconds.
console(config)# dot1x timeout guest-vlan-period 100
dot1x unauth-vlan
Use the dot1x unauth-vlan command in Interface Configuration mode to
specify the unauthenticated VLAN on a port. The unauthenticated VLAN is
the VLAN to which supplicants that fail 802.1x authentication are assigned.
Syntax
dot1x unauth-vlan vlan-id
no dot1x unauth-vlan
• vlan-id — The ID of a valid VLAN to use for unauthenticated clients
(Range: 0-4093).
Default Configuration
The unauthenticated VLAN is disabled on the interface by default.
Command Mode
Interface Configuration (Ethernet) mode
Security Commands 988
User Guidelines
The switch attempts authentication three times before assigning a user to the
unauthenticated VLAN. Configure the unauthenticated VLAN before using
this command.
Example
The following example set the unauthenticated VLAN on port 1/0/2 to VLAN
20.
console(config-if-Gi1/0/2)#dot1x unauth-vlan 20
show dot1x advanced
Use the show dot1x advanced command to display 802.1x advanced features
for the switch or for the specified interface. The output of this command has
been updated in release 2.1 to remove the Multiple Hosts column and add an
Unauthenticated VLAN column, which indicates whether an
unauthenticated VLAN is configured on a port. The command has also been
updated to show the Guest VLAN ID (instead of the status) since it is now
configurable per port.
Syntax
show dot1x advanced [{gigabitethernet unit/slot/port| tengigabitethernet
unit/slot/port | fortygigabitethernet unit/slot/port}]
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
This command has no user guidelines.
Example
The following example displays 802.1x advanced features for the switch.
Security Commands 989
console#show dot1x advanced
Port Guest Unauthenticated
VLAN Vlan
--------- --------- ---------------
Gi1/0/1 Disabled Disabled
Gi1/0/2 10 20
Gi1/0/3 Disabled Disabled
Gi1/0/4 Disabled Disabled
Gi1/0/5 Disabled Disabled
Gi1/0/6 Disabled Disabled
console#show dot1x advanced gigabitethernet 1/0/2
Port Guest Unauthenticated
VLAN Vlan
--------- --------- ---------------
Gi1/0/2 10 20
Security Commands 990
Captive Portal Commands
Dell EMC Networking N1100-ON/N1500/N2000/N2100-
ON/N3000/N3100-ON/N4000 Series Switches
The Captive Portal feature is a software implementation that blocks both
wired and wireless clients from accessing the network until user verification
has been established. Verification can be configured to allow access for both
guest and authenticated users. Authenticated users must be validated against
a database of authorized Captive Portal users before access is granted.
The Authentication server supports both HTTP and HTTPS web
connections. In addition, Captive Portal can be configured to use an optional
HTTP port (in support of HTTP Proxy networks) or an optional HTTPS port.
If configured, this additional port or ports are then used exclusively by
Captive Portal.
NOTE: This optional HTTP port is in addition to the standard HTTP port 80 which is
currently being used for all other web traffic, and the optional HTTPS port is in
addition to the standard HTTPS port 443 used for secure web traffic.
Commands in this Section
This section explains the following commands:
Administrative Profiles Commands
Captive Portal Configuration Commands
authentication timeout https port
captive-portal show captive-portal
enable show captive-portal status
http port
–
block name (Captive Portal)
configuration protocol
enable redirect
group redirect-url
Security Commands 991
Captive Portal Client Connection Commands
Captive Portal Local User Commands
Captive Portal Status Commands
Captive Portal User Group Commands
interface session-timeout
locale verification
captive-portal client deauthenticate show captive-portal interface client status
show captive-portal client status show captive-portal interface configuration
status
show captive-portal configuration client
status
–
clear captive-portal users user-logout
no user user name
show captive-portal user user password
user group user session-timeout
show captive-portal configuration show captive-portal configuration locales
show captive-portal configuration interface show captive-portal configuration status
user group user group name
user group moveusers
–
Security Commands 992
Captive Portal Global Commands
authentication timeout
Use the authentication timeout command to configure the authentication
timeout. If the user does not enter valid credentials within this time limit, the
authentication page needs to be served again in order for the client to gain
access to the network. Use the “no” form of this command to reset the
authentication timeout to the default.
Syntax
authentication timeout timeout
no authentication timeout
• timeout — The authentication timeout (Range: 60–600 seconds).
Default Configuration
The default authentication timeout is 300 seconds.
Command Mode
Captive Portal Configuration mode.
User Guidelines
There are no user guidelines for this command.
Example
console(config-cp)#authentication timeout 600
console(config-cp)#no authentication timeout
captive-portal
Use the captive-portal command to enter the captive portal configuration
mode.
Syntax
captive-portal
Security Commands 993
Default Configuration
There is no default configuration for this command.
Command Mode
Global Configuration mode
User Guidelines
There are no user guidelines for this command.
Example
console(config)#captive-portal
console(config-cp)#
enable
Use the enable command to globally enable captive portal. Use the “no” form
of this command to globally disable captive portal.
Syntax
enable
no enable
Default Configuration
Captive Portal is disabled by default.
Command Mode
Captive Portal Configuration mode.
User Guidelines
There are no user guidelines for this command.
Example
console(config-cp)#enable
Security Commands 994
http port
Use the http port command to configure an additional HTTP port for captive
portal to listen for connections. Use the “no” form of this command to
remove the additional HTTP port from monitoring.
Syntax
http port port-num
no http port
• port-num — The port number on which the HTTP server listens for
connections
(
Range: 1025–65535).
Default Configuration
Captive portal only monitors port 80 by default.
Command Mode
Captive Portal Configuration mode
User Guidelines
The port number should not be set to a value that might conflict with other well-
known protocol port numbers used on this switch.
Example
console(config-cp)#http port 32768
console(config-cp)#no http port
https port
Use the https port command to configure an additional HTTPS port for
captive portal to monitor. Use the “no” form of this command to remove the
additional HTTPS port.
Syntax
https port port-num
no https port
Security Commands 995
• port-num — The port number on which the HTTPS server listens for
connections (Range: 1025–65535).
Default Configuration
Captive portal listens on port 443 by default.
Command Mode
Captive Portal Configuration mode.
User Guidelines
The port number should not be set to a value that might conflict with other well-
known protocol port numbers used on this switch.
Example
console(config-cp)#https port 1443
console(config-cp)#no https port
show captive-portal
Use the show captive-portal command to display the status of the captive
portal feature.
Syntax
show captive-portal
Default Configuration
There is no default configuration for this command
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
There are no user guidelines for this command.
Security Commands 996
Example
console#show captive-portal
Administrative Mode....................... Disabled
Operational Status........................ Disabled
Disable Reason............................ Administrator Disabled
CP IP Address............................. 1.2.3.4
show captive-portal status
Use the show captive-portal status command to report the status of all
captive portal instances in the system.
Syntax
show captive-portal status
Default Configuration
There is no default configuration for this command.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
There are no user guidelines for this command.
Example
console#show captive-portal status
Additional HTTP Port........................... 81
Additional HTTP Secure Port.................... 1443
Authentication Timeout......................... 300
Supported Captive Portals...................... 10
Configured Captive Portals..................... 1
Active Captive Portals......................... 0
Local Supported Users.......................... 128
Configured Local Users......................... 3
System Supported Users......................... 1024
Authenticated Users............................ 0
Security Commands 997
Captive Portal Configuration Commands
The commands in this section are related to captive portal configurations.
block
Use the block command to block all traffic for a captive portal configuration.
Use the “no” form of this command to unblock traffic.
Syntax
block
no block
Default Configuration
Traffic is not blocked by default.
Command Mode
Captive Portal Instance mode.
User Guidelines
There are no user guidelines for this command.
Example
console(config-cp 2)#block
configuration
Use the configuration command to enter the captive portal instance mode.
The captive portal configuration identified by CP ID 1 is the default CP
configuration. The system supports a total of ten CP configurations. Use the
“no” form of this command to delete a configuration. The default
configuration (1) cannot be deleted.
Syntax
configuration cp-id
no configuration cp-id
Security Commands 998
• cp-id — Captive Portal ID (Range: 1–10).
Default Configuration
Configuration 1 is enabled by default.
Command Mode
Captive Portal Configuration mode.
User Guidelines
There are no user guidelines for this command.
Example
console(config-cp)#configuration 2
console(config-cp 2)#
enable
Use the enable command to enable a captive portal configuration. Use the no
form of this command to disable a configuration.
Syntax
enable
no enable
Default Configuration
Configurations are enabled by default
Command Mode
Captive Portal Instance mode.
User Guidelines
There are no user guidelines for this command.
Example
console(config-cp 2)#no enable
Security Commands 999
group
Use the group command to configure the group number for a captive portal
configuration. If a group number is configured, the user entry (Local or
RADIUS) must be configured with the same name and the group to
authenticate to this captive portal instance. Use the no form of this
command to reset the group number to the default.
Syntax
group group-number
no group
• group-number — The number of the group to associate with this
configuration (Range: 1–10).
Default Configuration
The default group number is 1.
Command Mode
Captive Portal Instance mode.
User Guidelines
There are no user guidelines for this command.
Example
console(config-cp 2)#group 2
interface
Use the interface command to associate an interface with a captive portal
configuration. Use the no form of this command to remove an association.
Syntax
interface interface
no interface interface
• interface — An interface or range of interfaces.
Security Commands 1000
Default Configuration
No interfaces are associated with a configuration by default.
Command Mode
Captive Portal Instance Configuration mode.
User Guidelines
There are no user guidelines for this command.
Example
console(config-cp 2)#interface gi1/0/2
locale
The locale command is not intended to be a user command. The
administrator must use the Web UI to create and customize captive portal
web content. This command is primarily used by the show running-config
command and process as it provides the ability to save and restore
configurations using a text based format.
Syntax
locale web-id
• web-id — The locale number (Range: 1–3)
Default Configuration
Locale 1 is configured by default.
Command Mode
Captive Portal Instance mode.
User Guidelines
Captive Portal supports 3 locales per configuration.
Security Commands 1001
name (Captive Portal)
Use the name command to configure the name for a captive portal
configuration. Use the no form of this command to remove a configuration
name.
Syntax
name cp-name
no name
• cp-name — CP configuration name (Range: 1–32 characters).
Default Configuration
Configuration 1 has the name “Default” by default. All other configurations
have no name by default.
Command Mode
Captive Portal Instance mode.
User Guidelines
There are no user guidelines for this command.
Example
console(config-cp 2)#name cp2
protocol
Use the protocol command to configure the protocol mode for a captive
portal configuration.
Syntax
protocol {http | https}
Default Configuration
The default protocol mode is http.
Security Commands 1002
Command Mode
Captive Portal Instance mode.
User Guidelines
There are no user guidelines for this command.
Example
console(config-cp 2)#protocol http
redirect
Use the redirect command to enable the redirect mode for a captive portal
configuration. Use the “no” form of this command to disable redirect mode.
Syntax
redirect
no redirect
Default Configuration
Redirect mode is disabled by default.
Command Mode
Captive Portal Instance mode.
User Guidelines
Enabling redirect mode will configure the redirect-url with an empty URL.
Example
console(config-cp 2)#redirect
redirect-url
Use the redirect-url command to configure the redirect URL for a captive
portal configuration.
Security Commands 1003
Syntax
redirect-url url
• url — The URL for redirection (Range: 1–512 characters).
Default Configuration
There is no redirect URL configured by default.
Command Mode
Captive Portal Instance mode.
User Guidelines
The administrator must enable redirect mode before executing this
command.
Example
console(config-cp 2)#redirect-url www.dell.com
session-timeout
Use the session-timeout command to configure the session timeout for a
captive portal configuration. Use the no form of this command to reset the
session timeout to the default.
Syntax
session-timeout timeout
no session-timeout
• timeout — Session timeout. 0 indicates timeout not enforced (Range: 0–
86400 seconds).
Default Configuration
There is no session timeout by default.
Command Mode
Captive Portal Instance mode.
Security Commands 1004
User Guidelines
There are no user guidelines for this command.
Example
console(config-cp 2)#session-timeout 86400
console(config-cp 2)#no session-timeout
verification
Use the verification command to configure the verification mode for a
captive portal configuration.
Syntax
verification { guest | local | radius }
• guest — Allows access for unauthenticated users (users that do not have
assigned user names and passwords).
• local — Authenticates users against a local user database.
• radius — Authenticates users against a remote RADIUS database.
Default Configuration
The default verification mode is guest.
Command Mode
Captive Portal Instance mode.
User Guidelines
There are no user guidelines for this command.
Example
console(config-cp 2)#verification local
Security Commands 1005
Captive Portal Client Connection Commands
captive-portal client deauthenticate
Use the captive-portal client deauthenticate command to deauthenticate a
specific captive portal client.
Syntax
captive-portal client deauthenticate macaddr
• macaddr — Client MAC address.
Default Configuration
There is no default configuration for this command.
Command Mode
Privileged Exec mode.
User Guidelines
There are no user guidelines for this command.
Example
console#captive-portal client deauthenticate 0002.BC00.1290
show captive-portal client status
Use the show captive-portal client status command to display client
connection details or a connection summary for connected captive portal
users.
Syntax
show captive-portal client [macaddr] status
• macaddr — Client MAC address.
Default Configuration
There is no default configuration for this command.
Security Commands 1006
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
There are no user guidelines for this command.
Example
console#show captive-portal client status
Client MAC Address Client IP Address Protocol Verification Session Time
------------------ ----------------- -------- ------------ ------------
0002.BC00.1290 10.254.96.47 https Local 0d:00:01:20
0002.BC00.1291 10.254.96.48 https Local 0d:00:05:20
0002.BC00.1292 10.254.96.49 https Radius 0d:00:00:20
console#show captive-portal client 0002.BC00.1290 status
Client MAC Address........................ 0002.BC00.1290
Client IP Address......................... 10.254.96.47
Protocol Mode............................. https
Verification Mode......................... Local
CP ID..................................... 1
CP Name................................... cp1
Interface................................. Gi1/0/1
Interface Description..................... Unit: 1 Slot: 0 Port: 1 Gigabit -
Level
User Name................................. user123
Session Time.............................. 0d:00:00:13
show captive-portal configuration client status
Use the show captive-portal configuration client status command to display
the clients authenticated to all captive portal configurations or a to specific
configuration.
Syntax
show captive-portal configuration [ cp-id ] client status
• cp-id — Captive Portal ID.
Default Configuration
There is no default configuration for this command.
Security Commands 1007
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
There are no user guidelines for this command.
Example
console#show captive-portal configuration client status
CP ID CP Name Client MAC Address Client IP Address Interface
----- --------------- ------------------ ----------------- ---------
1 cp1 0002.BC00.1290 10.254.96.47 Gi1/0/1
0002.BC00.1291 10.254.96.48 Gi1/0/2
2 cp2 0002.BC00.1292 10.254.96.49 Gi1/0/3
3 cp3 0002.BC00.1293 10.254.96.50 Gi1/0/4
console#show captive-portal configuration 1 client status
CP ID..................................... 1
CP Name................................... cp1
Client Client
MAC Address IP Address Interface Interface Description
-------------- --------------- --------- --------------------------------
0002.BC00.1290 10.254.96.47 Gi1/0/1 Unit: 1 Slot: 0 Port: 1 Gigabit
0002.BC00.1291 10.254.96.48 Gi1/0/2 Unit: 1 Slot: 0 Port: 2 Gigabit
show captive-portal interface client status
Use the show captive-portal interface client status command to display
information about clients authenticated on all interfaces or a specific
interface.
Syntax
show captive-portal interface {gigabitethernet unit/slot/port|
tengigabitethernet unit/slot/port | fortygigabitethernet unit/slot/port} client
status
Default Configuration
There is no default configuration for this command.
Security Commands 1008
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
There are no user guidelines for this command.
Example
console#show captive-portal interface client status
Client Client
Intf Intf Description MAC Address IP Address
------ ----------------------------------- ----------------- ---------------
Gi1/0/1 Unit: 1 Slot: 0 Port: 1 Gigabit 0002.BC00.1290 10.254.96.47
0002.BC00.1291 10.254.96.48
Gi1/0/2 Unit: 1 Slot: 0 Port: 2 Gigabit 0002.BC00.1292 10.254.96.49
Gi1/0/3 Unit: 1 Slot: 0 Port: 3 Gigabit 0002.BC00.1293 10.254.96.50
console#show captive-portal interface gi1/0/1 client status
Interface................................. Gi1/0/1
Interface Description..................... Unit: 1 Slot: 0 Port: 1 Gigabit
Client Client
MAC Address IP Address CP ID CP Name Protocol Verification
----------------- --------------- ----- ----------------- -------- ---------
0002.BC00.1290 10.254.96.47 1 cp1 http local
0002.BC00.1291 10.254.96.48 2 cp2 http local
Captive Portal Interface Commands
show captive-portal interface configuration
status
Use the show captive-portal interface configuration status command to
display the interface to configuration assignments for all captive portal
configurations or for a specific configuration.
Syntax
show captive-portal interface configuration [cp-id] status
• cp-id — Captive Portal ID.
Security Commands 1009
Default Configuration
There is no default configuration for this command.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
There are no user guidelines for this command.
Example
console#show captive-portal interface configuration status
CP ID CP Name Interface Interface Description Type
----- -------- --------- ------------------------------------ ---------
1 Default Gi1/0/1 Unit:1 Slot: 0 Port: 1 Gigabit . Physical
console#show captive-portal interface configuration 1 status
CP ID..................................... 1
CP Name................................... cp1
Interface Interface Description Type
--------- ----------------------------------- --------
Gi1/0/1 Unit: 1 Slot: 0 Port: 1 Gigabit ... Physical
Captive Portal Local User Commands
clear captive-portal users
Use the clear captive-portal users command to delete all captive portal user
entries.
Syntax
clear captive-portal users
Default Configuration
There is no default configuration for this command.
Security Commands 1010
Command Mode
Privileged Exec mode.
User Guidelines
There are no user guidelines for this command.
Example
console#clear captive-portal users
no user
Use the no user command to delete a user from the local user database. If the
user has an existing session, it is disconnected.
Syntax
no user user-id
• user-id — User ID (Range: 1–128).
Default Configuration
There is no default configuration for this command.
Command Mode
Captive Portal Configuration mode.
User Guidelines
There are no user guidelines for this command.
Example
console(config-cp)#no user 1
show captive-portal user
Use the show captive-portal user command to display all configured users or a
specific user in the captive portal local user database.
Security Commands 1011
Syntax
show captive-portal user [user-id]
• user-id — User ID (Range: 1–128).
Default Configuration
There is no default configuration for this command.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
There are no user guidelines for this command.
Example
console#show captive-portal user
Session
User ID User Name Timeout Group ID Group Name
------- --------------------- ------- ------------ ------------
1 user123 14400 1 Default
2 user234 0 1 Default
2 group2
console#show captive-portal user 1
User ID........................................ 1
User Name...................................... user123
Password Configured............................ Yes
Session Timeout................................ 0
Group ID Group Name
-------- --------------------------------
1 Default
2 group2
user group
Use the user group command to associate a group with a captive portal user.
Use the “no” form of this command to disassociate a group and user. A user
must be associated with at least one group so the last group cannot be
disassociated.
Security Commands 1012
Syntax
user user-id group group-id
• user-id — User ID (Range: 1–128).
• group-id — Group ID (Range: 1–10).
Default Configuration
A user is associated with group 1 by default.
Command Mode
Captive Portal Configuration mode.
User Guidelines
There are no user guidelines for this command.
Example
console(config-cp)#user 1 group 3
user-logout
Use the user-logout command in Captive Portal Instance mode to enable
captive portal users to log out of the portal (versus having the session time
out). Use the no form of the command to return the user logout
configuration to the default.
Syntax
user-logout
no user-logout
Default Configuration
User-logout is disabled by default.
Command Mode
Captive-portal Instance mode
Security Commands 1013
User Guidelines
There are no user guidelines for this command.
Example
In this example, all classes of entries in the mac address-table are displayed.
console(config)#captive-portal
console(config-cp)#user 1 name asd
console(config-cp)#configuration 1
console(config-cp 1)#user-logout
console(config-cp 1)#no user-logout
user name
Use the user name command to modify the user name for a local captive
portal user.
Syntax
user user-id name name
• user-id — User ID (Range: 1–128).
• name — user name (Range: 1–32 characters).
Default Configuration
There is no name for a user by default.
Command Mode
Captive Portal Configuration mode.
User Guidelines
There are no user guidelines.
Example
console(config-cp)#user 1 name johnsmith
Security Commands 1014
user password
Use the user password command to create a local user or change the password
for an existing user.
Syntax
user user-id password {password | encrypted enc-password}
• user-id — User ID (Range: 1–128).
• password — User password (Range: 8–64 characters).
• enc-password — User password in encrypted form.
Default Configuration
There are no users configured by default.
Command Mode
Captive Portal Configuration mode.
User Guidelines
There are no user guidelines for this command.
Example
console(config-cp)#user 1 password
Enter password (8 to 64 characters): ********
Re-enter password: ********
user session-timeout
Use the user session-timeout command to set the session timeout value for a
captive portal user. Use the no form of this command to reset the session
timeout to the default.
Syntax
user user-id session-timeout timeout
no user user-id session-timeout
• user-id — User ID (Range: 1–128).
Security Commands 1015
• timeout — Session timeout. 0 indicates use global configuration (Range:
0–86400 seconds).
Default Configuration
The global session timeout is used by default.
Command Mode
Captive Portal Configuration mode.
User Guidelines
There are no user guidelines for this command.
Example
console(config-cp)#user 1 session-timeout 86400
console(config-cp)#no user 1 session-timeout
Captive Portal Status Commands
show captive-portal configuration
Use the show captive-portal configuration command to display the
operational status of each captive portal configuration.
Syntax
show captive-portal configuration cp-id
• cp-id — Captive Portal ID.
Default Configuration
There is no default configuration for this command.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
Security Commands 1016
User Guidelines
There are no user guidelines for this command.
Example
console#show captive-portal configuration 1
CP ID..................................... 1
CP Name................................... cp1
Operational Status........................ Disabled
Disable Reason............................ Administrator Disabled
Blocked Status............................ Not Blocked
Configured Locales........................ 1
Authenticated Users....................... 0
show captive-portal configuration interface
Use the show captive-portal configuration interface command to display
information about all interfaces assigned to a captive portal configuration or
about a specific interface assigned to a captive portal configuration.
Syntax
show captive-portal configuration cp-id interface [{gigabitethernet
unit/slot/port| tengigabitethernet unit/slot/port | fortygigabitethernet
unit/slot/port}]
• cp-id — Captive Portal ID.
Default Configuration
There is no default configuration for this command.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
There are no user guidelines for this command.
Example
console#show captive-portal configuration 1 interface
CP ID..................................... 1
Security Commands 1017
CP Name................................... cp1
Operational Block
Interface Interface Description Status Status
--------- ---------------------------------------- ------------ ---------
Gi1/0/1 Unit: 1 Slot: 0 Port: 1 Gigabit - Level Disabled Blocked
console#show captive-portal configuration 1 interface gi1/0/1
CP ID..................................... 1
CP Name................................... cp1
Interface................................. Gi1/0/1
Interface Description..................... Unit: 1 Slot: 0 Port: 1 Gigab...
Operational Status........................ Disabled
Disable Reason............................ Interface Not Attached
Block Status.............................. Not Blocked
Authenticated Users....................... 0
show captive-portal configuration locales
Use the show captive-portal configuration locales command to display
locales associated with a specific captive portal configuration.
Syntax
show captive-portal configuration cp-id locales
• cp-id — Captive Portal Configuration ID.
Default Configuration
There is no default configuration for this command.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
There are no user guidelines for this command.
Example
console#show captive-portal configuration 1 locales
Locale Code
---------------
Security Commands 1018
en
show captive-portal configuration status
Use the show captive-portal configuration status command to display
information about all configured captive portal configurations or about a
specific captive portal configuration.
Syntax
show captive-portal configuration [ cp-id ] status
• cp-id — Captive Portal ID.
Default Configuration
There is no default configuration for this command.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
There are no user guidelines for this command.
Example
console#show captive-portal configuration status
CP ID CP Name Mode Protocol Verification
----- --------------- -------- -------- ------------
1 cp1 Enable https Guest
2 cp2 Enable http Local
3 cp3 Disable https Guest
console#show captive-portal configuration 1 status
CP ID.......................................... 1
CP Name........................................ cp1
Mode........................................... Enabled
Protocol Mode.................................. https
Verification Mode.............................. Guest
Group Name..................................... group123
Redirect URL Mode.............................. Enabled
Redirect URL................................... www.cnn.com
Session Timeout (seconds)...................... 86400
Security Commands 1019
Captive Portal User Group Commands
user group
Use the user group command to create a user group. Use the no form of this
command to delete a user group. The default user group (1) cannot be
deleted.
Syntax
user group group-id
no user group group-id
group-id
—
Group ID (Range: 1–10).
Default Configuration
User group 1 is created by default and cannot be deleted.
Command Mode
Captive Portal Configuration mode.
User Guidelines
There are no user guidelines for this command.
Example
console(config-cp)#user group 2
console(config-cp)#no user group 2
user group moveusers
Use the user group moveusers command to move a group's users to a different
group.
Syntax
user group group-id moveusers new-group-id
• group-id — Group ID (Range: 1–10).
• new-group-id — Group ID (Range: 1–10).
Security Commands 1020
Default Configuration
There is no default configuration for this command.
Command Mode
Captive Portal Configuration mode
User Guidelines
The new group-id must already exist.
Example
console(config-cp)#user group 2
console(config-cp)#user 1 group 2
console(config-cp)#user group 2 moveusers 3
user group name
Use the user group name command to configure a group name.
Syntax
user group group-id name name
• group-id — Group ID (Range: 1–10).
• name — Group name (Range: 1–32 alphanumeric characters).
Default Configuration
User groups have no names by default.
Command Mode
Captive Portal Configuration mode.
User Guidelines
There are no user guidelines for this command.
Example
console(config-cp)#user group 2 name group2
Security Commands 1021
Denial of Service Commands
Dell EMC Networking N1100-ON/N1500/N2000/N2100-
ON/N3000/N3100-ON/N4000 Series Switches
The Dell EMC Networking DoS capability supports a package of filters
intended to provide network administrators the ability to reduce network
exposure to common attack vectors. The following list shows the DoS attack
detection Dell EMC Networking supports.
• SIP=DIP:
– Source IP address = Destination IP address.
• First Fragment:
– TCP Header size smaller then configured value.
• TCP Fragment:
– IP Fragment Offset = 1.
• TCP Flag:
– TCP Flag SYN set and Source Port < 1024 or TCP Control Flags = 0
and
– TCP Sequence Number = 0 or TCP Flags FIN, URG, and PSH set
and
– TCP Sequence Number = 0 or TCP Flags SYN and FIN set.
• L4 Port:
– Source TCP/UDP Port = Destination TCP/UDP Port.
• ICMP:
– Limiting the size of ICMP Ping packets.
• SMAC=DMAC:
– Source MAC address = Destination MAC address.
• TCP Port:
– Source TCP Port = Destination TCP Port.
• UDP Port:
– Source UDP Port = Destination UDP Port.
• TCP Flag & Sequence:
Security Commands 1022
– TCP Flag SYN set and Source Port < 1024 or TCP Control Flags = 0
and
– TCP Sequence Number = 0 or TCP Flags FIN, URG, and PSH set
and
– TCP Sequence Number = 0 or TCP Flags SYN and FIN set.
• TCP Offset:
– Checks for TCP header offset =1.
• TCP SYN:
– TCP Flag SYN set.
• TCP SYN & FIN:
– TCP Flags SYN and FIN set.
• TCP FIN & URG & PSH:
– TCP Flags FIN and URG and PSH set and TCP Sequence Number =
0.
• ICMP V6:
– Limiting the size of ICMPv6 Ping packets.
• ICMP Fragment:
– Checks for fragmented ICMP packets.
Commands in this Section
This section explains the following commands:
dos-control firstfrag rate-limit cpu
dos-control icmp show dos-control
dos-control l4port show system internal pktmgr
dos-control sipdip storm-control broadcast
dos-control tcpflag storm-control multicast
dos-control tcpfrag storm-control unicast
Security Commands 1023
dos-control firstfrag
Use the dos-control firstfrag command in Global Configuration mode to
enable Minimum TCP Header Size Denial of Service protection. If the mode
is enabled, Denial of Service prevention is active for this type of attack. If
packets ingress having a TCP Header Size smaller than the configured value,
the packets are dropped.
Syntax
dos-control firstfrag [size]
no dos-control firstfrag
• size —TCP header size. (Range: 0-255). The default TCP header size is 20.
ICMP packet size is 512.
Default Configuration
Denial of Service is disabled.
Command Mode
Global Configuration mode
User Guidelines
This command has no user guidelines.
Example
The following example defines a minimum TCP header size of 20. Packets
entering with a smaller header size are dropped.
console(config)#dos-control firstfrag 20
dos-control icmp
Use the dos-control icmp command in Global Configuration mode to enable
Maximum ICMP Packet Size Denial of Service protections. If the mode is
enabled, Denial of Service prevention is active for this type of attack. If ICMP
Echo Request (PING) packets ingress having a size greater than the
configured value, the packets are dropped.
Security Commands 1024
Syntax
dos-control icmp [size ]
no dos-control icmp
• size — Maximum ICMP packet size. (Range: 0-16376). If size is
unspecified, the value is 512.
Default Configuration
Denial of Service is disabled.
Command Mode
Global Configuration mode
User Guidelines
This command has no user guidelines.
Example
The following example activates the Maximum ICMP Packet Denial of
Service protection with a maximum packet size of 1023.
console(config)#dos-control icmp 1023
dos-control l4port
Use the dos-control l4port command in Global Configuration mode to
enable L4 Port Denial of Service protection. If the mode is enabled, Denial of
Service prevention is active for this type of attack. If packets ingress having
Source TCP/UDP Port Number equal to Destination TCP/UDP Port
Number, the packets are dropped.
Syntax
dos-control l4port
no dos-control l4port
Default Configuration
Denial of Service is disabled.
Security Commands 1025
Command Mode
Global Configuration mode
User Guidelines
This command has no user guidelines.
Example
The following example activates L4 Port Denial of Service protection.
console(config)#dos-control l4port
dos-control sipdip
Use the dos-control sipdip command in Global Configuration mode to
enable Source IP Address = Destination IP Address (SIP=DIP) Denial of
Service protection. If the mode is enabled, Denial of Service prevention is
active for this type of attack. If packets ingress with SIP=DIP, the packets is
dropped if the mode is enabled.
Syntax
dos-control sipdip
no dos-control sipdip
Default Configuration
Denial of Service is disabled.
Command Mode
Global Configuration mode
User Guidelines
This command has no user guidelines.
Example
The following example activates SIP=DIP Denial of Service protection.
console(config)#dos-control sipdip
Security Commands 1026
dos-control tcpflag
Use the dos-control tcpflag command in Global Configuration mode to
enable TCP Flag Denial of Service protections. If the mode is enabled, Denial
of Service prevention is active for this type of attack. If packets ingress having
TCP Flag SYN set and a source port less than 1024, having TCP Control
Flags set to 0 and TCP Sequence Number set to 0, having TCP Flags FIN,
URG, and PSH set and TCP Sequence Number set to 0, or having TCP Flags
SYN and FIN both set, the packets are dropped.
Syntax
dos-control tcpflag
no dos-control tcpflag
Default Configuration
Denial of Service is disabled.
Command Mode
Global Configuration mode.
User Guidelines
This command has no user guidelines.
Example
The following example activates TCP Flag Denial of Service protections.
console(config)#dos-control tcpflag
dos-control tcpfrag
Use the dos-control tcpfrag command in Global Configuration mode to
enable TCP Fragment Denial of Service protection. If the mode is enabled,
Denial of Service prevention is active for this type of attack. If packets ingress
having IP Fragment Offset equal to one (1), the packets are dropped.
Syntax
dos-control tcpfrag
Security Commands 1027
no dos-control tcpfrag
Default Configuration
Denial of Service is disabled.
Command Mode
Global Configuration mode
User Guidelines
This command has no user guidelines.
Example
The following example activates TCP Fragment Denial of Service protection.
console(config)#dos-control tcpfrag
rate-limit cpu
Use the rate-limit cpu command to reduce the amount of unknown
unicast/multicast packets forwarded to the CPU on CoS queues 0 and 1.
This command also configures the rate in packets-per-second for the number
of IPv4 and IPv6 data packets trapped to CPU when the packet fails to be
forwarded in the hardware due to unresolved MAC address of the destination
IPv6 node. Packets exceeding the rate limit are silently discarded.
Use the no form of the command to return the rate limit to the default value.
Syntax
rate-limit cpu direction input pps pps-value
no rate-limit cpu direction input pps
• pps-value—Range of 100-1024 packets per second (100-3000 for N4000
switches)
Default Configuration
The default is 1024 packets per second
(3000 for N4000 switches)
Security Commands 1028
Command Modes
Global Configuration mode
User Guidelines
Unknown multicast and IPv4/IPv6 data packets destined to hosts in the
connected networks on the router for which the MAC address is not resolved
are trapped to CPU to trigger the ARP/neighbor discovery resolution of those
hosts.
When the ARP or neighbor table is filled, the switch cannot accommodate
new entries. In this case, there is no value in receiving the unresolved
IPv4/IPv6 packets. Likewise, in cases of a L2 network re-convergence, a large
number of neighbors may not be discovered but may be transmitting traffic.
In the case of multicast data, certain multicast topologies using multi-access
VLANs may result in packets being forwarded to the CPU with no associated
PIM or MFDB state.
Receiving large numbers unresolved packets spikes the CPU usage to high
levels at no benefit. For Ipv6, it also results in delayed processing of the NUD
packets (NS/NA) for the existing neighbor entries leading to NUD anomalies
and deletions of existing neighbor entries.
To avoid such an unnecessary CPU load leading to NUD anomalies when the
ARP or IPV6 neighbor table is close to full (crossing 95% of table size) or
other failures, the switch automatically reduces the rate limit to an empirical
value of 50 pps irrespective of the configured rate limit. When the table size
falls below 95% of the table size, it is restored to the configured rate limit
value.
Use this command to limit the CPU load in situations where large numbers of
unknown multicast or IPv4/IPv6 packets with an unknown multicast or
unicast IPv4/IPv6 destination are being handled in software. The symptom
can be diagnosed by high CPU usage of the ipMapForwardingTask.
Example
An example output is showing higher than normal CPU usage due to packets
copied to the software forwarding task below:
console#show process cpu
Memory Utilization Report
Security Commands 1029
status bytes
------ ----------
free 1055653888
alloc 672153600
CPU Utilization:
PID Name 5 Secs 60 Secs 300 Secs
---------- ------------------- -------- -------- --------
1129 osapiTimer 0.09% 0.02% 0.01%
1137 bcmCNTR.0 0.19% 0.28% 0.30%
1142 bcmRX 18.00% 12.04% 11.10%
1155 bcmLINK.0 0.39% 0.37% 0.36%
1156 cpuUtilMonitorTask 0.09% 0.04% 0.04%
1170 nim_t 0.09% 0.07% 0.07%
1222 snoopTask 0.09% 0.02% 0.02%
1243 ipMapForwardingTask 27.30% 24.19% 29.06%
1257 tRtrDiscProcessingT 0.09% 0.01% 0.00%
1291 RMONTask 0.00% 0.02% 0.03%
1293 boxs Req 0.00% 0.01% 0.01%
------------------------------ -------- -------- --------
Total CPU Utilization 55.91% 45.40% 48.02%
show dos-control
Use the show dos-control command to display Denial of Service
configuration information.
Syntax
show dos-control
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
This command has no user guidelines.
Security Commands 1030
Example
The following example displays Denial of Service configuration information.
console#show dos-control
SIPDIP Mode...............................Disable
First Fragment Mode.......................Disable
Min TCP Hdr Size..........................20
TCP Fragment Mode........................ Disable
TCP Flag Mode.............................Disable
L4 Port Mode..............................Disable
ICMP Mode.................................Disable
Max ICMP Pkt Size.........................512
show system internal pktmgr
Use the show system internal pktmgr command to display the configured
CPU rate limit for unknown packets in packets per second.
Syntax
show system internal pktmgr internal control sw-rate-limit
Default Configuration
This command has no default configuration.
Command Modes
Privileged Exec mode
User Guidelines
See the rate-limit cpu command for further information on the output of this
command.
Example
console# show system internal pktmgr internal control sw-rate-limit
Inband pps global threshold 1024
Security Commands 1031
storm-control broadcast
Use the storm-control broadcast command to enable broadcast storm
recovery mode for a specific interface. Use the no form of the command to
disable storm control or to return the configuration to the default.
Syntax
storm-control broadcast [{level level| rate rate | action {shutdown | trap}]
no storm-control broadcast [level| rate | action]
• level— The configured rate as a percentage of link bandwidth (Range: 0-
100)
• rate — The configured rate in packets per second. (Range: 0-14880000)
•action shutdown—Places the interface in the D-disable state if the
threshold is exceeded.
•action trap—Logs a message and issue a trap if the threshold is exceeded.
Default Configuration
By default, broadcast storm control is disabled on all physical interfaces.
The default threshold for broadcast traffic is 5% of link bandwidth.
The default behavior is to rate limit (drop) traffic exceeding the configured
threshold.
There is no default action.
Command Mode
Interface Configuration (Ethernet) mode, Interface Range mode
User Guidelines
Broadcast storm control can only be enabled on physical interfaces. It cannot
be configured on port channels.
Setting the level, rate or action enables broadcast storm control. When
enabled, broadcast storm control can issue a trap and drop traffic in excess of
the configured rate (level) or shut down the port if the rate is exceeded.
Either the level or the rate threshold may be configured, but not both.
Security Commands 1032
Either the trap action or the shutdown action may be specified, but not both.
The trap action issues a log message and a trap when the configured threshold
is exceeded. Traffic exceeding the threshold is dropped.
The shutdown action shuts down the interface, puts the interface into the D-
disable state, issues a log message (WARNING) and a trap. The operator may
bring the port back into service using the no shutdown command.
Use the show storm-control action and show storm-control all commands to
display the storm control settings.
Example
The following example configures any port to drop excess broadcast traffic
and issue a log and trap if the received broadcast traffic exceeds 10% of link
bandwidth:
console(config)#interface range gi1/0/1-24
console(config-if)#storm-control broadcast level 10
console(config-if)#storm-control broadcast action trap
console(config-if)#exit
storm-control multicast
Use the storm-control multicast command in Interface Configuration mode
to enable multicast storm storm control for an interface.
Use the no form of the command to disable storm-control in order to return
the configuration to the default.
Syntax
storm-control multicast [level level | rate rate | action {shutdown | trap}]
no storm-control multicast [level | rate | action]
• level— The configured rate as a percentage of link-speed.
• rate — The configured rate in packets per second. (Range: 0-14880000)
•action shutdown—Places the interface in the D-disable state if the
threshold is exceeded.
•action trap—Logs a message and issue a trap if the threshold is exceeded.
Security Commands 1033
Default Configuration
By default, multicast storm control is not enabled on any interfaces.
The default threshold for multicast traffic is 5% of link bandwidth.
The default behavior is to rate limit (drop) traffic exceeding the configured
threshold.
The default action is no action.
Command Mode
Interface Configuration (Ethernet) mode, Interface Range mode
User Guidelines
Multicast storm control applies to unknown multicast (i.e., multicast groups
that are not control plane traffic and are not currently active on any
interface). This is multicast traffic that normally is flooded in the VLAN.
Multicast storm control can issue a trap and drop traffic in excess of the
configured rate (level), or shut down the ingress port if the rate is exceeded.
Multicast storm control can only be enabled on physical interfaces. It cannot
be configured on port channels.
Setting the level, rate or action does not enable multicast storm control. Issue
the storm-control multicast command separately to enable multicast storm
control.
Either the level or the rate threshold may be configured, but not both.
Either the trap action or the shutdown action may be specified, but not both.
The trap action issues a log message (WARNING) and a trap when the
configured threshold is exceeded. Traffic exceeding the threshold is dropped.
The shutdown action shuts down the interface, puts the interface into the D-
disable state, issues a log message and a trap. The operator may bring the port
back into service using the no shutdown command.
Use the show storm-control action and show storm-control all commands to
display the storm control settings.
Example
The following example configures any port to shut down if the received
multicast traffic rate exceeds 20% of link bandwidth:
Security Commands 1034
console(config)#interface range gi1/0/1-24
console(config-if)#storm-control multicast level 20
console(config-if)#storm-control multicast action shutdown
console(config-if)#exit
storm-control unicast
Use the storm-control unicast command in Interface Configuration mode to
enable storm control for an interface. Unicast storm control limits the
number of unicast destination lookup failures (DLFs). Use the no form of the
command to disable unicast storm control or to return the configuration to
the default.
Syntax
storm-control unicast [level level |rate rate|action{shutdown|trap}]
no storm-control unicast [level | rate]
• level— The configured rate as a percentage of link bandwidth (Range: 0-
100)
• rate—The configured rate in packets per second. (Range: 0-14880000)
• action—The configured action: shutdown or trap.
Default Configuration
By default, unicast storm control is not enabled on any interfaces.
The default threshold for unicast traffic is 5% of link bandwidth.
Command Mode
Interface Configuration (Ethernet) mode, Interface Range mode
User Guidelines
A destination lookup failure (DLF) is when a L2 unicast packet is unable to
resolve the destination MAC address to an egress interface (no MAC
forwarding address entry exists). The standard behavior for L2 DLFs is to
flood the packet on all ports in the VLAN other than the port on which the
packet was received. This flooding behavior can cause significant amounts of
bandwidth to be consumed, potentially disrupting the forwarding of other
traffic.
Security Commands 1035
Unicast storm control can issue a trap and drop packets in excess of the
configured rate (level) or shut down the port when the rate is exceeded.
Setting the level, rate or action enables storm control. The shutdown action
disables the interface when a packet storm is detected. The trap action issues
an SNMP trap to configured SNMP agents.
Unicast storm control can only be enabled on physical interfaces. It cannot be
configured on port channels.
Either the level or the rate threshold may be configured, but not both.
Use the show storm-control action and show storm-control all commands to
display the storm control settings.
Example
The following example configures any port to rate limit DLF traffic rate to 5%
of link bandwidth:
console(config)#interface range gi1/0/1-24
console(config-if)#storm-control unicast level 5
console(config-if)#exit
Security Commands 1036
Management ACL Commands
Dell EMC Networking N1100-ON/N1500/N2000/N2100-
ON/N3000/N3100-ON/N4000 Series Switches
In order to ensure the security of the switch management features, the
administrator may elect to configure a management access control list. The
Management Access Control and Administration List (ACAL) component is
used to ensure that only known and trusted devices are allowed to remotely
manage the switch via TCP/IP. Management ACLs are only configurable on
IP (in-band) interfaces, not on the out-of-band interface or the serial port,
and only filter packets sent to the switch CPU. Packets that are forwarded by
the switch are not filtered by Management ACLs. Management ACLs filter
packets in firmware after all hardware based ACLs (ip access-list and ipv6
access-list) have been applied. This allows the administrator to configure
hardware based filtering criteria for in-band management access and then
further refine that criteria with firmware based filtering supplied by the
management ACL capability.
When a Management ACAL is enabled, incoming TCP packets initiating a
connection (TCP SYN) and UDP packets will be filtered based on their
source IP address and destination port. Additionally, other attributes such as
incoming port (or port-channel) and VLAN ID can be used to determine if
the traffic should be allowed access to the management interface. When the
Management Access Control component is disabled, incoming TCP/UDP
packets are not filtered in firmware and are processed normally. TCP SYN
packets or UDP packets addressed to the following destination port numbers
are not processed by the management ACL list: DNS(53), DHCP Server(67),
DHCP Client (68), TFTP(69), telnet(23), HTTP(80), HTTPS(443),
SNMP(161), SSH(22), and JAVA(4242).
There is also an option to restrict all the above packets from the network
interface. This is done by specifying “console only” in the MACAL
component. If this option is enabled, the system management interface is
only accessible via the serial port. All TCP SYN packets and UDP packets are
dropped except UDP packets sent to the ports listed above.
Commands in this Section
This section explains the following commands:
Security Commands 1037
deny (management)
Use the deny command in Management Access-List Configuration mode to
set conditions for disallowing packets to flow to the switch management
function.
Syntax
deny [gigabitethernet unit/slot/port | vlan vlan-id |
port-channel port-
channel-number
| tengigabitethernet unit/slot/port | fortygigabitethernet
unit/slot/port] [service service] [priority priority]
deny ip-source ip-address [mask mask | prefix-length] [gigabitethernet
unit/slot/port | vlan vlan-id |
port-channel port-channel-number
|
tengigabitethernet unit/slot/port | fortygigabitethernet unit/slot/port]
[service service] [priority priority]
•gigabitethernet unit/slot/port — A valid 1-Gigabit Ethernet-routed port
number.
•vlan vlan-id — A valid VLAN number.
•port-channel port-channel-number — A valid routed port-channel
number.
•tengigabitethernet unit/slot/port — A valid 10-Gigabit Ethernet-routed
port number.
•
fortygigabitethernet
unit/slot/port
–
A valid 40-Gigabit Ethernet-routed
port number.
• ip-address — Source IP address.
•mask mask — Specifies the network mask of the source IP address.
•mask prefix-length — Specifies the number of bits that comprise the
source IP address prefix. The prefix length must be preceded by a forward
slash (/). (Range: 0–32)
deny (management) permit (management)
management access-class show management access-class
management access-list show management access-list
Security Commands 1038
•service service — Indicates service type. Can be one of the following:
telnet, ssh, http, https, tftp, snmp, sntp, or any. The any keyword indicates
that the service match for the ACL is effectively “don’t care”.
•priority priority — Priority for the rule. (Range: 1–64)
Default Configuration
This command has no default configuration.
Command Mode
Management Access-list Configuration mode
User Guidelines
Rules with gigabitethernet, tengigabitethernet, fortygigabitethernet, vlan,
and port-channel parameters are valid only if an IP address is defined on the
appropriate interface. Ensure that each rule has a unique priority.
Example
The following example shows how all ports are denied in the access-list called
mlist.
console(config)# management access-list mlist
console(config-macal)# deny
management access-class
Use the management access-class command in Global Configuration mode
to restrict switch management connections. To disable any restrictions, use
the no form of this command.
Syntax
management access-class {console-only | name}
no management access-class
• name — A valid access-list name. (Range: 1–32 characters)
•console-only — The switch can be managed only from the console.
Security Commands 1039
Default Configuration
This command has no default configuration.
Command Mode
Global Configuration mode
User Guidelines
The active management access-list processes IPv4 TCP/UDP packets only.
Packets for certain management protocols are allowed to pass to the CPU
without processing by the management ACL list. Specifically, TCP or UDP
packets addressed to the following destination port numbers are not
processed by the management ACL list: DNS(53), DHCP Server(67), DHCP
Client (68), TFTP(69), telnet(23), HTTP(80), HTTPS(443), SNMP(161),
SSH(22), and JAVA(4242). A rate-limiting egress CPU ACL would be ideal to
mitigate smurf style attacks on these ports.
Only a single management access list can be active at a time. However, it can
have multiple permit/deny conditions.
Example
The following example configures an access-list called mlist as the
management access-list.
console(config)# management access-class mlist
management access-list
Use the management access-list command in Global Configuration mode to
define an access list for management, and enter the access-list configuration
mode for editing the access list conditions. Once in access-list configuration
mode, access conditions are configured with the deny and permit commands.
To remove an access list, use the no form of this command.
Syntax
management access-list name
no management access-list name
• name — The access list name. (Range: 1–32 printable characters)
Security Commands 1040
Default Configuration
This command has no default configuration.
Command Mode
Global Configuration mode
User Guidelines
A management access list is only supported on the switched interfaces. It is
not supported on the out-of-band interface.
This command enters the access-list configuration mode, where access
conditions may be defined with deny and permit commands.
If no match criteria are defined the default is to deny the packet (i.e., the
packet is dropped).
If editing an access-list context, new rules are appended to the end of the
access-list.
Use the management access-class command to select the active access-list.
The active management list cannot be updated or removed.
Management access list names can consist of any printable character,
including blanks. Enclose the name in quotes to embed blanks in the name.
Question marks are disallowed.
Examples
The following example shows how to permit access to switch management via
two physical interfaces, Gigabit Ethernet 1/0/1 and Gigabit Ethernet 1/0/9.
console(config)#management access-list mlist
console(config-macal)# permit gigabitethernet 1/0/1 priority 1
console(config-macal)# permit gigabitethernet 1/0/9 priority 1
console(config-macal)# exit
console(config)#management access-class mlist
The following example shows how to configure all the interfaces to be
management interfaces except for two interfaces, Gigabit Ethernet 1/0/1 and
Gigabit Ethernet 1/0/9.
console(config)# management access-list mlist
console(config-macal)# deny gigabitethernet 1/0/1 priority 1
console(config-macal)# deny gigabitethernet 1/0/9 priority 2
console(config-macal)# permit priority 2
Security Commands 1041
console(config-macal)# exit
console(config) # management access-class mlist
permit (management)
Use the permit command in Management Access-List configuration mode to
set conditions for allowing packets to flow to the switch management
function.
Syntax
permit ip-source ip-address [mask mask | prefix-length] [gigabitethernet
unit/slot/port | vlan vlan-id |
port-channel port-channel-number
|
tengigabitethernet unit/slot/port |fortygigabitethernet unit/slot/port][
service service ] [ priority priority-value ]
permit {gigabitethernet unit/slot/port | vlan vlan-id |
port-channel port-
channel-number
| tengigabitethernet unit/slot/port |fortygigabitethernet
unit/slot/port} [service service] [priority priority-value]
permit service service [priority priority-value]
permit priority priority-value
•gigabitethernet unit/slot/port — A valid Gigabit Ethernet routed port
number.
•vlan vlan-id — A valid VLAN number.
•port-channel port-channel-number — A valid port channel number.
•tengigabitethernet unit/slot/port — A valid 10-Gigabit Ethernet routed
port number.
•
fortygigabitethernet
unit/slot/port
–
A valid 40-Gigabit Ethernet routed
port number.
• ip-address — Source IP address.
•mask mask — Specifies the network mask of the source IP address.
•mask prefix-length — Specifies the number of bits that comprise the
source IP address prefix. The prefix length must be preceded by a forward
slash (/). (Range: 0–32)
•service service — Indicates service type. It can be one of the following:
telnet, ssh, http, https, tftp, snmp, sntp, or any. The any keyword indicates
that the service match for the ACL is effectively “don’t care”.
Security Commands 1042
•priority priority-value — Priority for the rule. (Range: 1 – 64)
Default Configuration
This command has no default configuration.
Command Mode
Management Access-list Configuration mode
User Guidelines
Rules with gigabitethernet, tengigabitethernet, fortygigabitethernet, vlan,
and port-channel parameters are valid only if an IP address is defined on the
appropriate interface.
Examples
The following example shows how to configure two management interfaces,
Gigabit Ethernet 1/0/1 and Gigabit Ethernet 1/0/9.
console(config)#management access-list mlist
console(config-macal)# permit gigabitethernet 1/0/1 priority 1
console(config-macal)# permit gigabitethernet 1/0/9 priority 1
console(config-macal)# exit
console(config)# management access-class mlist
The following example shows how to configure all the interfaces to be
management interfaces except for two interfaces, Gigabit Ethernet 1/0/1 and
1/0/9.
console(config)# management access-list mlist
console(config-macal)# deny gigabitethernet 1/0/1 priority 1
console(config-macal)# deny gigabitethernet 1/0/9 priority 2
console(config-macal)# permit priority 2
console(config-macal)# exit
console(config)# management access-class mlist
show management access-class
Use the show management access-class command to display information
about the active management access list.
Syntax
show management access-class
Security Commands 1043
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
This command has no user guidelines.
Example
The following example displays the management access-list information.
console# show management access-class
Management access-class is enabled, using access list mlist
show management access-list
Use the show management access-list command to display management
access-lists.
Syntax
show management access-list [name]
• name — A valid access list name. (Range: 1–32 characters)
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
This command has no user guidelines.
Security Commands 1044
Example
The following example displays the active management access-list.
console# show management access-list
mlist
-----
permit priority 1 gigabitethernet 1/0/1
permit priority 2 gigabitethernet 2/0/1
! (Note: all other access implicitly denied)
Security Commands 1045
Password Management Commands
Dell EMC Networking N1100-ON/N1500/N2000/N2100-
ON/N3000/N3100-ON/N4000 Series Switches
The Password Management component supports configuration of strength
checks intended to ensure that network operators utilize passwords that are
difficult to crack. In addition, the administrator can age passwords, ensure
that operators do not reuse passwords, and lock out operator accounts when
multiple attempts to enter incorrect passwords are detected. Passwords are
masked from view when entered by the user and in the running config.
Configurable Minimum Password Length
The administrator has the option of requiring user passwords to be a
minimum length. The administrator can choose to have the switch enforce a
minimum length between 8 and 64 characters. The default minimum length
is 8 although there is no default password (zero length string).
Password History
Keeping a history of previous passwords ensures that users cannot reuse
passwords often. The administrator can configure the switch to store up to 10
of the last passwords for each user. The default operation is that no history is
stored.
Password Aging
The switch can implement an aging process on passwords and require users to
change them when they expire. The administrator can configure the switch to
force a password change between 1 and 365 days. By default, password aging
is disabled. When a password expires, the user must enter a new password
before continuing.
User Lockout
The administrator may choose to strengthen the security of the switch by
enabling the user lockout feature. A lockout count between 1 and 5 attempts
can be configured. When a lockout count is configured, then a user that is
Security Commands 1046
logging in must enter the correct password within that count. Otherwise, that
user is locked out form further remote switch access. Only an administrator
with read/write access can reactivate that user. The user lockout feature is
disabled by default. The user lockout feature applies to all users on all ports.
The administrator can access the serial port even if he/she is locked out and
reset the password or clear the config to regain control of the switch. This
ensures that if a hacker tries to log in as admin and causes the account to be
locked out, then the administrator with physical access to the switch can still
log in and reactivate the admin account.
Password Strength
Password Strength is a measure of the effectiveness of a password in resisting
guessing and brute-force attacks. The strength of a password is a function of
length, complexity and randomness. Using strong passwords lowers overall
risk of a security breach. The scope of this feature is to enforce a baseline
Password Strength for all locally administered users.
The feature doesn’t affect users with an existing password until their
password ages out. Password Strength is only enforced when a user is
configuring a new password or changing their existing password. The default
action is Disabled in FP and is independent of any platform. The network
operator has to take care that the Password Strength check is Disabled before
downloading scripts containing old users to avoid password configuration
failure for such users.
Password Strength Definition:
The feature ensures that any password configured on the switch for local
administration purpose is a strong password and conforms to each of the
following characteristics when configured:
• Minimum number of uppercase letters.
• Minimum number of lowercase letters.
• Minimum number of numeric characters.
• Minimum number of special characters from the set: `! " ? $ ? % ^ & * ( )
_ - + = { [ } ] : ; @ ' ~ # | \ < , > . ? / .
• Does not contain the associated login name.
• Maximum number of consecutive characters (such as abcd).
Security Commands 1047
• Maximum number of consecutive numbers (such as 1234).
• Maximum number of repetition of characters or numbers (such as 1111 or
aaaa).
Configuring minimum value of 0 for the above parameters means no
restriction on that set of characters and configuring maximum of 0 means
disabling the restriction (or no limit on the maximum number of course
limited by minimum password length). Implicitly, configuring a minimum
value of 0 means a user may enter a valid password consisting entirely of those
characters unless minimum character class checking is also enabled with
some non-zero minimum strength check values.
The Password strength feature applies to all login passwords (user, line and
enable).
Commands in this Section
This section explains the following commands for viewing and configuring
properties of passwords:
NOTE: To change a password, use the passwords command, which is described in
AAA Commands
.
passwords aging passwords strength minimum special-
characters
passwords history passwords strength max-limit consecutive-
characters
passwords lock-out passwords strength max-limit repeated-
characters
passwords min-length passwords strength minimum character-
classes
passwords strength-check passwords strength exclude-keyword
passwords strength minimum uppercase-
letters
enable password encrypted
passwords strength minimum lowercase-
letters
show passwords configuration
passwords strength minimum numeric-
characters
show passwords result
Security Commands 1048
passwords aging
Use the passwords aging command in Global Configuration mode to
implement aging on passwords for local users. When a user’s password
expires, the user is prompted to change it before logging in again. Use the no
form of this command to set the password aging to the default value.
Syntax
passwords aging 1-365
no passwords aging
Default Configuration
The default value is 0.
Command Mode
Global Configuration mode
User Guidelines
A value of 0 days disables password aging. Password aging uses the time-of-day
clock, therefore having an accurate clock source is required. The use on SNTP
is strongly recommended.
Example
The following example sets the password age limit to 100 days.
console(config)#passwords aging 100
passwords history
As administrator, use the passwords history command in Global
Configuration mode to set the number of previous passwords that are stored
for each user account. When a local user changes his or her password, the user
is not able to reuse any password stored in password history. This setting
ensures that users do not reuse their passwords often. The default is 0. Use
the no form of this command to set the password history to the default value
of 0.
Security Commands 1049
Syntax
passwords history
0-10
no passwords history
Default Configuration
The default value is 0.
Command Mode
Global Configuration mode
User Guidelines
This command has no user guidelines.
Example
The following example sets the number of previous passwords remembered by
the system at 10.
console(config)#passwords history 10
passwords lock-out
Use the passwords lock-out command in Global Configuration mode to
strengthen the security of the switch by locking user accounts that have failed
login due to wrong passwords. When a lockout count is configured, a user
who is logging in must enter the correct password within that count.
Otherwise that user is locked out from further switch access. Only a user with
read/write access can reactivate a locked user account. Password lockout does
not apply to logins from the serial console. Use the no form of this command
to set the password lockout count to the default value.
Syntax
passwords lock-out
1-5
no passwords lock-out
Default Configuration
The default value is 0 or no lockout count is enforced.
Security Commands 1050
Command Mode
Global Configuration mode.
User Guidelines
Password lockout only applies to users with authentication configured to
local. RADIUS or TACACS authenticated users will use policies configured
on the respective RADIUS/TACACS servers.
Example
The following example sets the number of user attempts before lockout at 2.
console(config)#passwords lock-out 2
passwords min-length
Use the passwords min-length command in Global Configuration mode to
enforce a minimum length password length for local users. The value also
applies to the enable password. The valid range is 8–64. The default is 8. Use
the no version of this command to set the minimum password length to 8.
Syntax
passwords min-length length
no passwords min-length
• length — The minimum length of the password (Range: 8–64 characters)
Default Configuration
By default, the minimum password length is 8 characters.
Command Mode
Global Configuration mode
User Guidelines
This command has no user guidelines.
Security Commands 1051
Example
The following example configures user bob with password xxxyymmmm and
user level 15.
(config)# username bob password xxxyyymmm privilege 15
passwords strength-check
Use the passwords strength-check command in Global Configuration mode
to enable the Password Strength feature. The command is used to enable the
checking of password strength during user configuration. Use the no form of
the command to disable the Password Strength feature.
Syntax
passwords strength-check
no passwords strength-check
Default Configuration
The password strength feature is disabled by default.
Command Mode
Global Configuration
User Guidelines
This command enables/disables enforcement of password strength checking
policy as configured by the following commands:
passwords strength minimum uppercase-letters
passwords strength minimum lowercase-letters
passwords strength minimum special-characters
passwords strength minimum numeric-characters
passwords strength max-limit consecutive-characters
passwords strength max-limit repeated-characters
passwords strength minimum character-classes
Minimum strength validation validates a password containing a character in
the corresponding character class. If a character class is configured with a
strength check minimum of 0 (the default), a user may enter a valid password
containing only characters from that class and pass the strength check.
Therefore, it is recommended that the administrator configure all four
Security Commands 1052
minimum strength check character classes if password strength checking is
desired. Use the minimum character class check to require the user to enter a
password that passes the minimum strength check for more than one
minimum strength check character class.
Minimum character class checking validates passwords that contain a
character matching a configured character class. If minimum character class
checking is enabled, a password must pass at least the minimum number of
configured minimum strength class checks to be valid. Non-configured
minimum character classes are not counted towards the minimum matching
character classes.
If minimum character class checking is disabled and if a password contains a
character matching a configured character class, it must meet the specific
minimum strength check limit for the matching character class. If the
password only contains characters that are in non-configured (0 limit)
minimum strength check character class, the password is considered valid.
If the maximum consecutive characters or maximum repeated characters
limits, or other validation checks are configured, passwords must pass these
tests regardless of the minimum character class checking setting.
passwords strength minimum uppercase-letters
Use this command to enforce a minimum number of uppercase letters that a
password must contain. The valid range is 0–16. The default is 1. A minimum
of 0 means no restriction on that set of characters. Use the no form of the
command to reset the minimum uppercase letters to the default value.
Syntax
passwords strength minimum uppercase-letters 0–16
no passwords strength minimum uppercase-letters
Default Configuration
The default value is 1.
Command Mode
Global Configuration
Security Commands 1053
User Guidelines
This limit is not enforced unless the passwords strength minimum
uppercase-letters command is configured with a value greater than 0. In other
words, with a configuration of 0, a password consisting entirely of upper case
letters will pass the minimum strength check criteria.
Example
console(config)#passwords strength minimum uppercase-letters 6
passwords strength minimum lowercase-letters
Use this command to enforce a minimum number of lowercase letters that a
password must contain. The valid range is 0–16. The default is 1. A setting of
0 means no restriction. Use the no form of this command to reset the
minimum lowercase letters to the default value.
Syntax
passwords strength minimum lowercase-letters 0–16
no passwords strength minimum lowercase-letters
Default Configuration
The default value is 1.
Command Mode
Global Configuration
User Guidelines
This limit is not enforced unless the passwords strength minimum lowercase-
letters command is configured with a value greater than 0. In other words, a
password consisting entirely of lower case letters will pass the minimum
strength check criteria.
Example
console(config)#passwords strength minimum lowercase-letters 6
Security Commands 1054
passwords strength minimum numeric-
characters
Use this command to enforce a minimum number of numeric numbers that a
password should contain. The valid range is 0–16. The default is 1. A
minimum of 0 means no restriction on that set of characters. Use the no form
of this command to reset the minimum numeric characters to the default
value.
Syntax
passwords strength minimum numeric–characters 0–16
no passwords strength minimum numeric–characters
Default Configuration
The default value is 1.
Command Mode
Global Configuration
User Guidelines
This limit is not enforced unless the passwords strength minimum numeric-
characters command is configured with a value greater than 0. In other words,
a configuration of 0 allows a password consisting entirely of numeric
characters to pass strength check validation.
Example
console(config)#passwords strength minimum numeric–characters 6
passwords strength minimum special-characters
Use this command to enforce a minimum number of special characters that a
password may contain. The valid range is 0–16. The default is 1. A setting of 0
means no restriction. Special characters are one of the following characters (`!
$ % ^ & * ( ) _ - + = { [ } ] : ; @ ' ~ # | \ < , > . / ) Use the no form of this
command to reset the minimum special characters to the default value.
Security Commands 1055
Syntax
passwords strength minimum special–characters 0–16
no passwords strength minimum special–characters
Default Configuration
The default value is 1.
Command Mode
Global Configuration
User Guidelines
This limit is not enforced unless the passwords strength minimum special-
characters command is configured with a value greater than 0. In other words,
a configuration of 0 allows a password consisting entirely of special characters
to pass strength check validation.
Example
console(config)#passwords strength minimum special–characters 6
passwords strength max-limit consecutive-
characters
Use this command to enforce a maximum number of consecutive characters
that a password can contain. If a user enters a password that has more
consecutive characters than the configured limit, the system rejects the
password. The valid range of consecutive characters is 0–15. The default is 0.
A maximum of 0 means there is no restriction on consecutive characters.
Examples of consecutive characters are ABCDEF or 123456 or !”#$%&’().
Use the no form of this command to reset the maximum consecutive
characters accepted to the default value.
Syntax
passwords strength max-limit consecutive–characters 0–15
no passwords strength max-limit consecutive-characters
Security Commands 1056
Default Configuration
The default value is 0.
Command Mode
Global Configuration
User Guidelines
This command has no user guidelines.
Example
console(config)#passwords strength max-limit consecutive-characters 3
passwords strength max-limit repeated-
characters
Use this command to enforce a maximum repeated characters that a
password should contain. If password has repetition of characters more than
the configured max-limit, it fails to configure. The valid range is 0-15. The
default is 0. A maximum of 0 means again disabling the restriction. Use the
no form of this command to reset the maximum repeated characters to the
default value.
Syntax
passwords strength max-limit repeated-characters 0-15
no passwords strength max-limit repeated-characters
Default Configuration
The default value is 0.
Command Mode
Global Configuration
User Guidelines
This command has no user guidelines.
Security Commands 1057
Example
console(config)# passwords strength max-limit repeated-characters 3
passwords strength minimum character-classes
Use this command to enforce a minimum number of character classes that a
password must contain. Character classes are uppercase letters, lowercase
letters, numeric characters and special characters. The valid range is 0-4. The
default is 0. If a value of 0 is configured then no character class checking is
performed, i.e. the password need not contain characters from more than one
character class. Configured minimum strength and maximum strength
checking is still performed for each individual character class, if configured.
Use the no form of this command to reset the minimum character-classes to
the default value.
Syntax
passwords strength minimum character-classes 0-4
no passwords strength minimum character–classes
Default Configuration
The default value is 0. This character class limit is not enforced unless the
passwords strength minimum character-classes
command is configured with a
value greater than 0.
Command Mode
Global Configuration
User Guidelines
This command is used to enable password character class checking using the
parameters set by the following commands:
• passwords strength minimum uppercase-letters
• passwords strength minimum lowercase-letters
• passwords strength minimum special-characters
• passwords strength minimum numeric-characters
Security Commands 1058
A value greater than 0 specifies the minimum number of character class tests
a password must contain. A value of 0 disables checking that the password
contains characters from the requisite number of character classes. Minimum
character class checking validates passwords that contain at lease one
character matching a character class. If minimum character class checking is
enabled, a password must contain at least one character from a minimum
number of character classes to be valid.
Even if the minimum character class checking is disabled, passwords
containing characters from a class must still meet the specific minimum
strength limit for the matching class. If the password only contains characters
from non-configured character classes, the password is considered valid.
If the maximum consecutive characters or maximum repeated characters
limits are configured, passwords must pass these tests regardless of the
minimum character class checking setting.
Example
console(config)#passwords strength minimum character-classes 4
passwords strength exclude-keyword
Use this command to exclude the keyword while configuring the password.
The password does not accept the keyword in any form (inbetween the string,
case insensitive and reverse) as a substring. You can configure up to a
maximum of three keywords. Use the no form of this command to reset the
restriction for a given string or all the strings configured.
Syntax
passwords strength exclude–keyword
string
no passwords strength exclude–keyword [
string
]
Default Configuration
This command has no default configuration.
Command Mode
Global Configuration
Security Commands 1059
User Guidelines
This command has no user guidelines.
Example
console(config)#passwords strength exclude-keyword dell
enable password encrypted
This command is used by an Administrator to transfer the enable password
between devices without having to know the password.
Syntax
enable password password encrypted
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode
User Guidelines
The password parameter must be exactly 128 hexadecimal characters.
show passwords configuration
Use the show passwords configuration command to display the configured
password management settings.
Syntax
show passwords configuration
Default Configuration
This command has no default configuration.
Security Commands 1060
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
The following fields are displayed by this command.
Parameter Description
Minimum Password Length Minimum number of characters required
when changing passwords.
Password History Number of passwords to store for reuse
prevention.
Password Aging Length in days that a password is valid.
Lockout Attempts Number of failed password login attempts
before lockout.
Minimum Password Uppercase Letters Minimum number of uppercase
characters required when configuring
passwords.
Minimum Password Lowercase Letters Minimum number of uppercase
characters required when configuring
passwords.
Minimum Password Numeric Characters Minimum number of numeric characters
required when configuring passwords.
Minimum Password Special Characters Minimum number of special characters
required when configuring passwords.
Maximum Password Consecutive
Characters
Maximum number of consecutive
characters required that the password
should contain when configuring
passwords.
Maximum Password Repeated Characters Maximum number of repetition of
characters that the password should
contain when configuring passwords.
Security Commands 1061
Example
The following example displays the command output.
console#show passwords configuration
Passwords Configuration
-----------------------
Minimum Password Length........................ 8
Password History............................... 0
Password Aging (days).......................... 0
Lockout Attempts............................... 0
Password Strength Check........................ Enable
Minimum Password Uppercase Letters............. 4
Minimum Password Lowercase Letters............. 4
Minimum Password Numeric Characters............ 3
Minimum Password Special Characters............ 3
Maximum Password Consecutive Characters........ 3
Maximum Password Repeated Characters........... 3
Minimum Password Character Classes............. 4
Password Exclude Keywords...................... dell, dell1, dell2
show passwords result
Use the show passwords result command to display the last password set
result information.
Syntax
show passwords result
Default Configuration
This command has no default configuration.
Minimum Password Character Classes Minimum number of character classes
(uppercase, lowercase, numeric and
special) required when configuring
passwords.
Password Exclude-Keywords Minimum number of character classes
(uppercase, lowercase, numeric and
special) required when configuring
passwords.
Parameter Description
Security Commands 1062
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
This command has no user guidelines.
Example
The following example displays the command output.
console#show passwords result
Last User whose password is set....................... dell
Password strength check............................ Enable
Last Password Set Result:
Reason for failure: Could not set user password! Password should contain at
least 4 uppercase letters.
Security Commands 1063
SSH Commands
Dell EMC Networking N1100-ON/N1500/N2000/N2100-
ON/N3000/N3100-ON/N4000 Series Switches
Management access to the switch is supported via telnet, SSH, or the serial
console. The Dell EMC Networking supports secure shell (SSH) and secure
sockets layer (SSL) to help ensure the security of network transactions.
Keys and certificates can be generated externally (that is, offline) and
downloaded to the target or generated directly by the Dell EMC Networking
switch.
Commands in this Section
This section explains the following commands:
crypto key generate dsa
Use the crypto key generate dsa command in Global Configuration mode to
generate DSA key pairs for the SSH server. A key pair is one public DSA key
and one private DSA key. Use the crypto key zeroize command to remove the
generated private key from the local file system. The public and private keys
will be overwritten if the command is subsequently executed.
Syntax
crypto key generate dsa
Default Configuration
DSA key pairs do not exist.
crypto key generate dsa ip ssh pubkey-auth
crypto key generate rsa ip ssh server
crypto key pubkey-chain ssh key-string
crypto key zeroize pubkey-chain show crypto key mypubkey
crypto key zeroize {rsa|dsa} show crypto key pubkey-chain ssh
ip ssh port show ip ssh
Security Commands 1064
Command Mode
Global Configuration mode
User Guidelines
DSA keys are generated in pairs: one public DSA key and one private DSA
key. These keys are used the encrypt communication with the switch when
using SSH or HTTPS. If your switch already has DSA keys when you issue this
command, you are warned and prompted to replace the existing keys. Existing
certificates generated from the previous keys will be invalidated.The keys are
not saved in the switch configuration; they are saved in the file system and
the private key is never displayed to the user. DSA keys, along with other
switch credentials, are distributed to all units in a stack on a configuration
save.
Use the crypto key zeroize dsa command to remove the DSA key pair from
the system.
Private keys should never be shared with unauthorized users. This command
generates the following private/public key pair in the ssh_host_dsa_key and
ssh_host_dsa_key.pub files. Both the RSA and DSA keys must be generated to
enable the SSH server.
Example
The following example generates DSA key pairs.
console(config)#crypto key generate dsa
crypto key generate rsa
Use the crypto key generate rsa command in Global Configuration mode to
generate RSA key pairs for use by the SSH or HTTPS server. Use the crypto
key zeroize form of the command to delete the private key from the local file
system.
Syntax
crypto key generate rsa
Default Configuration
RSA key pairs do not exist.
Security Commands 1065
Command Mode
Global Configuration mode
User Guidelines
RSA keys are generated in pairs: one public RSA key and one private RSA key.
These keys are used to encrypt communication with the switch when using
SSH. If your switch already has RSA keys when you issue this command, you
are warned and prompted to replace the existing keys. The keys are not saved
in the switch configuration; they are saved in the file system and the private
key is never displayed to the user. RSA keys, along with other switch
credentials, are distributed to all units in a stack on a configuration save.
Use the crypto key zeroize rsa command to remove RSA key pair from the
system.
Private keys should never be shared with unauthorized users. This command
generates the private public key pairs in the following files:
ssh_host_rsa_key and ssh_host_rsa_key.pub, ssh_host_key and
ssh_host_key.pub files. Both the RSA and DSA keys must be generated to
enable the SSH server.
Example
The following example generates RSA key pairs.
console(config)#crypto key generate rsa
crypto key pubkey-chain ssh
Use the crypto key pubkey-chain ssh command in Global Configuration
mode to enter public key configuration mode in order to manually specify
public keys for SSH clients or an individual user.
Syntax
crypto key pubkey-chain ssh user-key username rsa/dsa
Default Configuration
By default, this command has no public keys configured.
Security Commands 1066
Command Mode
Global Configuration mode
User Guidelines
This public key is used to authenticate an administrator to the switch when
using SSH. This avoids the need for the administrator to enter a password on
every login.
Enclose the key string is quotes. The Key String is the contents of the public
key in uu-encoded format.
Example
The following example configures a public key for administrator bob, enables
the SSH server, and enables public key authentication over SSH.
console#configure
console(config)#crypto key generate rsa
console(config)#crypto key generate dsa
console(config)#crypto key pubkey-chain ssh user-key bob rsa
Key-string row AAAAB3NzaC1yc2EAAAABIwAAAQEAu7WHtjQDUygjSQXHVgyqdUby
Key-string row dxUXEAiDHXcWHVr0R/ak1HDQitBzeEv1vVEToEn5ddLmRhtIgRdKUJHgBHJV
Key-string row R2VaSN/WC0IK53j9re4B11AE+O3qAxwJs0KD7cTkvF9I+YdiXeOM8VE4skkw
Key-string row AiyLDNVWXgNQ6iat8+8Mjth+PIo5t3HykYUCkD8B1v93nzi/sr4hHHJCdx7w
Key-string row wRW3QtgXaGwYt2rdlr3x8ViAF6B7AKYd8xGVVjyJTD6TjrCRRwQHgB/BHsFr
Key-string row z/Rl1SYa0vFjel/7/0qaIDSHfHqWhajYkMa4xPOtIye7oqzAOm1b76l28uTB
Key-string row luBEoLQ+PKOKMiK8sQ==
console(config-pubkey-key)#exit
console(config)#ip ssh server
console(config)#ip ssh pubkey-auth
crypto key zeroize pubkey-chain
Use the crypto key zeroize pubkey-chain command in Global Configuration
mode to erase all SSH server public key chains or the public key chain for a
user.
Syntax
crypto key zeroize pubkey-chain ssh [user-key username]
Security Commands 1067
Default Configuration
There is no default configuration for this command.
Command Mode
Global Configuration mode.
User Guidelines
The SSH server requires the public and private keys RSA/DSA keys to
operate.
Example
console(config)#crypto key zeroize pubkey-chain ssh user-key bob
crypto key zeroize {rsa|dsa}
Use the crypto key zeroize {rsa|dsa} command in Global Configuration
mode to delete the RSA or DSA public and private keys from the switch.
Syntax
crypto key zeroize {rsa|dsa}
Default Configuration
There is no default configuration for this command.
Command Mode
Global Configuration mode.
User Guidelines
The crypto key zeroize rsa command removes the following files:
ssh_host_key
ssh_host_rsa_key
ssh_host_key.pub
ssh_host_rsa_key.pub
Security Commands 1068
The crypto key zeroize dsa command removes the following files:
ssh_host_dsa_key
ssh_host_dsa_key.pub
Removing the keys does not terminate existing SSH sessions.
Example
console(config)#crypto key zeroize rsa
ip ssh port
Use the ip ssh port command in Global Configuration mode to specify the
TCP port to be used by the SSH server. To use the default port, use the no
form of this command.
Syntax
ip ssh port port-number
no ip ssh port
• port-number — Port number for use by the SSH server. (Range: 1025–
65535)
Default Configuration
The default value is 22.
Command Mode
Global Configuration mode
User Guidelines
The SSH TCP port should not be set to a value that might conflict with other
well-known protocol port numbers used on this switch. The following non-
exhaustive list of ports are reserved to the system and may not be able to be
configured for another purpose: 23 (telnet), 80 (HTTP), 161,162 (SNMP),
514, (SYSLOG), 546,547 (DHCPv6), 2222 (SSH).
Security Commands 1069
Example
The following example specifies the port to be used by the SSH server as
8080.
console(config)#ip ssh port 8080
ip ssh pubkey-auth
Use the ip ssh pubkey-auth command in Global Configuration mode to
enable public key authentication for incoming SSH sessions. To disable this
function, use the no form of this command.
Syntax
ip ssh pubkey-auth
no ip ssh pubkey-auth
Default Configuration
The function is disabled.
Command Mode
Global Configuration mode
User Guidelines
Public key authentication allow administrators with an SSH client access to
the switch without requiring a password. Use the crypto key pubkey-chain ssh
user-key command to configure the administrators public key for use by the
SSH server. AAA authentication is independent from this configuration.
Example
The following example enables public key authentication for incoming SSH
sessions.
console(config)#ip ssh pubkey-auth
Security Commands 1070
ip ssh server
Use the ip ssh server command in Global Configuration mode to enable the
switch to be configured using SSH. To disable this function, use the no form
of this command.
Syntax
ip ssh server
no ip ssh server
Default Configuration
The SSH server is disabled by default.
Command Mode
Global Configuration mode
User Guidelines
To generate SSH server keys, use the commands crypto key generate rsa and
crypto key generate dsa commands. These keys are required to allow the SSH
server to operate.
Dell EMC Networking N-Series switches support the SSH service over IPv4
or IPv6. SSH is configured to require a password on accounts that attempt to
log into the switch.
Example
The following example enables the switch to be configured using SSH.
console(config)#crypto key generate rsa
Do you want to overwrite the existing RSA keys? (y/n):y
RSA key generation started, this may take a few minutes...
RSA key generation complete.
console(config)#crypto key generate dsa
Do you want to overwrite the existing DSA keys? (y/n):y
DSA key generation started, this may take a few minutes...
DSA key generation complete.
console(config)#ip ssh server
Security Commands 1071
key-string
Use the key-string SSH Public Key Configuration mode to specify an SSH
public key manually.
Syntax
key-string key-string
key-string row key-string
•row — To specify the SSH public key row by row.
• key-string — The UU-encoded DER format is the same format as the
authorized keys file used by OpenSSH.
Default Configuration
By default, the key-string is empty.
Command Mode
SSH Public Key Configuration mode
User Guidelines
The key string is the public key of the specified type (RSA or DSA) generated
by the administrator. The administrator will need access to both the public
and private key on the host to log in without authenticating via password.
Enclose the key string in quotes.
DSA is considered less secure than RSA. Use of RSA is recommended.
Use the key-string row command to enter the key-string one row at a time.
The row may be enclosed in quotes. This command may be used to enter the
key one line at a time should the key-string be greater than 234 characters in
length.
Use the key-string command without the row parameter to enter the entire
key at once if the key-string does not exceed 234 characters.
Examples
The following example shows how to enter a single public key string for a user
called “bob.”
Security Commands 1072
console(config)#crypto key pubkey-chain ssh user-key bob rsa
Key-string row AAAAB3NzaC1yc2EAAAABIwAAAQEAu7WHtjQDUygjSQXHVgyqdUby
Key-string row dxUXEAiDHXcWHVr0R/ak1HDQitBzeEv1vVEToEn5ddLmRhtIgRdKUJHgBHJV
Key-string row R2VaSN/WC0IK53j9re4B11AE+O3qAxwJs0KD7cTkvF9I+YdiXeOM8VE4skkw
Key-string row AiyLDNVWXgNQ6iat8+8Mjth+PIo5t3HykYUCkD8B1v93nzi/sr4hHHJCdx7w
Key-string row wRW3QtgXaGwYt2rdlr3x8ViAF6B7AKYd8xGVVjyJTD6TjrCRRwQHgB/BHsFr
Key-string row z/Rl1SYa0vFjel/7/0qaIDSHfHqWhajYkMa4xPOtIye7oqzAOm1b76l28uTB
Key-string row luBEoLQ+PKOKMiK8sQ==
show crypto key mypubkey
Use the show crypto key mypubkey command to display the SSH public keys
of the switch.
Syntax
show crypto key mypubkey [rsa | dsa]
•rsa — RSA key.
•dsa — DSA key.
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
This command has no user guidelines.
Example
The following example displays the SSH public keys on the switch.
console#show crypto key mypubkey rsa
rsa key data:
ssh-rsa AAAAB3NzaC1yc2EAAAABIwAAAQEAu7WHtjQDUygjSQXHVgyqdUby
dxUXEAiDHXcWHVr0R/ak1HDQitBzeEv1vVEToEn5ddLmRhtIgRdKUJHgBHJV
R2VaSN/WC0IK53j9re4B11AE+O3qAxwJs0KD7cTkvF9I+YdiXeOM8VE4skkw
AiyLDNVWXgNQ6iat8+8Mjth+PIo5t3HykYUCkD8B1v93nzi/sr4hHHJCdx7w
wRW3QtgXaGwYt2rdlr3x8ViAF6B7AKYd8xGVVjyJTD6TjrCRRwQHgB/BHsFr
Security Commands 1073
z/Rl1SYa0vFjel/7/0qaIDSHfHqWhajYkMa4xPOtIye7oqzAOm1b76l28uTB
luBEoLQ+PKOKMiK8sQ==
Fingerprint(hex): 58:7f:5c:af:ba:d3:60:88:42:00:b0:2f:f1:5a:a8:fc
Fingerprint(bubbleBabble): xodob-liboh-heret-tiver-dyrib-godac-pynah-muzyt-
mofim-bihog-cuxyx
show crypto key pubkey-chain ssh
Use the show crypto key pubkey-chain ssh command to display SSH public
keys stored on the switch.
Syntax
show crypto key pubkey-chain ssh [username username] [fingerprint bubble-
babble | hex]
• username — Specifies the remote SSH client username. (Range: 1–48
characters)
•bubble-babble — Fingerprints in Bubble Babble format.
•hex — Fingerprint in Hex format. If fingerprint is unspecified, it defaults
to Hex format.
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
This command has no user guidelines.
Example
The following example displays all SSH public keys stored on the switch.
console#show crypto key pubkey-chain ssh
Username Fingerprint
-------- -------------------------------------------------
bob 9A:CC:01:C5:78:39:27:86:79:CC:23:C5:98:59:F1:86
john 98:F7:6E:28:F2:79:87:C8:18:F8:88:CC:F8:89:87:C8
Security Commands 1074
The following example displays the SSH public called “dana.”
console#show crypto key pubkey-chain ssh username dana
Username: dana
rsa key data:
ssh-rsa AAAAB3NzaC1yc2EAAAABIwAAAIEAywqRKTRnexccxVUVTeMl+Gkh
imyUDhcTkgEfssLPMsgoXlTwzCE5+97UIIsSRKQQWR+pBNl45tCYd75LUofV
4LP6Lj1Q5Q0w5lBgiqC2MZ/iBHGSsHMAE0lpYtelZprDu4uiZHMuWezmdQp9
a1PU4jwQ22TlcfaUq3sqC3FMUoU=
Fingerprint: 2f:09:e7:6f:c9:bf:ab:04:d4:6f:a0:eb:e8:df:7a:11
show ip ssh
Use the show ip ssh command to display the SSH server configuration.
Syntax
show ip ssh
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
This command has no user guidelines.
Example
The following example displays the SSH server configuration.
console#show ip ssh
SSH server enabled. Port: 22
RSA key was generated.
DSA key was generated.
SSH Public Key Authentication is enabled.
Active incoming sessions:
IP Address User Name Idle Time SessionTime
------------- -------------------- -------------- --------------
10.240.1.122 John 00:00:00 00:00:08
Audio Visual Bridging Commands 1075
5
Audio Visual Bridging Commands
Dell EMC Networking N4000 Series Switches
This section of the document contains the following audio visual bridging
commands:
Multiple MAC Registration
Protocol Commands
Multiple Stream Reservation
Protocol Commands
Multiple VLAN Registration
Protocol Commands
802.1AS Timesync Commands
Audio Visual Bridging Commands 1076
Multiple MAC Registration Protocol
Commands
Dell EMC Networking N4000 Series Switches
This section covers commands related to Multiple MAC Registration
Protocol (MMRP). MMRP is an implementation of IEEE 802.1ak. MMRP
supports registration of MAC address/VLAN pairs in support of Audio-Visual
Bridging.
Commands in this Section
This section explains the following commands:
clear mmrp statistics
This command clears the MMRP statistics for an interface or all interfaces.
Syntax
clear mmrp statistics [ interface-id | all ]
• All—Clear MMRP statistics for all interfaces
• interface-id—Clear statistics for the specified interface.
Default Configuration
This command has no defaults.
Command Mode
Privileged Exec
clear mmrp statistics mmrp periodic state machine
mmrp show mmrp
mmrp global show mmrp statistics
Audio Visual Bridging Commands 1077
User Guidelines
MMRP is not compatible the GMRP. Do NOT enable GMRP/GVRP on
MMRP enabled switches.
The clear counters command also clears all MMRP statistics for all interfaces
in addition to clearing other counters.
Command History
Introduced in version 6.2.0.1 firmware.
Example
This example clears the MMRP counters on port channel 1
console#clear mmrp statistics po1
mmrp
This command enables MMRP on a specific interface. Use the no form of the
command to disable MMRP on an interface.
Syntax
mmrp
no mmrp
Default Configuration
By default, MMRP is disabled globally and on all interfaces.
Command Mode
Interface Configuration (physical and port channel) and Interface Range
(physical and port channel)
User Guidelines
MMRP is not compatible with GVRP/GMRP. Do not enable MMRP on
switches enabled for GVRP/GMRP.
Enabling MMRP on an interface automatically disables dynamic MFDB
entry creation. MFDB entries are only configured via MMRP when MMRP is
enabled.
Audio Visual Bridging Commands 1078
Enabling MMRP on a port channel associated Ethernet interface has no
effect as long as the interface is a member of the port channel.
MMRP must also be enabled globally in order to become operational.
This command is only available on the Dell EMC Networking N4000 Series
switches.
Command History
Introduced in version 6.2.0.1 firmware.
Example
This example enables MMRP on port channel 1.
console(config)#interface po1
console(config-if-Po1)#mmrp
mmrp global
Use the mmrp global command to globally enable MMRP. Use the no form of
the command to globally disable MMRP.
Syntax
mmrp global
no mmrp global
Default Configuration
By default, MMRP is disabled globally and on all interfaces.
Command Mode
Global Configuration
User Guidelines
MMRP is not compatible with GVRP/GMRP. Do not enable MMRP on
switches enabled for GVRP/GMRP.
IGMP snooping can interfere with MMRP/MVRP. Disable IGMP snooping if
using MMRP/MVRP.
Audio Visual Bridging Commands 1079
IGMP snooping can interfere with MMRP/MVRP. Disable IGMP snooping if
using MMRP/MVRP.
MMRP propagates VLAN registration information to allow switches in the
network to dynamically learn and configure VLANs. Refer to IEEE Std.
802.1Q-2005 and IEEE Std. 802.1Qbe-2010 for further information. In
particular, MMRP must also be enabled on the individual interfaces to
become operational.
MMRP does not support configuration of default group filtering behavior.
MMRP does not support the optional Registrar Administrative Control for
MAC addresses.
Command History
Introduced in version 6.2.0.1 firmware.
Example
This example enables MMRP globally.
console(config)#mmrp global
mmrp periodic state machine
Use this command to globally enable the MMRP periodic state machine. Use
the no form of the command to globally disable the MMRP periodic state
machine.
Syntax
mmrp periodic state machine
no mmrp periodic state machine
Default Configuration
By default, the MMRP periodic state machine is disabled globally.
Command Mode
Global Configuration
Audio Visual Bridging Commands 1080
User Guidelines
The MMRP periodic state machine ages out unused MMRP entries. Use the
show mmrp summary command to display the global MMRP administrative
status.
Command History
Introduced in version 6.2.0.1 firmware.
Example
This example enables the MMRP periodic state machine.
console(config)#mmrp periodic state machine
show mmrp
Use this command to display the MMRP configuration for an interface or
globally.
Syntax
show mmrp [ summary | interface [ interface-id | summary ] ]
•summary—Show the global MMRP configuration.
• interface-id—Show the MMRP configuration for the specified interface.
•interface summary—Show the per interface MMRP configuration for all
interfaces.
Default Configuration
This command has no defaults.
Command Mode
Privileged Exec, Global Configuration, and all submodes
User Guidelines
MMRP is not compatible the GMRP. Do not enable GMRP/GVRP on MMRP
enabled switches.
Audio Visual Bridging Commands 1081
Command History
Introduced in version 6.2.0.1 firmware.
Example
console#show mmrp summary
MMRP Global Admin Mode......................... Disabled
MMRP Periodic State Machine.................... Disabled
console#show mmrp interface Gi1/0/12
MMRP Interface Admin Mode...................... Disabled
console#show mmrp interface summary
Intf Mode
--------- ---------
Gi1/0/1 Disabled
Gi1/0/2 Disabled
Gi1/0/3 Disabled
Gi1/0/4 Disabled
show mmrp statistics
Use this command to display the MMRP statistics for an interface or globally.
Syntax
show mmrp statistics {interface-id}
• interface-id—Displays the MMRP statistics for the specified interface.
Default Configuration
By default, the global statistics are displayed.
Command Mode
Privileged Exec, Global Configuration, and all submodes
User Guidelines
MMRP is not compatible with GMRP. Do not enable GMRP on MMRP
enabled switches.
Audio Visual Bridging Commands 1082
Command History
Introduced in version 6.2.0.1 firmware.
Example
console#show mmrp statistics gi1/0/12
Port........................................... Gi1/0/12
MMRP messages received......................... 21
MMRP messages received with bad header......... 0
MMRP messages received with bad format......... 0
MMRP messages transmitted...................... 8
MMRP messages failed to transmit............... 0
Audio Visual Bridging Commands 1083
Multiple VLAN Registration
Protocol Commands
Dell EMC Networking N4000 Series Switches
This section covers commands related to Multiple VLAN Registration
Protocol (MVRP). MVRP is an implementation of IEEE 802.1ak in support of
Audio-Video Bridging. Dell EMC Networking MVRP supports registration
(dynamic VLAN creation) and propagation of VLAN membership
information.
Commands in this Section
This section explains the following commands:
clear mvrp statistics
This command clears the MVRP statistics for an interface or all interfaces.
Syntax
clear mvrp statistics [ interface-id | all ]
• All—Clear MVRP statistics for all interfaces
• interface-id—Clear statistics for the specified interface.
Default Configuration
This command has no defaults.
Command Mode
Privileged Exec
clear mvrp statistics mvrp periodic state machine
mvrp show mvrp
mvrp global show mvrp statistics
Audio Visual Bridging Commands 1084
User Guidelines
MVRP is not compatible with GVRP. Do not enable GMRP/GVRP on MVRP
enabled switches.
The clear counters command also clears all MVRP statistics for all interfaces
in addition to clearing other counters.
Command History
Introduced in version 6.2.0.1 firmware.
Example
This example clears the MVRP counters on port channel 1
console#clear mmrp statistics po1
mvrp
This command enables MVRP on a specific interface. Use the no form of the
command to disable MVRP on an interface.
Syntax
mvrp
no mvrp
Default Configuration
By default, MVRP is disabled globally and on all interfaces.
Command Mode
Interface Configuration (physical and port channel) and Interface Range
(physical and port channel)
User Guidelines
MVRP is not compatible with GVRP/GMRP. Do not enable MVRP on
switches enabled for GVRP/GMRP.
MVRP operates in dynamic mode only. It both propagates VLAN
configuration and learns (and creates) VLANs learned from the link peer.
Audio Visual Bridging Commands 1085
Enabling MVRP on a port channel associated interface has no effect as long
as the interface is a member of the port channel.
MVRP is not compatible with private VLAN configured interfaces. Do not
enable GVRP on private VLAN enabled interfaces.
MVRP must also be enabled globally in order to become operational.
Command History
Introduced in version 6.2.0.1 firmware.
Example
This example enables MVRP on port channel 1
console(config)#interface po1
console(config-if-Po1)#mvrp
mvrp global
Use the mvrp global command to globally enable MVRP. Use the no form of
the command to globally disable MVRP.
Syntax
mvrp global
no mvrp global
Default Configuration
By default, MVRP is disabled globally and on all interfaces.
Command Mode
Global Configuration mode
User Guidelines
MVRP is not compatible with GVRP/GMRP. Do not enable MVRP on
switches enabled for GVRP/GMRP.
Audio Visual Bridging Commands 1086
MVRP propagates VLAN registration information to allow switches in the
network to dynamically learn and configure VLANs. Refer to IEEE Std.
802.1Q-2005 and IEEE Std. 802.1Qbe-2010 for further information. In
particular, MVRP must also be enabled on the individual interfaces to
become operational.
MVRP does not support configuration of default group filtering behavior.
MVRP does not support the optional Registrar Administrative Control for
VLANs.
If a VLAN is statically configured on an interface and MVRP requests
registration (dynamic creation) of the VLAN, it is deleted and added back as a
tagged static VLAN. If subsequently deleted by the operator, the VLAN is
dynamically created.
If a VLAN is configured as forbidden on an interface and MVRP requests
registration (dynamic creation) of the same VLAN, MVRP does not configure
the port association.
MVRP is only supported on trunk or general mode ports.
This command is only available on the N4000 Series switches.
Command History
Introduced in version 6.2.0.1 firmware.
Example
This example enables MVRP globally.
console(config)#mvrp global
mvrp periodic state machine
Use this command to globally enable the MVRP periodic state machine. Use
the no form of the command to globally disable the MVRP periodic state
machine.
Syntax
mvrp periodic state machine
no mvrp periodic state machine
Audio Visual Bridging Commands 1087
Default Configuration
By default, the MVRP periodic state machine is disabled globally.
Command Mode
Global Configuration
User Guidelines
The periodic state machine ages out MVRP created dynamic VLANs. Use the
show mvrp summary command to display the global MVRP administrative
status.
Command History
Introduced in version 6.2.0.1 firmware.
Example
This example enables the MVRP periodic state machine.
console(config)#mvrp periodic state machine
show mvrp
Use this command to display the MVRP configuration for an interface or
globally.
Syntax
show mvrp [ summary | interface [ interface-id | summary ] ]
•summary—Show the global MMRP configuration.
• interface-id—Show the MMRP configuration for the specified interface.
•interface summary—Show the per interface MMRP configuration for all
interfaces.
Default Configuration
This command has no defaults.
Audio Visual Bridging Commands 1088
Command Mode
Privileged Exec, Global Configuration, and all submodes
User Guidelines
MVRP is not compatible with GMRP. Do not enable GMRP/GVRP on MVRP
enabled switches.
Command History
Introduced in version 6.2.0.1 firmware.
Example
The following shows example CLI display output for the command.
console#show mvrp summary
MVRP global state.............................. Disabled
MVRP Periodic State Machine state.............. Disabled
VLANs created via MVRP......................... 20-45, 3001-3050
The following shows example CLI display output for the command.
(Switching) #show mvrp interface 0/12
MVRP interface state........................... Enabled
VLANs declared................................. 20-45, 3001-3050
VLANs registered............................... none
show mvrp statistics
Use this command to display the MVRP statistics for an interface or globally.
Syntax
show mvrp statistics {interface-id}
• interface-id—Displays the MVRP statistics for the specified interface.
Default Configuration
By default, the global statistics are displayed.
Command Mode
Privileged Exec, Global Configuration, and all submodes
Audio Visual Bridging Commands 1089
User Guidelines
MVRP is not compatible with GMRP/GVRP. Do not enable GVRP on MMRP
enabled switches.
Command History
Introduced in version 6.2.0.1 firmware.
Example
The following shows example CLI display output for the command.
console#show mvrp statistics summary
MVRP messages received......................... 45
MVRP messages received with bad header......... 0
MVRP messages received with bad format......... 0
MVRP messages transmitted...................... 16
MVRP messages failed to transmit............... 0
MVRP Message Queue Failures.................... 0
The following shows example CLI display output for the command.
(Switching) #show mvrp statistics 0/12
Port........................................... 0/12
MVRP messages received......................... 21
MVRP messages received with bad header......... 0
MVRP messages received with bad format......... 0
MVRP messages transmitted...................... 8
MVRP messages failed to transmit............... 0
MVRP failed reservations....................... 0
Audio Visual Bridging Commands 1090
Multiple Stream Reservation
Protocol Commands
Dell EMC Networking N4000 Series Switches
This section covers commands related to Multiple Stream Reservation
Protocol (MSRP). MSRP supports registration of stream membership and
resource reservation in support of Audio-Visual Bridging as defined by IEEE
802.1Qat and IEEE 802.1Qav. These commands are only available on the Dell
EMC Networking N4000 Series switches.
Commands in this Section
This section explains the following commands:
clear msrp statistics
Use this command to clear the MSRP statistics for an interface or all
interfaces.
Syntax
clear msrp statistics [ interface-id | all ]
•all—Clear MSRP statistics for all interfaces
• interface-id—Clear statistics for the specified interface. Argument must
be a physical interface identifier.
clear msrp statistics msrp srclassqav
msrp (Interface) msrp talker-pruning
msrp boundary-propagate show msrp
msrp delta-bw show msrp reservations
msrp global show msrp statistics
msrp max-fan-in-ports show msrp stream
msrp srclass-pvid
–
Audio Visual Bridging Commands 1091
Default Configuration
This command has no defaults.
Command Mode
Privileged Exec
User Guidelines
The clear counters command also clears all MSRP statistics for all interfaces
in addition to clearing other counters.
Command History
Introduced in version 6.2.0.1 firmware.
Example
This example clears the MSRP counters on interface Gi1/0/4
console#clear msrp statistics gi1/0/4
msrp (Interface)
Use this command to enable MSRP on a specific interface. Use the no form
of the command to disable MSRP on an interface.
Syntax
msrp
no msrp
Default Configuration
By default, MSRP is disabled globally and on all interfaces.
Command Mode
Interface Configuration and Interface Range modes
User Guidelines
Enabling MSRP on a port channel associated interface has no effect as long as
the interface remains a member of the port channel.
Audio Visual Bridging Commands 1092
MSRP must also be enabled globally in order to become operational.
This command is only available on the N4000 Series switches.
Command History
Introduced in version 6.2.0.1 firmware.
Example
This example enables MSRP on interface Gi1/0/1
console(config)#interface gi1/0/1
console(config-if-Gi1/0/1)#msrp
msrp boundary-propagate
Use this command to configure the IEEE 802.1Qav boundary propagation.
Use the no form of the command set the class configuration to the default.
Syntax
msrp boundary-propagate
no msrp boundary-propagate
Default Configuration
Talkers on a boundary port are ignored by default.
Command Mode
Global Configuration mode
User Guidelines
Use the boundary propagation configuration to administratively define the
edge of the IEEE 802.1Qav domain. Disable boundary propagation to ignore
talkers on boundary ports.
Boundary propagation can only be configured when MSRP is globally
disabled.
Command History
Introduced in version 6.2.0.1 firmware.
Audio Visual Bridging Commands 1093
Example
This example administratively enables MSRP talker propagation from outside
the domain.
console(config)#no msrp global
console(config)#msrp boundary-propagate
console(config)#msrp global
console(config)#show msrp summary
MSRP Global Admin Mode......................... Enabled
MSRP Talker Pruning............................ Disabled
MSRP Maximum Fan-in Ports...................... 12
MSRP Boundary Propagation...................... Enabled
QAV class A priority........................... 4
QAV class A remap priority..................... 1
QAV class B priority........................... 3
QAV class B remap priority..................... 1
msrp delta-bw
Use this command to configure the MSRP VLAN ID for the SR traffic class
on the interface.
Syntax
msrp delta-bw [a | b ] bandwidth
no msrp delta-bw [a | b ]
bandwidth—The maximum percentage of bandwidth which may be reserved
for a traffic class on an interface. The range is 0–75.
Default Configuration
By default, up to 75% of the interface bandwidth may be reserved for class A
traffic and 0% may be reserved for class B traffic.
Command Mode
Interface Configuration mode (physical and port channel), Interface range
mode (physical and port channel)
User Guidelines
MSRP must also be enabled globally in order to become operational.
Audio Visual Bridging Commands 1094
Command History
Introduced in version 6.2.0.1 firmware.
Example
This example configure MSRP delta bandwidth for class A traffic on interface
Gi1/0/3 to be 50%
console(config)#interface gi1/0/3
console(config-if-Gi1/0/3)#msrp
console(config-if-Gi1/0/3)#msrp delta-bw a 50
msrp global
Use this command to globally enable MSRP. Use the no form of the
command to globally disable MSRP.
Syntax
msrp global
no msrp global
Default Configuration
By default, MSRP is disabled globally and on all interfaces.
Command Mode
Global Configuration mode
User Guidelines
MSRP is not compatible with GMRP/GVRP. Do not enable GMRP/GVRP on
MMRP/MVRP/MSRP enabled switches.
MSRP must also be enabled on individual interfaces to become operational.
MSRP propagates stream reservation registration information to/from talkers
and listeners and implements admission. Refer to IEEE Std. 802.1Qat-2010
and IEEE 802.1Q-2011 for further information.
Audio Visual Bridging Commands 1095
MSRP is internally mapped onto multicast queues 2 and 3. Generally, unicast
traffic does not use these queues except for destination lookup failures which
are broadcast to all ports in the VLAN. Delay limits are not calculated to
accommodate such traffic.
Likewise, static configuration can place traffic onto the multicast queues and
interfere with AVB traffic. Delay limits cannot be guaranteed in such cases.
This command is only available on the N4000 Series switches.
Command History
Introduced in version 6.2.0.1 firmware.
Example
This example enables MSRP globally.
console(config)#msrp global
msrp max-fan-in-ports
Use this command to configure the fan-in value used in calculating available
bandwidth. Use the no form of the command to return the fan in to the
default.
Syntax
msrp max-fan-in-ports fan-in
no msrp max-fan-in-ports
• fan-in—The fan in value used in the calculation of available bandwidth.
The range is 0–52.
Default Configuration
The default fan-in value is 12.
Command Mode
Global Configuration
Audio Visual Bridging Commands 1096
User Guidelines
This command configures the maximum number of ingress ports that are
capable of transmitting into a single egress port (i.e., the maximum number
of talker registrations on a switch). If the fan in is reduced below the number
of active registrations, the switch attempts to remove the lowest priority
registrations until the fan in limit is reached.
Command History
Introduced in version 6.2.0.1 firmware.
Example
This example configures the fan in to 14 interfaces.
console(config)#msrp max-fan-in-ports 14
console(config)#show msrp summary
MSRP Global Admin Mode......................... Enabled
MSRP Talker Pruning............................ Enabled
MSRP Maximum Fan-in Ports...................... 14
MSRP Boundary Propagation...................... Enabled
QAV class A priority........................... 4
QAV class A remap priority..................... 1
QAV class B priority........................... 3
QAV class B remap priority..................... 1
msrp srclass-pvid
Use this command to configure the MSRP VLAN ID for the SR traffic class
on the interface.
Syntax
msrp srclass-pvid vlan-id
no msrp srclass-pvid
• vlan-id—The VLAN ID of the MSRP SR traffic. The range is 1–4093.
Default Configuration
By default, VLAN 2 is used to carry SR traffic.
Audio Visual Bridging Commands 1097
Command Mode
Interface Configuration, Interface range
User Guidelines
The VLAN must be configured on the interface is order to carry traffic. The
interface must be configured to carry tagged traffic (i.e., trunk mode).
MSRP must also be enabled globally in order to become operational.
Command History
Introduced in version 6.2.0.1 firmware.
Example
This example configure MSRP traffic on interface Gi1/0/2 for VLAN 12
console(config)#interface gi1/0/2
console(config-if-Gi1/0/2)#msrp
console(config-if-Gi1/0/2)#msrp srclass-pvid 12
msrp srclassqav
Use this command to configure the IEEE Qav class priority map. Use the no
form of the command set the class configuration to the default.
Syntax
msrp srclassqav class [a | b] [pcp | remap] 0-7
no msrp srclassqav class [ a | b ]
•class a | b—Specifies the class to be configured. Dell EMC Networking
switches support class A and class B priorities.
• pcp—Specifies the priority of the selected MSRP traffic class. The range is
0–7. This is the value received in the Ethernet frame for trusted ports or
assigned by the system as a default.
• remap—Specifies the priority of the non-AVB traffic with AVB traffic class
PCP. The range is 0–7. This is the priority to which traffic is remapped.
Default Configuration
The defaults for the traffic classes are:
Audio Visual Bridging Commands 1098
• Class A : pcp = 3, remap = 1
• Class B : pcp = 2, remap = 1
Command Mode
Global Configuration
User Guidelines
The IEEE802.1 Qav standard supports time-sensitive traffic streams by
pacing all switch traffic, including legacy asynchronous Ethernet traffic,
through queuing and forwarding. Dell EMC Networking switches support
two stream reservation (SR) classes (A and B). Received traffic using a code
point identified as belonging to class A or B are placed on a queue that uses a
credit based shaper on egress. IEEE 802.1Qav does not specify any form of
ingress metering or policing.
When an IEEE 802.1Qav talker registers a stream, it identifies whether the
stream is class A or B and specifies the bandwidth required. Class A traffic has
a higher transmission priority than class B traffic. The bandwidth that may be
reserved is limited to 75% of the total bandwidth.
The priorities received in a frame are mapped onto traffic classes for trusted
ports. See the output of the show classofservice dot1pmapping command for
the mappings.
Command History
Introduced in version 6.2.0.1 firmware.
Example
This example maps class A traffic onto user priority 4.
console(config)#msrp srclassqav class a pcp 4
console(config)#show msrp summary
MSRP Global Admin Mode......................... Enabled
MSRP Talker Pruning............................ Disabled
MSRP Maximum Fan-in Ports...................... 12
MSRP Boundary Propagation...................... Disabled
QAV class A priority........................... 4
QAV class A remap priority..................... 1
QAV class B priority........................... 2
QAV class B remap priority..................... 1
Audio Visual Bridging Commands 1099
This example maps class B traffic onto user priority 3.
console(config)#msrp srclassqav class b pcp 3
console(config)#show msrp summary
MSRP Global Admin Mode......................... Enabled
MSRP Talker Pruning............................ Disabled
MSRP Maximum Fan-in Ports...................... 12
MSRP Boundary Propagation...................... Disabled
QAV class A priority........................... 4
QAV class A remap priority..................... 1
QAV class B priority........................... 3
QAV class B remap priority..................... 1
msrp talker-pruning
Use this command to enable source pruning. Use the no form of the
command to disable source pruning.
Syntax
msrp talker-pruning
no msrp talker-pruning
Default Configuration
By default, talkers are not pruned.
Command Mode
Global Configuration
User Guidelines
Source pruning allows service users (such as a bridge) that are sources of
frames destined for a number of groups, such as server stations or routers, to
avoid unnecessary flooding of traffic on their local LANs in circumstances
where there are no current group members in the network that wish to receive
such traffic.
Talker pruning can only be configured if MSRP is globally disabled.
Audio Visual Bridging Commands 1100
Command History
Introduced in version 6.2.0.1 firmware.
Example
This example administratively enables MSRP source pruning.
console(config)#no msrp global
console(config)#msrp talker-pruning
console(config)#msrp global
console(config)#show msrp summary
MSRP Global Admin Mode......................... Enabled
MSRP Talker Pruning............................ Enabled
MSRP Maximum Fan-in Ports...................... 12
MSRP Boundary Propagation...................... Enabled
QAV class A priority........................... 4
QAV class A remap priority..................... 1
QAV class B priority........................... 3
QAV class B remap priority..................... 1
show msrp
Use this command to display the MSRP configuration for an interface or
globally.
Syntax
show msrp [ summary | interface [ interface-id | summary ] ]
•summary—Show global MSRP configuration information.
• interface-id—Show the MSRP configuration for the specified interface.
The interface id must be a physical interface identifier.
•interface summary—Show the per interface MSRP configuration for all
interfaces
Default Configuration
This command has no defaults.
Command Mode
Privileged Exec mode, Global Configuration mode and all sub-modes.
Audio Visual Bridging Commands 1101
User Guidelines
The following fields are displayed for the summary command.
The following fields are displayed for the interface command.
Field Description
MSRP Global Admin Mode If MSRP global admin mode is enabled or disabled.
MSRP Talker Pruning If MSRP talker pruning is enabled or disabled.
MSRP Maximum Fan-in
Ports
The configured MSRP maximum fan-in ports value.
MSRP Boundary
Propagation
If MSRP boundary propagation is enabled or disabled.
QAV class A priority The class A priority for traffic class mapping.
QAV class A remap priority The class A remap priority for traffic class mapping.
QAV class B priority The class B priority for traffic class mapping.
QAV class B remap priority The class B remap priority for traffic class mapping.
Field Description
MSRP Interface Admin
Mode
If MSRP admin mode is enabled or disabled on the
interface.
SRclass PVID The MSRP VLAN ID configured for the SR traffic class
on the interface.
MSRP class A Boundary
port status
The status of the MSRP class A boundary port.
MSRP class B Boundary
port status
The status of the MSRP class B boundary port.
MSRP QAV class A delta
bandwidth
The MSRP delta bandwidth for SR traffic class A.
MSRP QAV class B delta
bandwidth
The MSRP delta bandwidth for SR traffic class B.
MSRP QAV class A
bandwidth (allocated/total)
The allocated and total bandwidth allocated to MSRP
QAV class A.
Audio Visual Bridging Commands 1102
The following fields are displayed for the interface summary command.
Command History
Introduced in version 6.2.0.1 firmware.
Example
console#show msrp summary
MSRP Global Admin Mode......................... Enabled
MSRP Talker Pruning............................ Disabled
MSRP Maximum Fan-in Ports...................... 12
MSRP Boundary Propagation...................... Disabled
QAV class A priority........................... 3
QAV class A remap priority..................... 1
QAV class B priority........................... 2
MSRP QAV class B
bandwidth (allocated/total)
The allocated and total bandwidth allocated to MSRP
QAV class B.
MSRP total bandwidth The allocated and total bandwidth allocated to MSRP.
QAV class A priority The class A priority for traffic class mapping.
QAV class A remap priority The class A remap priority for traffic class mapping.
QAV class B priority The class B priority for traffic class mapping.
QAV class B remap priority The class B remap priority for traffic class mapping.
Field Description
Intf The interface for which information is displayed.
Mode The current mode of the interface (enabled/disabled).
SrPVID The MSRP VLAN ID for the SR traffic class on the
interface.
A-Prio The class A priority for the interface.
A-Remap The remap class A priority for the interface.
B-Prio The class B priority for the interface.
B-Remap The remap class B priority for the interface.
Boundary (A/B) If boundary propagation is enabled for class A and class
B.
Audio Visual Bridging Commands 1103
QAV class B remap priority..................... 1
console#show msrp interface Gi1/0/12
MSRP Interface Admin Mode...................... Enabled
SRclassPVID.................................... 2
MSRP class A Boundary port status.............. True
MSRP class B Boundary port status.............. True
MSRP QAV class A delta bandwidth............... 75
MSRP QAV class A delta bandwidth............... 0
MSRP class A bandwidth (allocated/total)....... 0 / 0
MSRP class B bandwidth (allocated/total)....... 0 / 0
MSRP total bandwidth (allocated/total)......... 0 / 0
QAV class A priority........................... 3
QAV class A remap priority..................... 1
QAV class B priority........................... 2
QAV class B remap priority..................... 1
console#show msrp interface summary
Intf Mode SrPVID A-Prio A-Remap B-Prio B-Remap Boundary(A/B)
--------- --------- ------ ------ ------- ------ ------- -------------
Gi1/0/1 Enabled 2 3 1 2 1 True / True
Gi1/0/2 Enabled 2 3 1 2 1 True / True
Gi1/0/3 Enabled 2 3 1 2 1 True / True
Gi1/0/4 Enabled 2 3 1 2 1 True / True
Gi1/0/5 Enabled 2 3 1 2 1 True / True
Gi1/0/6 Enabled 2 3 1 2 1 True / True
show msrp reservations
Use this command to display the MSRP reservation information for an
interface.
Syntax
show msrp reservations [interface-id] [detail | summary ]
• interface-id—An interface identifier (physical).
•detail—Show detailed information on the reservations.
•summary—Show summary information on the reservations.
Default Configuration
This command has no defaults.
Audio Visual Bridging Commands 1104
Command Mode
Privileged Exec mode, Global Configuration mode and all sub-modes.
User Guidelines
Use the clear msrp statistics command to clear the MMRP counters.
The clear counters command also clears all MSRP statistics for all interfaces
in addition to clearing other counters.
Command History
Introduced in version 6.2.0.1 firmware.
Example
console#show msrp reservations gi1/0/10 summary
Stream Stream Talker Listener Fail Information Stream
ID MAC Address Type Type Code Interface Age
------ ---------------- ------ -------- --------------- -----
41543 12:22:e1:65:a3:f8 R.Adv D.Ready 0 0 0
console#show msrp reservations gi1/0/10 detail
Stream Stream Failure Information Acc
ID MAC Address Code Intf MAC Address Latency
------- ----------------- --------------------------- ---------
41543 12:22:e1:65:a3:f8 0 0 00:00:00:00:00:00 647
show msrp statistics
Use this command to display the MSRP statistics for an interface or globally.
Syntax
show msrp statistics { interface-id }
• interface-id—Show the MSRP statistics for the specified interface.
Default Configuration
By default, the global statistics are shown.
Audio Visual Bridging Commands 1105
Command Mode
Privileged Exec mode, Global Configuration mode and all sub-modes.
User Guidelines
The following information is displayed for the summary command.
The following information is displayed for the statistics command.
Field Description
MSRP messages received The number of MSRP messages that have been
received.
MSRP messages received
with bad header
The number of MSRP messages that have been received
with a bad header.
MSRP messages received
with bad format
The number of MSRP messages that have been received
in a bad format.
MSRP messages
transmitted
The number of MSRP messages that have been
transmitted.
MSRP messages failed to
transmit
The number of MSRP messages that failed to transmit.
MSRP messages Queue
Failures
The number of MSRP message queue failures.
Field Description
Port The interface port number.
MSRP messages received The number of MSRP messages that have been
received.
MSRP messages received
with bad header
The number of MSRP messages that have been received
with a bad header.
MSRP messages received
with bad format
The number of MSRP messages that have been received
in a bad format.
MSRP messages
transmitted
The number of MSRP messages that have been
transmitted.
MSRP messages failed to
transmit
The number of MSRP messages that failed to transmit.
Audio Visual Bridging Commands 1106
Command History
Introduced in version 6.2.0.1 firmware.
Example
console# show msrp statistics summary
MSRP messages received......................... 1790
MSRP messages received with bad header......... 0
MSRP messages received with bad format......... 0
MSRP messages transmitted...................... 830
MSRP messages failed to transmit............... 0
MSRP Message Queue Failures.................... 0
console# show msrp statistics gi1/0/10
Port........................................... Gi1/0/10
MSRP messages received......................... 741
MSRP messages received with bad header......... 0
MSRP messages received with bad format......... 0
MSRP messages transmitted...................... 674
MSRP messages failed to transmit............... 0
MSRP failed registrations...................... 0
show msrp stream
Use this command to display MSRP stream information.
Syntax
show msrp stream [ detail | summary ]
•detail—Show detailed information on the streams.
•summary—Show summary information on the streams.
Default Configuration
The command has no defaults.
Command Mode
Privileged Exec mode, Global Configuration mode and all sub-modes.
MSRP failed registrations The number of MSRP failed registrations.
Audio Visual Bridging Commands 1107
User Guidelines
The following information is displayed for the detail command.
The following information is displayed for the summary command.
Command History
Introduced in version 6.2.0.1 firmware.
Example
console#show msrp stream detail
Stream Stream Traff Stream Failure Information Talker
ID MAC Address Class TSpec Code Intf MAC Address Port
------- ----------------- ----- ------- ----------------------- --------
41543 12:22:e1:65:a3:f8 A 128 1 0 0 00:00:00:00:00:00 Gi1/0/10
Field Description
Stream Talker ID The MSRP stream talker ID.
Stream MAC Address The MSRP stream MAC address.
Traff Class The MSRP traffic class.
Stream TSpec The MSRP stream TSpec.
Failure Code The MSRP failure code.
Failure Intf The MSRP interface.
Failure MAC Address The MSRP MAC address.
Port The port interface.
Field Description
Stream Talker ID The MSRP stream talker ID.
Stream MAC Address The MSRP stream MAC address.
Destination MAC Address The destination MAC address.
Acc. Latency The MSRP stream latency.
VLAN ID The VLAN ID.
Stream Rank The MSRP stream rank.
Audio Visual Bridging Commands 1108
console#show msrp stream summary
Stream Stream Destination Acc. VLAN Stream
ID MAC Address MAC Address Latency ID Rank
------- ----------------- ----------------- ------- ---- ---------
41543 12:22:e1:65:a3:f8 01:00:00:80:42:01 647 2 Regular
Audio Visual Bridging Commands 1109
802.1AS Timesync Commands
Dell EMC Networking N4000 Series Switches
This section covers commands related to IEEE 802.1AS timesync. The Dell
EMC Networking 802.1AS capability implements the 2008 PTP Version 2 of
the IEEE 1588 protocol in support of Audio-Visual Bridging. Dell EMC
Networking 802.1AS implements the best master clock algorithm to select a
precise time source and to measure propagation delay accurately. Dell EMC
Networking switches are not Grand Master clock capable. A Grand Master
clock time source must be supplied for a precise measurement of propagation
delay.
Commands in this Section
This section explains the following commands:
clear dot1as statistics
Use this command to clear the IEEE 802.1AS statistics for an interface or all
interfaces.
Syntax
clear dot1as statistics [ interface-id | all ]
•All—Clear
802.1
AS statistics for all interfaces.
• interface-id—Clear
802.1
AS statistics for the specified interface.
clear dot1as statistics dot1as timeout announce
dot1as (Global Configuration) dot1as timeout sync
dot1as (Interface Configuration) dot1as pdelay-threshold
dot1as priority dot1as interval pdelay-loss
dot1as interval announce show dot1as
dot1as interval sync show dot1as statistics
dot1as interval pdelay
–
Audio Visual Bridging Commands 1110
Default Configuration
This command has no defaults.
Command Mode
Privileged Exec.
User Guidelines
The clear counters command also clears all IEEE 802.1AS statistics for all
interfaces in addition to clearing other counters.
Command History
Introduced in version 6.2.0.1 firmware.
Example
This example clears the 802.1AS counters on port channel 1
console#clear dot1as statistics po1
dot1as (Global Configuration)
Use this command to globally enable IEEE 802.1AS. Use the no form of the
command to globally disable IEEE 802.1AS.
Syntax
dot1as
no dot1as
Default Configuration
By default, IEEE 802.1AS is disabled globally and on all interfaces.
Command Mode
Global Configuration
Audio Visual Bridging Commands 1111
User Guidelines
IEEE 802.1AS propagates time information from master clocks and
synchronizes internally with the clock in support of delivering streams to the
destination device with the same relative timing as sampled at the source.
All IEEE 802.1AS interfaces must reside on the same stack member.
Propagation of timing information across a stack is not supported.
IEEE 802.1AS must also be enabled on individual interfaces to become
operational.
This command is only available on the N4000 Series switches.
Command History
Introduced in version 6.2.0.1 firmware.
Example
console(config)#dot1as
dot1as (Interface Configuration)
Use this command to enable IEEE 802.1AS on an interface. Use the no form
of the command to disable IEEE 802.1AS on an interface.
Syntax
dot1as
no dot1as
Default Configuration
By default, IEEE 802.1AS is disabled globally and on all interfaces.
Command Mode
Interface Configuration
User Guidelines
IEEE 802.1AS propagates time information from master clocks and
synchronizes with the internal clock in support of delivering streams to the
destination device with the same relative timing as sampled at the source.
Audio Visual Bridging Commands 1112
All IEEE 802.1AS interfaces must reside on the same stack member.
Propagation of timing information across a stack is not supported.
IEEE 802.1AS must also be enabled globally as well as on an interface to
become operational.
Command History
Introduced in version 6.2.0.1 firmware.
Example
console(config)#interface gi1/0/1
console(config-if-Gi1/0/1)#dot1as
dot1as priority
Use this command to globally configure the priority 1 or priority 2 value. Use
the no form of the command to return the priority value to the default.
Syntax
dot1as priority [ 1 | 2 ] [ priority-value]
no dot1as priority [ 1 | 2 ]
•
priority [ 1 | 2 ]
— Selects the priority value to configure. Priority 1 and 2
are used in the selection of the grand master clock.
Default Configuration
By default, priority 1 is 246 and priority 2 is 248.
Command Mode
Global Configuration
User Guidelines
The best master clock algorithm considers the priority1 attribute before any
other attributes; therefore, the priority1 attribute can be used to force a
desired ordering of time-aware end stations with respect to best master clock
selection.
IEEE 802.1AS must also be enabled globally as well as on an interface to
become operational.
Audio Visual Bridging Commands 1113
IEEE 802.1AS propagates time information from master clocks and
synchronizes internally with the clock in support of delivering streams to the
destination device with the same relative timing as sampled at the source.
While disabled, IEEE 802.1AS configuration is retained and can be changed,
but is not operationally active.
Command History
Introduced in version 6.2.0.1 firmware.
Example
This example configures a switch as grand master capable.
console(config)#dot1as priority 1 255
console(config)#show dot1as summary
802.1AS Global Admin Mode...................... Enabled
Grandmaster Capable............................ Yes
Best Clock Identity............................ 00:1E:C9:FF:FE:DE:B1:37
Best Clock Priority1........................... 255
Best Clock Priority2........................... 248
Steps to Best Clock............................ 0
Local Clock Identity........................... 00:1E:C9:FF:FE:DE:B1:37
Local Clock Priority1.......................... 255
Local Clock Priority2.......................... 248
Grandmaster Change Count....................... 0
Last Grandmaster Change Timestamp.............. 0
dot1as interval announce
Use this command to configure the initial log announcement interval for an
interface. Use the no form of the command to return the announcement
interval to the default.
Syntax
dot1as interval announce int-val
no dot1as interval announce
• int-val—The initial log announcement interval in log base 2 format. The
range is –5 to 5.
Audio Visual Bridging Commands 1114
Default Configuration
By default, the announcement interval is 0.
Command Mode
Interface Configuration
User Guidelines
The initial log announcement interval is used to initialize the value of
announce interval; it is the mean time interval between transmission of
successive ANNOUNCE messages. The ANNOUNCE interval may be
modified by the operation of the protocol (i.e., it is set to the initial value
when the port is initialized and when a signaling message is received with a
field announce interval set to 126). It may also be modified if the port
receives a signaling message that carries a message interval request TLV.
IEEE 802.1AS must also be enabled globally as well as on an interface to
become operational.
IEEE 802.1AS propagates time information from master clocks and
synchronizes internally with the clock in support of delivering streams to the
destination device with the same relative timing as sampled at the source.
While disabled, IEEE 802.1AS configuration is retained and can be changed,
but is not operationally active.
Refer to IEEE Std. 802.1AS-2011 and IEEE Std. 1588-2008 for further
information on the initialLogAnnounceInterval attribute.
Command History
Introduced in version 6.2.0.1 firmware.
Example
This example configures the switch with an initial log announcement interval
of 3.
console(config-if-Gi1/0/1)#dot1as interval announce 3
console(config-if-Gi1/0/1)#show dot1as interface gi1/0/1
802.1AS Interface Admin Mode................... Enabled
802.1AS Capable................................ No
Is Measuring Delay............................. No
Audio Visual Bridging Commands 1115
Propagation Delay.............................. 0
Port Role...................................... Disabled
PDELAY Threshold............................... 2500
PDELAY lost responses allowed.................. 3
Neighbor Rate Ratio............................ 0
Initial Sync Interval.......................... -3
Current Sync Interval.......................... -3
Initial Pdelay Interval........................ 0
Current Pdelay Interval........................ 0
Initial Announce Interval...................... 3
Current Announce Interval...................... 0
Sync Receipt Timeout........................... 3
Announce Receipt Timeout....................... 3
dot1as interval sync
Use this command to configure the sync interval for an interface. Use the no
form of the command to return the sync interval to the default.
Syntax
dot1as interval sync int-val
no dot1as interval sync
• int-val— The time sync interval in log base 2 format. The range is –5 to 5.
Default Configuration
By default, the initial sync interval is –3.
Command Mode
Interface Configuration
User Guidelines
This value is the logarithm to the base 2 of the desired mean time interval
between successive time-synchronization event messages sent by the link
peer.
IEEE 802.1AS must also be enabled globally as well as on an interface to
become operational.
Audio Visual Bridging Commands 1116
Command History
Introduced in version 6.2.0.1 firmware.
Example
This example configures the switch with an initial log sync interval of 3.
console(config-if-Gi1/0/1)#dot1as interval sync 3
console(config-if-Gi1/0/1)#show dot1as interface gi1/0/1
AS Interface Admin Mode................... Enabled
AS Capable................................ No
Is Measuring Delay............................. No
Propagation Delay.............................. 0
Port Role...................................... Disabled
PDELAY Threshold............................... 2500
PDELAY lost responses allowed.................. 3
Neighbor Rate Ratio............................ 0
Initial Sync Interval.......................... 3
Current Sync Interval.......................... -3
Initial Pdelay Interval........................ 0
Current Pdelay Interval........................ 0
Initial Announce Interval...................... 3
Current Announce Interval...................... 0
Sync Receipt Timeout........................... 3
Announce Receipt Timeout....................... 3
dot1as interval pdelay
Use this command to configure the pdelay interval for an interface. Use the
no form of the command to return the pdelay interval to the default.
Syntax
dot1as interval pdelay int-val
no dot1as interval pdelay
• int-val—The initial pdelay interval in log base 2 format. The range is –5 to
5.
Default Configuration
By default, the pdelay interval is 0.
Audio Visual Bridging Commands 1117
Command Mode
Interface Configuration
User Guidelines
This value is the logarithm to the base 2 of the desired mean time interval
between successive Pdelay_req messages sent by the link peer.
IEEE 802.1AS must also be enabled globally as well as on an interface to
become operational.
Command History
Introduced in version 6.2.0.1 firmware.
Example
This example configures the switch with an initial log sync interval of 3.
console(config-if-Gi1/0/1)#dot1as interval pdelay 3
console(config-if-Gi1/0/1)#show dot1as interface gi1/0/1
AS Interface Admin Mode................... Enabled
AS Capable................................ No
Is Measuring Delay............................. No
Propagation Delay.............................. 0
Port Role...................................... Disabled
PDELAY Threshold............................... 2500
PDELAY lost responses allowed.................. 3
Neighbor Rate Ratio............................ 0
Initial Sync Interval.......................... 3
Current Sync Interval.......................... -3
Initial Pdelay Interval........................ 3
Current Pdelay Interval........................ 0
Initial Announce Interval...................... 3
Current Announce Interval...................... 0
Sync Receipt Timeout........................... 3
Announce Receipt Timeout....................... 3
dot1as timeout announce
Use this command to configure the number of announce intervals expiries
with no received announce message in which case the master is considered to
be no longer transmitting. Use the no form of the command to return the
announce expiries to the default.
Audio Visual Bridging Commands 1118
Syntax
dot1as timeout announce expiries
no dot1as timeout announce
• expiries—The number of
expiries
with no received announce message on
which the master is considered to be no longer transmitting. The range is
2–255.
Default Configuration
By default, the number of expiries is set to 3.
Command Mode
Interface Configuration
User Guidelines
IEEE 802.1AS must also be enabled globally as well as on an interface to
become operational.
Command History
Introduced in version 6.2.0.1 firmware.
Example
This example configures interface Gi1/0/4 to delay expiring the master clock,
if found, for up to 5 announce intervals.
console(config-if-Gi1/0/4)#dot1as timeout announce 5
console(config-if-Gi1/0/4)#show dot1as interface gi1/0/4
AS Interface Admin Mode................... Enabled
AS Capable................................ No
Is Measuring Delay............................. No
Propagation Delay.............................. 0
Port Role...................................... Disabled
PDELAY Threshold............................... 2500
PDELAY lost responses allowed.................. 3
Neighbor Rate Ratio............................ 0
Initial Sync Interval.......................... -3
Current Sync Interval.......................... -3
Initial Pdelay Interval........................ 3
Current Pdelay Interval........................ 0
Audio Visual Bridging Commands 1119
Initial Announce Interval...................... 0
Current Announce Interval...................... 0
Sync Receipt Timeout........................... 3
Announce Receipt Timeout....................... 5
dot1as timeout sync
Use this command to configure the number of sync intervals expiries with no
received announce message in which case the master is considered to be no
longer transmitting. Use the no form of the command to return the sync-
expiries to the default.
Syntax
dot1as timeout sync expiries
no dot1as timeout announce
Default Configuration
By default, the number of expiries is set to 3.
Command Mode
Interface Configuration
User Guidelines
IEEE 802.1AS must also be enabled globally as well as on an interface to
become operational.
Command History
Introduced in version 6.2.0.1 firmware.
Example
This example configures interface Gi1/0/4 to delay expiring the master clock,
if found, for up to 5 sync intervals.
console(config-if-Gi1/0/4)#dot1as timeout sync 5
console(config-if-Gi1/0/4)#show dot1as interface gi1/0/4
AS Interface Admin Mode................... Enabled
AS Capable................................ No
Audio Visual Bridging Commands 1120
Is Measuring Delay............................. No
Propagation Delay.............................. 0
Port Role...................................... Disabled
PDELAY Threshold............................... 2500
PDELAY lost responses allowed.................. 3
Neighbor Rate Ratio............................ 0
Initial Sync Interval.......................... -3
Current Sync Interval.......................... -3
Initial Pdelay Interval........................ 3
Current Pdelay Interval........................ 0
Initial Announce Interval...................... 3
Current Announce Interval...................... 0
Sync Receipt Timeout........................... 5
Announce Receipt Timeout....................... 3
dot1as pdelay-threshold
Use this command to configure the propagation delay threshold in
nanoseconds, above which an interface is not considered capable of
participating in the AS protocol.
Use the no form of the command to return the threshold to the default.
Syntax
dot1as pdelay-threshold thresh-val
no dot1as pdelay-threshold
Default Configuration
By default, the number of expiries is set to 2500 nanoseconds for copper
interfaces and 8000 nanoseconds for fiber thresholds.
Command Mode
Interface Configuration
User Guidelines
IEEE 802.1AS must also be enabled globally as well as on an interface to
become operational.
Audio Visual Bridging Commands 1121
Command History
Introduced in version 6.2.0.1 firmware.
Example
This example configures interface Gi1/0/4 to delay retiring the interface for
10 ms.
console(config-if-Gi1/0/4)#dot1as pdelay-threshold 10000
console(config-if-Gi1/0/4)#show dot1as interface gi1/0/4
AS Interface Admin Mode................... Enabled
AS Capable................................ No
Is Measuring Delay............................. No
Propagation Delay.............................. 0
Port Role...................................... Disabled
PDELAY Threshold............................... 10000
PDELAY lost responses allowed.................. 3
Neighbor Rate Ratio............................ 0
Initial Sync Interval.......................... -3
Current Sync Interval.......................... -3
Initial Pdelay Interval........................ 3
Current Pdelay Interval........................ 0
Initial Announce Interval...................... 3
Current Announce Interval...................... 0
Sync Receipt Timeout........................... 5
Announce Receipt Timeout....................... 3
dot1as interval pdelay-loss
Use this command to configure the number of Pdelay_Req messages for
which a valid response has not been received, above which a port is considered
to not be exchanging peer delay messages with its neighbor. Use the no form
of the command to return the interval to the default.
Syntax
dot1as interval pdelay-loss expiries
no dot1as interval pdelay-loss
• expiries—The number of expiries with no received Pdelay_Resp message
after which the port is no longer considered to be exchanging messages
with the peer. The range is 0–65535.
Audio Visual Bridging Commands 1122
Default Configuration
By default, the number of expiries is set to three responses. If three
Pdelay_Resp messages are received within that time, the port is considered to
be no longer exchanging messages with the peer.
Command Mode
Interface Configuration
User Guidelines
IEEE 802.1AS must also be enabled globally as well as on an interface to
become operational.
Command History
Introduced in version 6.2.0.1 firmware.
Example
This example configures interface Gi1/0/4 to delay retiring the interface for 10
ms.
console(config-if-Gi1/0/4)#dot1as interval pdelay-loss 5
console(config-if-Gi1/0/4)#show dot1as interface gi1/0/4
AS Interface Admin Mode................... Enabled
AS Capable................................ No
Is Measuring Delay............................. No
Propagation Delay.............................. 0
Port Role...................................... Disabled
PDELAY Threshold............................... 10000
PDELAY lost responses allowed.................. 5
Neighbor Rate Ratio............................ 0
Initial Sync Interval.......................... -3
Current Sync Interval.......................... -3
Initial Pdelay Interval........................ 3
Current Pdelay Interval........................ 0
Initial Announce Interval...................... 3
Current Announce Interval...................... 0
Sync Receipt Timeout........................... 5
Announce Receipt Timeout....................... 3
Audio Visual Bridging Commands 1123
show dot1as
Use this command to show the IEEE 802.1AS configuration for an interface
or globally.
Syntax
show dot1as[ summary | interface [ interface-id | summary ] ]
•summary—Show the global IEEE 802.1AS configuration.
• interface-id—Show the IEEE 802.1AS configuration for the specified
interface.
•interface summary—Show the per interface IEEE 802.1AS configuration
for all interfaces.
Default Configuration
The command has no defaults.
Command Mode
Privileged Exec, Global Configuration, and all sub-modes
User Guidelines
The following information is displayed for the summary command.
Field Description
AS Global Admin Mode Configured value of AS global admin mode.
Grandmaster Present Indicates where a AS grandmaster is present or not.
Best Clock Identity Specifies the clock identity of the AS grandmaster.
Best Clock Priority1 Specifies the priority1 value of AS grandmaster.
Best Clock Priority2 Specifies the priority2 value of AS grandmaster.
Steps to Best Clock Specifies the number of hops between the local clock
and the grandmaster.
Local Clock Identity Specifies the clock identity of the local clock.
Local Clock Priority1 Specifies the priority1 value of AS local clock.
Local Clock Priority2 Specifies the priority2 value of local clock.
Audio Visual Bridging Commands 1124
The following information is displayed for the interface command.
Grandmaster Change
Count
Specifies the number of GM change events occurred.
Last Grandmaster Change
Timestamp
Specifies the timestamp of the last GM change event.
Field Description
Intf Slot/port
Mode IEEE 802.1AS interface admin mode (enabled/disabled)
asCapable Indicates if the interface is asCapable.
measuringPdelay Indicates if the interface is measuring PDELAY.
Pdelay Indicates the value of the propagation delay on this
interface.
Role Indicates one of the IEEE 802.1AS port roles
(MASTER, SLAVE, PASSIVE, DISABLED)
Pdelay Threshold Specifies the propagation delay threshold in
nanoseconds, above which an interface is not considered
capable of participating in the AS protocol.
Pdelay lost responses
allowed
Specifies the number of Pdelay_Req messages for which
a valid response is not received, above which a port is
considered to not be exchanging peer delay messages
with its neighbor.
Neighbor Rate Ratio Specifies an estimate of the ratio of the frequency of the
LocalClock entity of the time-aware system at the other
end of the link attached to this port, to the frequency of
the LocalClock entity of this time-aware system.
Initial Pdelay interval Specifies the configured mean time interval between
successive PDELAY_REQ messages sent over a link, in
logarithm to base 2 format.
Initial Announce Interval Specifies the configured mean time interval between
successive ANNOUNCE messages in logarithm to base
2 format.
Audio Visual Bridging Commands 1125
Command History
Introduced in version 6.2.0.1 firmware.
Example
console#show dot1as interface summary
Intf Mode asCapable measuringPdelay Pdelay Role
------- ------- --------- --------------- ------ --------
Gi1/0/1 Enabled No No 0 Disabled
Gi1/0/2 Enabled Yes Yes 811 Master
Gi1/0/3 Enabled No No 0 Disabled
Gi1/0/4 Enabled Yes Yes 806 Master
Gi1/0/5 Enabled No No 0 Disabled
console#show dot1as interface gi1/0/1
AS Interface Admin Mode................... Enabled
AS Capable................................ No
Is Measuring Delay............................. No
Propagation Delay.............................. 0
Initial Sync Interval Specifies the configured mean time interval between
successive SYNC messages, in logarithm to base 2
format
Current Pdelay interval Specifies the current mean time interval between
successive PDELAY_REQ messages sent over a link, in
logarithm to base 2 format.
Current Announce Interval Specifies the current mean time interval between
successive ANNOUNCE messages in logarithm to base
2 format.
Current Sync Interval Specifies the current mean time interval between
successive SYNC messages, in logarithm to base 2
format
Sync Timeout Specifies the number of SYNC intervals that have to
pass without receipt of SYNC information, before
considering that the master is no longer transmitting.
Announce Timeout Specifies the number of ANNOUNCE intervals that
have to pass without receipt of ANNOUNCE PDU,
before considering that the master is no longer
transmitting.
Audio Visual Bridging Commands 1126
Port Role...................................... Disabled
PDELAY Threshold............................... 2500
PDELAY lost responses allowed.................. 3
Neighbor Rate Ratio............................ 0
Initial Sync Interval.......................... -5
Initial Pdelay Interval........................ 3
Initial Announce Interval...................... 5
Current Sync Interval.......................... 0
Current Pdelay Interval........................ 0
Current Announce Interval...................... 0
Sync Receipt Timeout........................... 3
Announce Receipt Timeout....................... 3
console#show dot1as summary
AS Global Admin Mode......... Enabled
Grandmaster Present............... TRUE
Best Clock Identity............... 02:10:18:FF:FE:57:80:10
Best Clock Priority1.............. 127
Best Clock Priority2.............. 255
Steps to Best Clock............... 1
Local Clock Identity.............. 00:10:18:FF:FE:82:11:DB
Local Clock Priority1............. 246
Local Clock Priority2............. 248
Grandmaster Change Count....................... 5
Last Grandmaster Change Timestamp.............. 2819202563
show dot1as statistics
Use this command to show the IEEE 802.1AS statistics for an interface.
Syntax
show dot1as statistics [ interface-id ]
• interface-id—Show statistics for the specified interface.
Default Configuration
This command has no defaults.
Command Mode
Privileged Exec, Global Configuration, and all sub-modes
Audio Visual Bridging Commands 1127
User Guidelines
Use the clear dot1as statistics or the clear counters command to clear the
counters.
Command History
Introduced in version 6.2.0.1 firmware.
Example
#show dot1as statistics gi1/0/3
Port........................................... Gi1/0/3
Sync messages transmitted...................... 0
Sync messages received......................... 0
Followup messages transmitted.................. 0
Followup messages received..................... 0
Announce messages transmitted.................. 0
Announce messages received..................... 0
Pdelay_Req messages transmitted................ 0
Pdelay_Req messages received................... 0
Pdelay_Resp messages transmitted............... 0
Pdelay_Resp messages received.................. 0
Pdelay_Resp_Followup messages transmitted...... 0
Pdelay_Resp_Followup messages received......... 0
Signaling messages transmitted................. 0
Signaling messages received.................... 0
Sync receipt timeouts.......................... 0
Sync messages discarded........................ 0
Announce receipt timeouts...................... 0
Announces messages discarded................... 0
Pdelay receipt timeouts........................ 0
Pdelay messages discards....................... 0
PTP message discards........................... 0
Pdelay allowed lost responses.................. 0
Invalid AS messages received....................0
Audio Visual Bridging Commands 1128
Data Center Technology Commands 1129
6
Data Center Technology Commands
Dell EMC Networking N4000 Series Switches
The data center commands allow network operators to deploy lossless
Ethernet capabilities in support of a converged network with Fibre Channel
and Ethernet data, as specified by the FC-BB-5 working group of ANSI T11.
This capability allows operators to deploy networks at a lower cost while still
maintaining the same SAN network management operations that exists
today.
NOTE: Data Center Technologies such as ETS, DCBX, and PFC are only available on
Dell EMC Networking N4000 series switches.
This section of the document contains the following data center bridging
commands:
Data Center Bridging Commands
OpenFlow Commands
Priority Flow Control Commands
Data Center Technology Commands 1130
Data Center Bridging Commands
Dell EMC Networking N4000 Series Switches
NOTE: Enhanced Transmission Selection commands are only supported on N4000 series
switches. CLI commands and Dell OpenManage Switch Administrator pages are
not available for other switch models.
Data Center Bridging Exchange Protocol
The Data Center Bridging Exchange Protocol (DCBX) is used by DCB
devices to exchange configuration information with directly connected peers.
The protocol is also used to detect misconfiguration of the peer DCB devices
and, optionally, for configuration of peer DCB devices.
DCBX is expected to be deployed in support of lossless operation for FCoE or
iSCSI traffic. In these scenarios, all network elements are DCBX-enabled
(DCBX is enabled end-to-end).
The Dell EMC Networking implementation of the DCBX protocol supports
the propagation of configuration information for the following features:
1
Enhanced Transmission Selection (ETS)
2
Priority-based Flow Control (PFC)
3
Application Priorities
The features listed above use DCBX to send and receive device configuration
and capability information and configuration details to peer DCBX devices.
The PFC and ETS information exchange is discussed in Priority Flow
Control Commands and Enhanced Transmission Selection. Application
Priority information is captured from the configuration source and
propagated to other auto-configuration peers by the DCBX component.
When iSCSI is enabled on an operationally active PFC port, the application
priority information is supplemented with the configured iSCSI priority.
Enhanced Transmission Selection
NOTE: Enhanced Transmission Selection commands are only supported on N4000 series
switches. CLI commands and Dell OpenManage Switch Administrator pages are
not available for other switch models.
Data Center Technology Commands 1131
In a typical switch or router, each physical port supports one or more queues
for transmitting packets on the attached network. Multiple queues per port
are often provided to give preference to certain packets over others based on
user-defined criteria. When a packet is queued for transmission in a port, the
rate at which it is serviced depends on how the queue is configured and
possibly the amount of traffic present in the other queues of the port. If a
delay is necessary, packets get held in the queue until the scheduler
authorizes the queue for transmission. As queues become full, packets have
no place to be held for transmission and get dropped by the device.
The drop precedence of a packet is an indication of whether the packet is
more or less likely to be dropped during times of queue congestion. Often
referred to as packet coloring, a low drop precedence (green) allows the packet
to be transmitted under most circumstances, a higher drop precedence
(yellow) subjects the packet to dropping when bursts become excessive, while
the highest drop precedence (red) discards the packet whenever the queue is
congested. In some hardware implementations, the queue depth can be
managed using tail dropping or a weighted random early discard, or a
weighted random early discard (WRED), technique. These methods often
use customizable threshold parameters that are specified on a per-drop-
precedence basis.
The Dell EMC Networking QoS implementation contains Differentiated
Services (DiffServ) support that allows traffic to be classified into streams and
given certain QOS treatment in accordance with defined per-hop behaviors.
However, the DiffServ feature does not offer direct configuration of the
hardware CoS queue resources.
The CoS Queuing feature offers a new capability for the user to directly
configure certain aspects of device queuing to provide the desired QOS
behavior for different types of network traffic when the complexities of
DiffServ are not required. The priority of a packet arriving at an interface can
be used to steer the packet to the appropriate outbound CoS queue through a
mapping table. CoS queue characteristics such as minimum guaranteed
bandwidth, transmission rate shaping, etc. are now user configurable at the
queue (or port) level.
The CoS queue feature provides a method to configure Traffic Class Groups
(TCGs) to extend the CoS queue management. Multiple CoS queues can be
mapped to a single TCG. Each TCG can have a configured minimum
guaranteed bandwidth allocation and a scheduling algorithm similar to the
Data Center Technology Commands 1132
CoS queue configuration. The TCG scheduling and bandwidth enforcement
occurs after the CoS queue scheduling and bandwidth enforcement is
performed. Therefore all CoS queues mapped to the same TCG share the
scheduling and bandwidth properties of the TCG.
ETS Operations
ETS provides an operational model for priority processing and bandwidth
allocation for the switch in a Data Center Bridging environment. Using
priority-based processing and bandwidth allocations, different Traffic Class
Groups (TCGs) within different types of traffic such as LAN, SAN and
Management can be configured to provide bandwidth allocation or best effort
transmit characteristics.
For ETS to be operational, the following configuration steps need to be
performed:
1
Configure CoS queues to Traffic Class Group mapping for the egress
ports.
2
Configure weight percentage (bandwidth allocation) for each TCG.
3
Enable appropriate scheduling algorithm for each TCG
CoS information is exchanged with peer DCBX devices using ETS TLVs. As
part of the transmitted ETS TLVs, by default, DCBX advertises the following
parameters, and these parameters are populated in the switch hardware on a
per port basis.
1
Mapping between ingress ports 802.1p priority to Traffic Class Group
(TCG).
2
Bandwidth percentage (weight percentage) of each Traffic Class Group.
3
Scheduling algorithm for each Traffic Class Group.
For Dell EMC Networking switches which do not support configuration of
ETS traffic classes in the hardware, the ETS information is propagated from
the configuration source to the other DCBX peers.
The mapping between the ingress port’s 802.1p priority and TCG is not
direct. The mapping depends upon:
• The CoS map defining the CoS queue that a packet is egress forwarded for
the ingress 802.1p priority.
• Traffic Class Group map defining the CoS queue to TCG mapping.
Data Center Technology Commands 1133
The indirect mapping between the 802.1p priorities and the associated Traffic
Class Group mapping is advertised by DCBX as part of ETS TLVs. For this
indirect mapping to be valid, the following parameters need to be configured
in addition to the configuration of the TCGs.
1
Configure 802.1p priority to CoS mapping for the ingress ports.
2
Enable Trust mode on the ingress ports to trust the 802.1p priority present
in the frames.
ETS TLVs use DCBX Asymmetric attribute exchange mechanism to
exchange ETS information between the peers. In this exchange, each peer
device sends its ETS configuration via the “configuration” ETS TLV and
recommended ETS settings for the peer using the “recommend” ETS TLV.
Both the configuration and recommendation ETS TLVs are implemented for
Dell EMC Networking switches.
The peer ETS TLVs are stored in the DCBX database and are accessible using
show commands.
The Application Priority TLV is accepted from auto-upstream devices and
propagated to auto-downstream devices. In addition, if iSCSI CoS is enabled,
an additional entry in the Application Priority TLV is added as discussed in
the iSCSI section.
Data Center Bridging Exchange Protocol Main Objective
The DCBX protocol implementation conforms to the IEEE 802.1Qaz
specification with some exceptions. To be interoperable with legacy industry
implementations of DCBX protocol, a hybrid model is used to support both
the IEEE version of DCBX and legacy DCBX versions. The hybrid version of
the DCBX conforms to all aspects of the legacy standards to the degree
necessary to support interoperability with a wide variety of FCoE capable
switches.
The main objective of DCBX is to perform the following operations:
• Discovery of DCB capability in a peer
DCBX is used to learn about the capabilities of the peer device. It is a
means to determine if the peer device supports a particular feature such as
PFC.
• DCB feature misconfiguration detection
Data Center Technology Commands 1134
DCBX can be used to detect misconfiguration of a feature between the
peers on a link. Misconfiguration detection is feature-specific because
some features may allow asymmetric configuration.
• Peer configuration of DCB features
DCBX can be used by a device to perform configuration of DCB features
in its peer device if the peer device is willing to accept configuration.
Interoperability with IEEE DCBX
The Dell EMC Networking switch automatically detects if a peer is operating
with either of the two CEE DCBX versions or the IEEE standard DCBX
version. This is the default mode. DCBX can also be configured to manually
select one of the legacy versions or IEEE standard mode. In auto-detect
mode, the switch starts operating in IEEE DCBX mode on a port and if it
detects a legacy DCBX device based on the OUI of the organization TLV,
then the switch changes its DCBX mode on that port to support the version
detected. There is no time out mechanism to move back to IEEE mode.
Once the DCBX peer times out, multiple peers are detected, the link is reset
(link down/up) or as commanded by the operator, DCBX resets its operational
mode to IEEE.
The interaction between DCBX component and other components remains
the same irrespective of the operational mode it is executing. For instance,
DCBX component interacts with PFC to get needed information to pack the
TLVs to be sent out on the interface. Based on the operational control mode
of the port, DCBX packs it in the proper frame format.
Port Roles
Each port’s behavior is dependent on the operational mode of that port and
of other ports in the stack. The port mode is a DCBX configuration item that
is passed to the DCBX clients to control the processing of their configuration
information. There are four port roles:
1
Manual
2
Auto-Upstream
3
Auto-Downstream
4
Configuration Source
Data Center Technology Commands 1135
Manual
Ports operating in the Manual role do not have their configuration affected
by peer devices or by internal propagation of configuration. These ports have
their operational mode and TC and bandwidth information specified
explicitly by the operator. These ports will advertise their configuration to
their peer if DCBX is enabled on that port. Incompatible peer configurations
will be logged and counted with an error counter.
The default operating mode for each port is Manual for Dell EMC
Networking releases; however, customer platforms may change the default
mode for selected ports to either Auto-Upstream or Auto-Downstream mode.
An example of this would be a blade switch that needed to support touchless
configuration and has certain ports that are upstream ports and other ports
that are downstream ports. A port that is set to manual mode sets the willing
bit for DCBX client TLVs to false. Manually configured ports never internally
propagate or accept internal or external configuration from other ports.
Manually configured ports may notify the operator of incompatible
configurations if client configuration exchange over DCBX is enabled.
Manually configured ports are always operationally enabled for DCBX clients,
regardless of whether DCBX is enabled.
Auto-Upstream
Advertises a configuration, but is also willing to accept a configuration from
the link-partner and propagate it internally to the auto-downstream ports as
well as receive configuration propagated internally by other auto-upstream
ports. The local operational parameters for PFC and ETS, if any, are
overridden with the negotiated configuration. Specifically, the willing
parameter is enabled on the port and the recommendation TLV is sent to the
peer and processed if received locally. The first auto-upstream port to
successfully accept a compatible configuration becomes the configuration
source. The configuration source propagates its configuration to other auto-
upstream and auto-downstream ports. Only the configuration source may
propagate configuration to other ports internally. Auto-upstream ports that
receive internally propagated information ignore their local configuration and
utilize the internally propagated information.
Peer configurations received on auto-upstream ports other than the
configuration source result in one of two possibilities.
Data Center Technology Commands 1136
1
If the configuration is compatible with the configuration source, then the
DCBX client becomes operationally active on the upstream port.
2
If the configuration is not compatible with the configuration source, then
a message is logged indicating an incompatible configuration, an error
counter is incremented, and the DCBX client is operationally disabled on
the port. The expectation is that the network administrator configures the
upstream devices appropriately so that all such devices advertise a
compatible configuration.
Auto-Downstream
An auto-downstream port advertises a configuration but is not willing to
accept one from the link partner. However, the port will accept a
configuration propagated internally by the configuration source. The local
operational parameters for PFC and ETS, if any, are overridden with the
negotiated configuration.Specifically, the willing parameter is disabled on
auto-downstream ports. By default, auto-downstream ports have the
recommendation TLV parameter enabled. Auto-downstream ports that
receive internally propagated information ignore their local configuration and
utilize the internally propagated operational information.
Configuration Source
In this role, the port has been manually selected to be the configuration
source. Configuration received over this port is propagated to the other auto-
configuration ports, however, no automatic election of a new configuration
source port is allowed. Only one port can be configured as the configuration
source. The local configuration parameters for PFC and ETS, if any, are
overridden with the received configuration. Events that cause selection of a
new configuration source are ignored. The configuration received over the
configuration source port is maintained until cleared by the operator (set the
port to the manual role). FIP snooping must be enabled to set a port to
configuration source. For interfaces configured in a port-channel for which it
is desirable to receive configuration information, it is strongly recommended
that the auto-up setting be used on the physical interfaces in the port channel
in preference to the configuration source parameter.
Data Center Technology Commands 1137
Configuration Source Port Selection Process
When an auto-upstream or auto-downstream port receives a configuration
from a peer, the DCBX client first checks if there is an active configuration
source. If there is a configuration source already selected, the received
configuration is checked against the local port operational values as received
from the configuration source, and if compatible, the client marks the port as
operationally enabled. If the configuration received from the peer is
determined to not be compatible, a message is logged, an error counter is
incremented and the DCBX clients become operationally disabled on the
port. The port continues to keep link up and exchanges DCBX packets. If a
compatible configuration is later received, the DCBX clients will become
operationally enabled.
If there is no configuration source, a port may elect itself as the configuration
source on a first-come, first-serve basis from the set of eligible ports. A port is
eligible to become the configuration source if:
• No other port is the configuration source.
• The port role is auto-upstream.
• The port is enabled with link up and DCBX enabled.
• The port has negotiated a DCBX relationship with the partner.
• The switch is capable of supporting the received configuration values,
either directly or by translating the values into an equivalent configuration
N.B. Whether or not the peer configuration is compatible with the
configured values is NOT considered.
The newly elected configuration source propagates DCBX client information
to the other ports and is internally marked as being the port over which
configuration has been received. Configuration changes received from the
peer over the configuration source port are propagated to the other auto-
configuration ports. Ports receiving auto-configuration information from the
configuration source ignore their current settings and utilize the
configuration source information.
When a configuration source is selected, local ETS and PFC configuration
for all auto-up, auto-down and config-source ports is overridden by the
configuration received from the configuration source.
Data Center Technology Commands 1138
In order to reduce flapping of configuration information, if the configuration
source port is disabled, disconnected or loses LLDP connectivity, the system
clears the selection of configuration source port (if not manually selected)
and enables the willing bit on all auto-upstream ports. The configuration on
the auto-configuration ports is not cleared (configuration holdover). If the
user wishes to clear the configuration on the system in this scenario, the user
can put the configuration source port into manual mode.
When a new port is selected as configuration source, it is marked as the
configuration source, the DCBX configuration is refreshed on all auto-
configuration ports and each port may begin configuration negotiation with
their peer again (if any information has changed).
Commands in this Section
This section explains the following commands:
Data Center Bridging Capability Exchange
Commands
datacenter-bridging
Use the datacenter-bridging command for an Ethernet interface in order to
enter the DataCenterBridging mode. Priority-Flow-Control is configurable
from within the DataCenterBridging mode.
Data Center Bridging Capability Exchange Commands
datacenter-bridging lldp dcbx port-role
lldp dcbx version show lldp tlv-select
lldp tlv-select dcbxp (dcb enable) show lldp dcbx
Enhanced Transmission Selection Commands
classofservice traffic-class-group traffic-class-group weight
traffic-class-group max-bandwidth show classofservice traffic-class-group
traffic-class-group min-bandwidth show interfaces traffic
traffic-class-group strict show interfaces traffic-class-group
Data Center Technology Commands 1139
Syntax
datacenter-bridging
Default Configuration
This command has no default configuration.
Command Mode
Interface Configuration (Ethernet) mode
User Guidelines
NOTE: This command is only available on N40xx series switches.
Datacenter bridging mode is only available on physical interfaces, not on
port-channel interfaces. To ensure proper operation, users must configure all
physical interfaces in a port channel to have the same data-center bridging
configuration.
Example
console#config
console(config)#interface range ethernet all
console(config-if)#datacenter-bridging
console(config-if-dcb)#priority-flow-control mode on
console(config-if-dcb)#priority-flow-control priority 1 no-drop
lldp dcbx version
Use the lldp dcbx version command in Global Configuration mode to
configure the administrative version for the Data Center Bridging Capability
Exchange (DCBX) protocol. This command enables the switch to support a
specific version of the DCBX protocol or to detect the peer version and match
it. DCBX can be configured to operate in IEEE mode or CEE mode or CIN
mode. In auto mode, version detection is based on the peer device DCBX
version. The switch operates in either IEEE or one of the legacy modes on
each interface.
NOTE: CIN is Cisco Intel Nuova DCBX (version 1.0). CEE is converged enhanced
ethernet DCBX (version 1.06).
Use the no form of the command to reset the dcbx version to the default
value of auto.
Data Center Technology Commands 1140
Syntax
lldp dcbx version {auto | cin | cee | ieee}
no lldp dcbx version
•auto—Automatically select the version based on the peer response.
•CIN—Force the mode to Cisco-Intel-Nuova. (DCBX 1.0)
•CEE—Force the mode to CEE (DCBX 1.06)
•IEEE—Force the mode to IEEE 802.1Qaz
Default Configuration
The default version is auto.
Command Mode
Global Config
User Guidelines
NOTE: This command is only available on N40xx series switches.
In auto mode, the switch will attempt to jump start the exchange by sending
an IEEE frame, followed by a CEE frame followed by a CIN frame. The
switch will parse the received response and immediately switch to the peer
version. Because LLDP is a link local protocol, it cannot be configured on a
port channel or VLAN interface. It is recommended that all ports configured
in a port channel utilize the same LLDP configuration.
Example
The following example configures the switch to use CEE DCBX.
s1(config)#lldp dcbx version cee
lldp tlv-select dcbxp (dcb enable)
Use the lldp tlv-select dcbxp command in Global Configuration or Interface
Configuration mode to enable the LLDP to send DCBX TLVs if LLDP is
enabled to transmit on the given interface. If no parameter is given, all DCBX
TLVs are enabled for transmission. The default is all DCBX TLVs are enabled
Data Center Technology Commands 1141
for transmission. If executed in Interface mode, the interface configuration
overrides the global configuration for that interface. Entering the command
with no parameters enables transmission of all TLVs.
Use the no form of the command to return the configuration to the default
settings.
Syntax
lldp tlv-select dcbxp [ets-config|ets-recommend|pfc|application-
priority|congestion-notification] [dcb enable]
no lldp tlv-select dcbxp [ets-config|ets-recommend|pfc|application-
priority|congestion-notification] [dcb enable]
•Ets-config—Transmit the ETS configuration TLV.
•Ets-recommend—Transmit the ETS recommendation TLV.
•Pfc—Transmit the PFC configuration TLV.
•Application-priority—Transmit the application priority TLV.
•Congestion-notification—Transmit the congestion notification TLV.
Default Configuration
The default value is to transmit all DCBX TLVs as received from the auto-
configuration configuration source port. In manual mode, the default is to
transmit all DCBX TLVs per the switch (global or interface) configuration.
Command Mode
Global Config, Interface Config
User Guidelines
NOTE: This command is only available on N40xx series switches.
Global configuration and interface configuration are separate. Interface
configuration overrides the global configuration on a configured interface.
Example
The following example configures the port to not transmit any DCBX TLVs.
console(interface-config-te1/0/1)#no lldp tlv-select dcbxp
Data Center Technology Commands 1142
The following example globally configures all ports to not transmit any DCBX
TLVs.
console(config)#no dcb enable
lldp dcbx port-role
Use the lldp dcbx port-role command in Interface Configuration mode to
configure the port role to manual, auto-upstream, auto-downstream and
configuration source. The default port role is manual.
Syntax
lldp dcbx port-role {auto-up |auto-down | manual | configuration-source}
•Manual—Ports operating in the ‘Manual’ role do not have their
configuration affected by peer devices or by internal propagation of
configuration. These ports will advertise their configuration to their peer if
DCBX is enabled on that port. The willing bit is set to disabled on manual
role ports.
•Auto-up—Advertises a configuration, but is also willing to accept a
configuration from the link-partner and propagate it internally to the auto-
downstream ports as well as receive configuration propagated internally by
other auto-upstream ports. These ports have the willing bit enabled. These
ports should be connected to FCFs.
•Auto-down—Advertises a configuration but is not willing to accept one
from the link partner. However, the port will accept a configuration
propagated internally by the configuration source. These ports have the
willing bit set to disabled. Selection of a port based upon compatibility of
the received configuration is suppressed. These ports should be connected
to a trusted FCF.
•Configuration Source—In this role, the port has been manually selected
to be the configuration source. Configuration received over this port is
used to configure the switch and is propagated to the other auto-
configuration ports. Selection of a port based upon compatibility of the
received configuration is suppressed. These ports should be connected to a
trusted FCF. These ports have the willing bit enabled.
Data Center Technology Commands 1143
Default Configuration
The default port role is manual.
Command Mode
Interface Config
User Guidelines
NOTE: This command is only available on N40xx series switches.
In order to reduce configuration flapping, ports that obtain configuration
information from a configuration source port will maintain that configuration
for 2x the LLDP time out, even if the configuration source port becomes
operationally disabled.
Examples
This example configures an FCF facing port:
console(config-if-Te1/1/1)#lldp dcbx port-role auto-up
This example configures an FCoE host facing port:
console(config-if-Te1/1/1)#lldp dcbx port-role auto-down
show lldp tlv-select
Use the lldp tlv-select command to display the Traffic Class to Traffic Class
Group mapping.
Syntax
show lldp tlv-select interface [all|interface-id]
• interface-id—A valid physical interface specifier
•all—All interfaces
Default Configuration
The default is to show the per interface TLV configuration.
Command Mode
Privileged Exec
Data Center Technology Commands 1144
User Guidelines
NOTE: This command is only available on N40xx series switches.
This command has no user guidelines.
Examples
console# show lldp tlv-select interface te1/0/1
Interface ETS Config ETS Recommend PFC App Priority QCN
------------ ---------- ------------- --- ------------ ---
te1/0/1 Yes No Yes No Yes
console# show lldp tlv-select interface all
Interface ETS Config ETS Recommend PFC App Priority QCN
----------- ---------- ------------- --- ------------ ---
te1/0/1 Yes No Yes No Yes
te1/0/2 No No Yes No Yes
show lldp dcbx
Use the show lldp dcbx command to display the Traffic Class to Traffic Class
Group mapping.
Syntax
show lldp dcbx [interface [all|interface-id detail|status]]
•
interface-id
—A valid physical interface specifier.
•all—All interfaces.
•detail—Display detailed DCBX information.
•status—Display a status summary.
Default Configuration
This command has no default setting.
Command Mode
Privileged Exec
User Guidelines
NOTE: This command is only available on N40xx series switches.
Data Center Technology Commands 1145
This command has no user guidelines.
Example #1
DCBX Status:
console# show lldp dcbx interface all status
Config DCBX DCBX Frame TLV
Interface Status Role Version Rx Tx Errors Dscrd Dscrd
---------- ------- -------- -------- ------ ------ ------ ------ -----
te1/0/1 Enabled Auto-up CEE 1.06 Yes 32 37 0 0
te1/0/2 Enabled Auto-up IEEE 32 37 0 0
te2/0/1 Enabled Auto-dn CIN 1.0 32 37 0 0
te2/0/2 Enabled Auto-dn IEEE 32 37 0 0
te3/0/1 Enabled Auto-dn CIN 1.0 32 37 0 0
te3/0/2 Disabled Manual IEEE 0 0 0 0
Example #2
DCBX not enabled:
console# show lldp dcbx interface te1/0/1
Interface te1/0/1
DCBX Admin Status: Disabled
Configured DCBX Version: Auto-detect
Peer DCBX Version:
Peer MAC:
Peer Description:
Auto-configuration Port Role: Manual
Peer Is Configuration Source: False
Error Counters:
ETS Incompatible Configuration: 0
PFC Incompatible Configuration: 0
Disappearing Neighbor: 0
Multiple Neighbors Detected: 0
Example #3
DCBX enabled – legacy device (CIN/CEE):
console# show lldp dcbx interface te1/0/1
Interface te1/0/1
DCBX Admin Status: Enabled
Configured Version: Auto-detect
Peer DCBX Version: CIN Version 1.0
Peer MAC: 00:23:24:A4:21:03
Peer Description: Cisco Nexus 5020 IOS Version 5.00
Data Center Technology Commands 1146
Auto-configuration Port Role: Auto-downstream
Peer Is Configuration Source: False
Local Configuration:
Max/Oper
Type Subtype Version En/Will/Adv
PFC(3) 000 000 Y/Y/Y
PG(2) 000 000 Y/Y/Y
APP(4) 000 000 Y/Y/Y
Number of TCs Supported: 3
Priority Group Id: 0:00 1:01 2:02 3:03 4:04 5:05 6:06 7:07
PG Percentage (%): 0:12 1:10 2:12 3:00 4:00 5:66 6:00 7:00
Strict Priority: 0:0 1:2 2:0 3:0 4:0 5:0 6:0 7:0
PFC Enable Vector: 0:0 1:1 2:0 3:0 4:0 5:0 6:0 7:0
Peer Configuration:
Operation version: 00 Max version: 00 Seq no: 23 Ack no: 22
Max/Oper
Type Subtype Version En/Will/Err
PFC(3) 000 000/000 Y/N/N
PG(2) 000 000/000 Y/N/N
APP(4) 000 000/000 Y/N/N
Number of TCs Supported: 3
Priority Group Id: 0:00 1:01 2:02 3:03 4:04 5:05 6:06 7:07
PG Percentage (%): 0:0 1:10 2:12 3:00 4:00 5:78 6:00 7:00
PFC Enable Vector: 0:0 1:1 2:0 3:0 4:0 5:1 6:0 7:0
Application Priority (TX Enabled)
Type Application Priority Status
---------------------------------------------------
Ethernet FC0E 3 Enabled
TCP/SCTP 860 4 Disabled
TCP/SCTP 3260 4 Disabled
Error Counters:
ETS Incompatible Configuration: 0
PFC Incompatible Configuration: 0
Disappearing Neighbor: 0
Multiple Neighbors Detected: 0
Data Center Technology Commands 1147
Example #4
DCBX enabled – IEEE device (DCBX Version Forced):
console# show lldp dcbx interface te1/0/1
Interface te1/0/1
DCBX Admin Status: Enabled
Configured DCBX Version: CIN 1.0
Peer DCBX Version: CEE 1.6
Peer MAC: 00:23:24:A4:21:03
Peer Description: Cisco Nexus 5020 IOS Version 5.00
Auto-configuration Port Role: Auto-upstream
Peer Is Configuration Source: True
Error Counters:
ETS Incompatible Configuration: 7
PFC Incompatible Configuration: 0
Disappearing Neighbor: 0
Multiple Neighbors Detected: 0
Example #5
DCBX enabled – detailed view:
console# show lldp dcbx interface te1/0/1 detail
Interface te1/0/1
DCBX Admin Status: Enabled
Configured Version: Auto-detect
Auto-configuration Port Role: Configuration Source
Peer Is Configuration Source: True
PFC Capability (TX Enabled)
Willing: True MBC: False Max PFC classes supported: 3
PFC Enable Vector: 0:0 1:1 2:0 3:0 4:0 5:1 6:0 7:0
ETS Configuration (TX Enabled)
Willing: True Credit Shaper: True Traffic Classes Supported: 8
Priority Assignment: 0:0 1:1 2:2 3:3 4:4 5:5 6:6 7:7
Traffic Class Bandwidth (%): 0:00 1:10 2:12 3:00 4:00 5:78 6:00 7:00
Traffic Selection Algorithm: 0:0 1:1 2:2 3:0 4:0 5:3 6:0 7:0
ETS Recommendation (TX Enabled)
Peer DCBX Version: CEE 1.6
Peer Description: Cisco Nexus 5020 IOS Version 5.00
Peer MAC: 00:23:24:A4:21:03
Peer PFC Capability:
Willing: False MBC: False Max PFC classes supported: 3
PFC Enable Vector 0:0 1:1 2:0 3:0 4:0 5:1 6:0 7:0
Data Center Technology Commands 1148
Peer ETS Configuration:
Willing: False Peer ETS Detected: True Credit Shaper: True
Traffic Classes Supported: 8
Priority Assignment: 0:0 1:1 2:1 3:0 4:0 5:1 6:0 7:0
Traffic Class Bandwidth: 0:00 1:10 2:12 3:00 4:00 5:78 6:00 7:00
Traffic Selection Algorithm: 0:0 1:1 2:2 3:0 4:0 5:3 6:0 7:0
Peer ETS Recommendation:
Traffic Class Bandwidth: 0:0 1:1 2:2 3:0 4:0 5:3 6:0 7:0
Traffic Selection Algorithm: 0:0 1:1 2:2 3:0 4:0 5:3 6:0 7:0
Peer Application Priority
Type Application Priority
-------------------------------------
Ethernet FC0E 3
TCP/SCTP 3260 4
Enhanced Transmission Selection (ETS)
Commands
NOTE: Enhanced Transmission Selection commands are only supported on N4000 series
switches. CLI commands and Dell OpenManage Switch Administrator pages are
not available for other switch models.
classofservice traffic-class-group
This command maps the internal Traffic Class to an internal Traffic Class
Group (TCG). The Traffic Class can range from 0-6, although the actual
number of available traffic classes depends on the platform.
Use the no form of this command to return system (Global Configuration
mode) or interface (Interface Configuration mode) to the default mapping.
Syntax
classofservice traffic-class-group trafficclass traffic class group
no classofservice traffic-class-group
•
trafficclass
—
The selected traffic class. Range is 0-6.
•
trafficclassgroup
—
The selected group. Range 0-2.
Data Center Technology Commands 1149
Default Configuration
By default, all the traffic classes are mapped to TCG 0. In the default
configuration, all the Traffic Classes are grouped as one Traffic Class Group
and TCG0 is configured as weighted round robin.
Command Mode
Global Config, Interface Configuration modes
User Guidelines
NOTE: This command is only available on N40xx series switches.
For a given Traffic Class, a value specified in Interface Configuration mode
only affects a single interface, whereas a change in Global Configuration
mode is applied to all interfaces. The Interface Configuration mode
command is only available on platforms that support independent per-port
class of service mappings. Ports that are configured to use the DCBX auto-
configuration roles (auto-up or auto-down) have their ETS settings
overridden. Only ports configured as DCBX manual role utilize the
configured ETS settings.
It is recommended that all strict priority traffic classes be mapped to a single
TCG.
Internally, frames are selected for transmission from the strict priority TCGs
first, then, once the constraints of the TCGs are satisfied, frames from the
WRR TCGs are selected for transmission. For example, grouping strict
priority assignments into TCG 1 and weighted assignments into TCG 0 will
result in all frames of the highest priority in TCG 1 being transmitted first,
then the next lower priority, et. seq. until no frames remain for transmission
in TCG 1. Then the scheduler will process frames from TCG 0, giving them
appropriate treatment based upon the weights, minimum bandwidth and
maximum bandwidth constraints.
Traffic class group 7 is reserved by the system for internal use.
Example
The following example demonstrates how to globally map priorities 1 and 2 to
TCG 1.
console(config)# classofservice traffic-class-group 1 1
console(config)# classofservice traffic-class-group 2 1
Data Center Technology Commands 1150
traffic-class-group max-bandwidth
Use this command in Global Config or Interface Configuration mode to
specify the maximum transmission bandwidth limit for each TCG as a
percentage of the interface rate. Also known as rate shaping, this has the
effect of smoothing temporary traffic bursts over time so that the transmitted
traffic rate is bound.
Syntax
traffic-class-group max-bandwidth bw-0 bw-1 … bw-n
no traffic-class-group max-bandwidth
• bw-0..7—The maximum percentage bandwidth to be transmitted by the
TCG. Range 0 to 100.
Default Configuration
The default maximum bandwidth for all TCGs is 0% (unlimited).
Command Mode
Global Config, Interface Configuration modes
User Guidelines
NOTE: This command is only available on N40xx series switches.
This command specified in Interface Configuration mode only affects a
single interface; whereas, the Global Configuration mode setting is applied to
all interfaces. Interface configuration overrides the global configuration on
the designated interface. The Interface Configuration mode command is only
available on platforms that support independent per-port class of service
queue configuration.
Each bw-x value is a percentage that ranges from 0 to 100 in increments of 1.
All n bandwidth values must be specified with this command and each is
independent of the others. The number n is platform dependent and
corresponds to the number of supported traffic classes groups. The default
maximum bandwidth value for each TCG is 0, meaning no upper limit is
enforced, which allows the TCG queue to consume any available non-
guaranteed bandwidth of the interface.
Data Center Technology Commands 1151
If a non-zero value is specified for any bw-x maximum bandwidth parameter,
it must not be less than the current minimum bandwidth value for the
corresponding queue. A bw-x maximum bandwidth parameter value of 0 may
be specified at any time without restriction.
The maximum bandwidth limits may be used with either a weighted or strict
priority scheduling scheme. Note that a value of 0 (the default) implies an
unrestricted upper transmission limit, which is similar to 100%, although
there may be subtle operational differences depending on how the device
handles a no limit case versus limit to 100%.
Example
The following example demonstrates how to limit the maximum bandwidth
percentage for TCG 1 and 2 to 25% each.
console(config)# traffic-class-group max-bandwidth 50 25 25
traffic-class-group min-bandwidth
Use this command in Global Config or Interface Configuration mode to
specify the minimum transmission bandwidth guaranteed for each TCG
before processing frames from other TCGs on an interface.
Use the no form of the command to return the bandwidth reservations to the
default values.
Syntax
traffic-class-group min-bandwidth bw-0 bw-1 … bw-n
no traffic-class-group min-bandwidth
• bw-0..7—The maximum percentage bandwidth to be transmitted by the
TCG. Range 0 to 100.
Default Configuration
The default minimum bandwidth for all TCGs is 0% (no minimum
guarantee).
Command Mode
Global Configuration mode, Interface Configuration mode
Data Center Technology Commands 1152
User Guidelines
NOTE: This command is only available on N40xx series switches.
This command specified in Interface Configuration mode only affects a
single interface, whereas the Global Configuration mode setting is applied to
all interfaces. The Interface Configuration mode command is only available
on the N4000 series switches.
Each bw-x value is a percentage that ranges from 0 to 100 in increments of 1.
All n bandwidth values must be specified with this command, and their
combined sum must not exceed 100%. The default minimum bandwidth
value for each TCG is 0, meaning no bandwidth is guaranteed (best effort) In
order to better accommodate bursty traffic, it is recommended that the sum
of the minimum bandwidths configured be much less than 100%.
If the value of any bw-x minimum bandwidth parameter is specified as greater
than the current maximum bandwidth value for the corresponding TCG,
then its corresponding maximum bandwidth automatically increases the
maximum to the same value. Min-bandwidth may be configured manually by
the operator on manual and auto-configuration ports. If the port is an auto-
configuration port, the weights received via ETS TLVs are taken into account
by the scheduler along with the min-bandwidth parameters supplied by the
operator.
Refer to the cos-queue min-bandwidth command for information regarding
scheduling frame for transmission across TCGs.
Example
The following example demonstrates how to reserve the minimum bandwidth
percentage for TCG 1 and 2 to 25% each and reserve the remaining
bandwidth for TCG 0.
console(config)# traffic-class-group min-bandwidth 50 25 25
traffic-class-group strict
Use this command in Global Config or Interface Configuration mode to
activate the strict priority scheduler mode for each specified TCG.
Use the no form of the command to return the TCGs to the default weighted
scheduler mode.
Data Center Technology Commands 1153
Syntax
traffic-class-group strict tcg-id [tcg-id … tcg-id]
no traffic-class-group strict
• tcg-id—The TCG identifier. Range is 0 to 2
Default Configuration
The default scheduling mode for all TCGs is weighted scheduling.
Command Mode
Global Configuration mode, Interface Configuration mode
User Guidelines
NOTE: This command is only available on N40xx series switches.
This command specified in Interface Configuration mode only affects a
single interface, whereas the Global Configuration mode setting is applied to
all interfaces. The Interface Configuration mode command is only available
on platforms that support independent per-port class of service queue
configuration.
At least one, but no more than n, tcg-id values are specified with this
command. Duplicate tcg-id values are ignored. Each tcg-id value ranges from
0 to (n-1), where n is the total number of TCG supported per interface. The
number n is platform dependent and corresponds to the number of supported
Traffic Class Groups.
When strict priority scheduling is used for a TCG, the minimum bandwidth
setting for the TCG is ignored and packets are scheduled for transmission as
soon as they arrive. A maximum bandwidth setting for the queue, if
configured, serves to limit the outbound transmission rate of a strict priority
TCG queue so that it does not consume the entire capacity of the interface.
If multiple TCGs on the same interface are configured for strict priority
mode, the method of handling their packet transmission, gives preference
among the strict priority TCGs to the one with the highest tcg-id. Strict
priority or weighted scheduling may be configured manually or via DCBX
using the ETS TLVs.
Data Center Technology Commands 1154
Example
The following example demonstrates how to set TCGs 1 and 2 to strict
priority scheduling.
console(config)# traffic-class-group strict 1 2
traffic-class-group weight
Use the traffic-class-group weight command in Global Config or Interface
Configuration mode to specify the scheduling weight for each TCG. The
scheduler attempts to balance the traffic selected for transmission from the
TCGs such that, when the switch is congested, traffic is selected from the
round robin configured TCGs in proportion to their weights.
Use the no form of the command to return the TCGs to the default weighted
scheduler mode.
Syntax
traffic-class-group weight wp-0 wp-1 wp-2
no traffic-class-group strict
• wp-n—The weight percentage. Range 0 to 100.
Default Configuration
The default weight is in the ratio of 1:2:3 for
TCG0:TCG1:TCG2(100%:0%:0%).
Command Mode
Global Configuration mode, Interface Configuration mode
User Guidelines
NOTE: This command is only available on N40xx series switches.
This command specified in Interface Configuration mode only affects a
single interface, whereas the Global Configuration mode setting is applied to
all interfaces. The Interface Configuration mode command is only available
on platforms that support independent per-port class of service queue
configuration.
Data Center Technology Commands 1155
The weight percentage is not considered for Traffic Class Groups that are
configured for strict priority scheduling. Auto-configuration ports utilize the
weights received from the auto-configuration source but do no alter the
manual settings. Manually configured ports enabled for DCBX transmit the
manually configured weights in the TC Bandwidth table in the ETS TLVs.
Each wp-x (weight percentage) value is a percentage that ranges from 0 to
100 in increments of 1. All n bandwidth values must be specified with this
command, and their combined sum must equal 100%. The weight percentage
may be configured manually or via the DCBX protocol using the ETS TLVs.
Example
The following example demonstrates how to set TCG 0 to 50% weight and
TCG 1 to 50%.
console(config)# traffic-class-group weight 50 5 0
show classofservice traffic-class-group
Use the show classofservice traffic-class-group command to display the
Traffic Class to Traffic Class Group mapping.
Syntax
show classofservice traffic-class-group [interface-id]
• interface-id—The ID for the interface for which to display information.
Default Configuration
The default is to show the global traffic class to group mapping.
Command Mode
Privileged Exec mode
User Guidelines
NOTE: This command is only available on N40xx series switches.
The interface-id parameter is optional. If specified, the TCG mapping table
of the interface is displayed. If omitted, the global configuration settings are
displayed (these may have been subsequently overridden by per-port
configuration).
Data Center Technology Commands 1156
Traffic class group 7 is reserved by the system and is not shown.
Auto-configuration ports utilize the traffic class group mappings received
from the auto-configuration source. Manually configured ports enabled for
DCBX transmit the traffic class groups in the ETS TLVs.
Example
The following example demonstrates how to display the global traffic class to
group mappings:
s1# show classofservice traffic-class-group
Traffic Class Traffic Class Group
------------- ---------------------
0 0
1 1
2 1
3 1
4 2
5 1
6 1
show interfaces traffic
Use the show interfaces traffic command to display traffic information.
Syntax
show interfaces traffic [interface-id]
interface-id—A valid physical interface specifier.
Port-channels are not allowed
with this command as the queuing and drops occur on the individual
interfaces and not on the port channel.
Default Configuration
The default is to show the global traffic class group configuration.
Command Mode
Privileged Exec mode
Data Center Technology Commands 1157
User Guidelines
The interface-id parameter is optional. The following information is
displayed:
The above counters are cleared by the clear counters command. The queue
sizes cannot be cleared as they are instantaneous
Example
This example shows Gi1/0/1 is suffering from congestion (Tx Queue high)
and is dropping packets, either due to WRED drops or due to exceeding the
internal buffer limits.
console#show interfaces traffic
Intf Congestion Tx Queue Rx Queue Color Drops (Pkts) Tx Queue
Name Drops (Pkts) (Cells) (Cells) Yellow Red (Pkts)
------- ------------ -------- -------- ------------ ------------ --------
Gi1/0/1 18981 132 0 0 0 13
Gi1/0/2 0 0 0 0 0 0
Field Description
Congestion drops Packets dropped due to congestion. This includes packets
that exceeded an upper WRED threshold and packet
dropped by WRED. ECN marked packets are not
counted as dropped.
Tx Queue The instantaneous number of cells queued for egress on
the interface. Cells are 208 bytes.
Rx Queue The instantaneous number of cells queued for ingress on
the switch. Cells are 208 bytes. If a port is configured for
PFC, cells are buffered on ingress. If not, cells are
buffered on egress.
Color drops The number of packets dropped due to WRED dropping
of packets. Packets exceeding the upper WRED
threshold are counted in the drops bucket. ECN marked
packets are not counted as dropped.
WRED TX Queue The instantaneous number of packets queued for
transmission on the interface as smoothed by the
exponential weighting function.
Data Center Technology Commands 1158
Gi1/0/3 0 0 0 0 0 0
show interfaces traffic-class-group
Use the show interfaces traffic-class-group command to display the Traffic
Class to Traffic Class Group mapping.
Syntax
show interfaces traffic-class-group [interface-id]
• interface-id—A valid physical interface specifier.
Default Configuration
The default is to show the global traffic class group configuration.
Command Mode
Privileged Exec mode
User Guidelines
NOTE: This command is only available on N40xx series switches.
The interface-id parameter is optional. If specified, the TCG mapping table
of the interface is displayed. If omitted, the global configuration settings are
displayed (these may have been subsequently overridden by per-port
configuration).
The following information is displayed:
Field Description
Interface Displays the slot/port of the interface. If displaying the global
configuration, this output line is replaced with a Global Config
indication.
Traffic Class Group The traffic class Group identifier.
Min-Bandwidth The minimum transmission bandwidth, expressed as a
percentage. A value of 0 means bandwidth is not guaranteed.
This is a configured value.
Data Center Technology Commands 1159
Example
The following example demonstrates how to display the global traffic class
group configuration:
s1# show interfaces traffic-class-group
Global Configuration
TCG Id Min. Max Scheduler Weight
Bandwidth Bandwidth Type Percentage
------- ---------- --------- --------- ----------
0 0 0 Strict 0
1 0 0 WDRR 50
2 0 0 WDRR 50
Max-Bandwidth The maximum transmission bandwidth g, expressed as a
percentage. A value of 0 means no upper limit is enforced, so
the queue may use any or all of the available bandwidth of the
interface. This is a configured value.
Scheduler Type Indicates whether this queue is scheduled for transmission
using a strict priority or a weighted scheme. Strict priority
scheduler is to provide lower latency to the higher CoS classes
of traffic. Weighted scheduling is a round robin mechanism
with weights associated to each CoS class of traffic. This is a
configured value.
Weight Percentage The weight of the TCG used during non-strict scheduling.
Field Description
Data Center Technology Commands 1160
OpenFlow Commands
Dell EMC Networking N2000/N2100-ON/N3000/N3100/N4000 Series
Switches
The OpenFlow feature configures the switch to be managed by a centralized
OpenFlow Controller using the OpenFlow protocol. Openflow is not
supported in a stacking environment. The OpenFlow agent has been
validated with the Helium release of OpenDaylight (ODL).
Commands in this Section
This section explains the following commands:
controller
Use the controller command to configure a connection to an OpenFlow
controller. Use the no form of the command to remove an OpenFlow
controller connection.
Syntax
controller ipv4 ipv4-address [port port-number] security { none | ssl }
no controller ipv4 { ipv4-address [port port-number] | all }
• ipv4-address—The IPv4 address of the controller.
• port-number—The TCP port number used for the connection on the
controller.
•security { none | ssl }—The security used for connection to the controller.
•all—Delete all OpenFlow controllers
controller openflow
hardware profile openflow passive
ipv4 address protocol-version
mode show openflow
Data Center Technology Commands 1161
Default Configuration
No controllers are configured by default.
Command Mode
OpenFlow Configuration
User Guidelines
If connection to the controller over an interface other than the OOB interface
is desired, use the OpenFlow mode command prior to issuing this command.
Issuing the mode command after a connection has been established drops the
connection. The connections are then re-attempted over the new interface as
specified by the mode command.
If the OOB interface is used to connect to the OpenFlow controllers, the
controllers should be on the same subnet as the OOB interface.
When using the no form of the command, if no port number is given, all
controller entries for the IP address are deleted.
If SSL is used, an SSL certificate should be downloaded using the copy
command prior to configuring the controller.
OpenFlow operates on the stack master only. Flows may not be configured on
stack members. Failover to the stack standby unit is not supported.
OpenFlow should only be enabled on stand-alone switches and should not be
enabled on stacks of switches. This restriction is not enforced.
Command History
Introduced in version 6.3.0.1 firmware.
Example
This example enables OpenFlow 1.3 on a switch and configures a connection
the controller at IPv4 address 1.2.3.4 TCP port 3435 using SSL security. A
signed CA certificate, switch certificate, and switch private key should be
downloaded to the switch using the copy command.
console(config)#openflow
WARNING! OpenFlow does not operate on stack members. Enable OpenFlow on
stand-alone switches only.
Data Center Technology Commands 1162
console(config-of-switch)#controller ipv4 1.2.3.4 port 3435 security ssl
hardware profile openflow
Use the hardware profile openflow command to select the forwarding mode
for the OpenFlow hybrid capability. Use the no form of the command to
select the default forwarding capability.
Syntax
hardware profile openflow { full-match | layer2-match }
no hardware profile openflow
•full-match—Perform full matching when configured in OpenFlow 1.0
mode.
•layer2-match—Perform L2 matching when configured in OpenFlow 1.0
mode.
Default Configuration
By default, layer2 matching is performed.
Command Mode
Global Configuration
User Guidelines
This command configures the switch when operating in OpenFlow 1.0 mode.
It has no effect when operating in OpenFlow 1.3 mode.
If the administrator changes the default hardware table for OpenFlow 1.0 and
if the switch is currently operating in OpenFlow 1.0 variant then the
OpenFlow feature is automatically disabled and re-enabled.
OpenFlow operates on the stack master only. Flows may not be configured on
stack members. Failover to the stack standby unit is not supported.
OpenFlow should only be enabled on stand-alone switches and should not be
enabled on stacks of switches. This restriction is not enforced.
Data Center Technology Commands 1163
Command History
Introduced in version 6.3.0.1 firmware.
Example
The following example configures OpenFlow 1.0 full matching, configures a
connection to the controller at IPv4 address 1.2.3.4 TCP port 3435 using SSL
security, and enables OpenFlow 1.0 on the switch.
console(config)#hardware profile openflow full-match
console(config)#openflow
WARNING! OpenFlow does not operate on stack members. Enable OpenFlow on
stand-alone switches only.
console(config-of-switch)#controller ipv4 1.2.3.4 port 3435 security ssl
console(config-of-switch)#protocol-version 1.0
console(config-of-switch)#mode auto
console(config-of-switch)#exit
ipv4 address
Use the ipv4 address command to assign the IPv4 source address utilized for
controller connections. Use the no form of the command to return the setting
to the default.
Syntax
ipv4 address ipv4-address
no ipv4 address
• ipv4-address— The configured IPv4 address of the switch. A VLAN
interface must exist with an identical address.
Default Configuration
By default, the switch selects an address automatically.
Command Mode
OpenFlow Configuration
Data Center Technology Commands 1164
User Guidelines
This command configures the switch with a static IPv4 address. The switch
must be configured in static mode in order to use the configured static
address.
Only IPv4 addresses are supported for OpenFlow controllers.
OpenFlow operates on the stack master only. Flows may not be configured on
stack members. Failover to the stack standby unit is not supported.
OpenFlow should only be enabled on stand-alone switches and should not be
enabled on stacks of switches. This restriction is not enforced.
Command History
Introduced in version 6.3.0.1 firmware.
Example
This example configures an interface using VLAN 10 with IPv4 address
1.2.3.1, configures a connection to the controller at IPv4 address 1.2.3.4 TCP
port 3435 using SSL security and initiates the connection over the switch
front panel interface. The local switch is configured with a static IP address
after being configured into static address mode.
console(config)#vlan 10
console(config-vlan10)#interface vlan 10
console(config-if-vlan10)#ip address 1.2.3.1 255.255.0.0
console(config-if-vlan10)#interface gi1/0/1
console(config-if-Gi1/0/1)#switchport mode access
console(config-if-Gi1/0/1)#switchport access vlan 10
console(config)#openflow
WARNING! OpenFlow does not operate on stack members. Enable OpenFlow on
stand-alone switches only.
console(config-of-switch)#controller ipv4 1.2.3.4 port 3435 security ssl
console(config-of-switch)#mode static
console(config-of-switch)#ipv4 address 1.2.3.1
console(config-of-switch)#exit
Data Center Technology Commands 1165
mode
Use the mode command to configure the selection of interfaces used to
assign the IP address utilized for controller connections. Use the no form of
the command to return the setting to the default.
Syntax
mode { auto | static | oob }
no mode
•auto—Automatically select the switch IP address
•static—Use the configured static IP address
•oob—Use the OOB interface IP address
Default Configuration
By default, the switch selects an IP address automatically (auto mode).
Command Mode
OpenFlow Configuration
User Guidelines
This command configures the switch to select an IP address from a particular
type of interface. The selected IP address is used as the local end-point of the
IP connections to the OpenFlow controllers.
The administrator can allow the switch to automatically assign an IP address
to the OpenFlow feature or to specifically select which address should be
used. The administrator can also direct the OpenFlow feature to always use
the out-of-band interface.
When in auto mode, the switch selects an IP address from an interface in this
order:
1
The loopback interfaces.
2
The routing interfaces.
3
The out-of-band interface.
Data Center Technology Commands 1166
Once the IP address is selected, it is used until the interface goes down or the
OpenFlow feature is disabled or, in case of automatic address selection, a
more preferred interface becomes available.
Only IPv4 addresses are supported for OpenFlow controllers.
Changing the mode causes the connections to controllers to be dropped, and
if properly configured, re-established.
If the switch is configured in static mode, OpenFlow will remain operationally
disabled until a static IPv4 address is configured, the IPv4 address matches
exactly an IPv4 address on a VLAN interface, and the VLAN interface is
operationally enabled.
If the OOB interface is manually selected as the OpenFlow IP address then
the Open Flow feature becomes enabled immediately, even if there is no IP
address assigned to the service port.
If the OOB interface is used to connect to the OpenFlow controllers, the
controllers should be on the same subnet as the OOB interface.
OpenFlow operates on the stack master only. Flows may not be configured on
stack members. Failover to the stack standby unit is not supported.
OpenFlow should only be enabled on stand-alone switches and should not be
enabled on stacks of switches. This restriction is not enforced.
Command History
Introduced in version 6.3.0.1 firmware.
Example
This example configures an interface using VLAN 10 with IPv4 address
1.2.3.1, configures a connection to the controller at IPv4 address 1.2.3.4 TCP
port 3435 using SSL security and initiates the connection over the switch
front panel interface.
console(config)#vlan 10
console(config-vlan10)#interface vlan 10
console(config-if-vlan10)#ip address 1.2.3.1 255.255.0.0
console(config-if-vlan10)#interface gi1/0/1
console(config-if-Gi1/0/1)#switchport mode access
console(config-if-Gi1/0/1)#switchport access vlan 10
console(config)#openflow
Data Center Technology Commands 1167
WARNING! OpenFlow does not operate on stack members. Enable OpenFlow on
stand-alone switches only.
console(config-of-switch)#controller ipv4 1.2.3.4 port 3435 security ssl
console(config-of-switch)#mode auto
console(config-of-switch)#exit
openflow
Use the openflow command to enable OpenFlow on the switch (if disabled)
and enter into OpenFlow configuration mode. Use the exit command to
return to Global Configuration mode.
Syntax
openflow
no openflow
Default Configuration
The OpenFlow capability is disabled by default. No controllers are configured
by default. OpenFlow 1.3 mode is selected by default when OpenFlow is
enabled. The OpenFlow protocol operates over the OOB interface by default.
Command Mode
Global Configuration
User Guidelines
When the OpenFlow feature is administratively disabled, the switch drops
connections with the OpenFlow Controllers. The switch also purges all flows
programmed by the controllers and removes the controller configuration.
Dell OpenFlow implements a true hybrid mode implementation of
OpenFlow. Resources are allocated on a first-come first serve basis among the
legacy switch UI and the OpenFlow controllers. No arbitration of resources is
performed and conflicting actions are allowed.
Data Center Technology Commands 1168
OpenFlow operates on the stack master only. Flows may not be configured on
stack members. Failover to the stack standby unit is not supported.
OpenFlow should only be enabled on stand-alone switches and should not be
enabled on stacks of switches. This restriction is not enforced.
Command History
Introduced in version 6.3.0.1 firmware.
Example
This example enables OpenFlow 1.3 on a switch and configures a connection
the controller at IPv4 address 1.2.3.4 TCP port 3435 using SSL security.
console(config)#openflow
WARNING! OpenFlow does not operate on stack members. Enable OpenFlow on
stand-alone switches only.
console(config-of-switch)#controller ipv4 1.2.3.4 port 3435 security ssl
passive
Use the passive command to set the switch to accept connections initiated by
a controller.
Syntax
passive
no passive
Default Configuration
By default, the switch initiates the connection to the controllers.
Command Mode
OpenFlow Configuration
Data Center Technology Commands 1169
User Guidelines
This command configures the switch to accept a connection request from a
controller. When passive mode is enabled, the switch accepts TCP
connections to ports 6632 and 6633 respectively using any switch IP address.
In this mode, the switch continues to attempt to initiate connections to
configured controllers.
The OpenFlow component always initiates the SSL connections and does not
accept SSL connections.
OpenFlow operates on the stack master only. Flows may not be configured on
stack members. Failover to the stack standby unit is not supported.
OpenFlow should only be enabled on stand-alone switches and should not be
enabled on stacks of switches. This restriction is not enforced.
Command History
Introduced in version 6.3.0.1 firmware.
Example
This example configures a connection to the controller at IPv4 address 1.2.3.4
TCP port 3435 using SSL security and also configures the controller to accept
TCP connections to the switch on port 6633.
console(config)#openflow
WARNING! OpenFlow does not operate on stack members. Enable OpenFlow on
stand-alone switches only.
console(config-of-switch)#controller ipv4 1.2.3.4 port 3435 security ssl
console(config-of-switch)#passive
console(config-of-switch)#mode auto
console(config-of-switch)#exit
protocol-version
Use the protocol-version command to select the version of the protocol in
which to operate. Use the no form of the command to return the
configuration to the default.
Data Center Technology Commands 1170
Syntax
protocol-version { 1.0 | 1.3 }
no protocol-version
• 1.0—Operate in OpenFlow 1.0 mode
• 1.3—Operate in OpenFlow 1.3 mode
Default Configuration
By default, the switch operates in OpenFlow 1.3 mode.
Command Mode
OpenFlow Configuration
User Guidelines
If the administrator changes the OpenFlow variant while the OpenFlow
feature is enabled, the switch automatically disables and re-enables the
OpenFlow feature causing all flows to be deleted and connections to the
controllers to be dropped.
OpenFlow operates on the stack master only. Flows may not be configured on
stack members. Failover to the stack standby unit is not supported.
OpenFlow should only be enabled on stand-alone switches and should not be
enabled on stacks of switches. This restriction is not enforced.
Command History
Introduced in version 6.3.0.1 firmware.
Example
This example enables OpenFlow 1.3 on a switch and configures a connection
the controller at IPv4 address 1.2.3.4 TCP port 3435 using SSL security.
console(config)#openflow
WARNING! OpenFlow does not operate on stack members. Enable OpenFlow on
stand-alone switches only.
console(config-of-switch)#protocol-version 1.3
console(config-of-switch)#mode auto
Data Center Technology Commands 1171
console(config-of-switch)#controller ipv4 1.2.3.4 port 3435 security ssl
show openflow
Use the show openflow command to display OpenFlow configuration and
status.
Syntax
show openflow [ switch controllers | switch flows | switch groups | switch
tables ]
•switch controllers—Show information about configured controllers
•switch flows—Show information regarding flows
•switch groups—Show information regarding OpenFlow groups
•switch tables—Show information regarding the switch tables
Default Configuration
When invoked with no parameters, the show openflow command shows
summary information regarding OpenFlow.
Command Mode
Privileged Exec and Global Configuration
User Guidelines
OpenFlow operates on the stack master only. Flows may not be configured on
stack members. Failover to the stack standby unit is not supported.
OpenFlow should only be enabled on stand-alone switches and should not be
enabled on stacks of switches. This restriction is not enforced.
The command has the following output.
Parameter Description
Administrative Mode The OpenFlow feature administrative mode set by the
‘openflow enable’ command.
Administrative Status The operational status of the OpenFlow feature. Although
the feature may be administratively enabled, it could be
operationally disabled due to various reasons.
Data Center Technology Commands 1172
When the switch tables parameter is given, the following information is
displayed:
Disable Reason If the OpenFlow feature is operationally disabled then this
status shows the reason for the feature to be disabled.
IP Address IPv4 Address assigned to the feature. If the IP address is
not assigned then the status is ‘None’.
IP Mode IP mode assigned by the ‘openflow ip-mode’ command.
The IP Mode can be “Auto”, “Static” or “ServicePort IP”
Static IP Address Static IP address assigned by the ‘openflow static-ip-
address’ command.
Network MTU Maximum network packet size excluding the VLAN Tag.
OpenFlow Variant OpenFlow Protocol Variant. The OpenFlow protocol can
be “OpenFlow 1.0” or “OpenFlow 1.3”.
Default Table The Hardware Table used as the target for flows installed
by an OpenFlow 1.0 controller which is not enhanced to
handle multiple hardware tables.
Passive Mode The OpenFlow passive mode set by the ‘passive’ command.
Parameter Description
Flow Table. OpenFlow Table Identifier (0 – 255).
Flow Table Name. The name of this table.
Flow Table Description. A detailed description for this table.
Maximum Size. Platform-defined maximum size for this flow table.
Number of Entries. Total number of entries in this table. The count includes
delete-pending entries.
Hardware Entries. Number of entries currently inserted into the hardware.
Software-Only Entries. Number of entries that are not installed in the hardware
for any reason. This includes entries pending for insertion,
entries that cannot be inserted due to missing interfaces
and entries that cannot be inserted due to table-full
condition.
Parameter Description
Data Center Technology Commands 1173
When the switch groups parameter is given, the following information is
displayed:
When the switch flows parameter is selected, the following output is shown:
Waiting for Space
Entries
Number of entries that are not currently in the hardware
because the attempt to insert the entry failed.
Flow Insertion Count. Total number of flows that were added to this table since
the switch powered up.
Flow Deletion Count. Total number of flows that were deleted from this table
since the switch powered up.
Insertion Failure Count. Total number of hardware insertion attempts that were
rejected due to lack of space since the switch powered up.
Parameter Description
Group Type Type of Group: Indirect, All, Select, etc.
Group Id Unique ID for the Group
Reference Count This count indicates how many Select groups are referring
to the current Indirect group. Reference Count is used
only for Indirect groups.
Duration The time since the group was created.
Bucket Count Number of Buckets in the group.
Reference Group Id References the Indirect group ID and used for Select
group only.
Parameter Description
Flow Type Type of the Flow 1.0 Flow or Layer 2 Match etc.
Flow Table The hardware table where the flow is installed.
Flow Priority Priority of the flow versus other flows. Higher is better.
Match Criterion The match criterion specified by the flow with the field
and value like ingress port or ether type
Ingress Port The port on which the flow is active.
Parameter Description
Data Center Technology Commands 1174
Command History
Introduced in version 6.3.0.1 firmware.
Example
This output shows an operationally disabled switch:
console#show openflow
Administrative Mode............................ Enable
Administrative Status.......................... Disabled
Disable Reason................................. No-Suitable-IP-Interface
IP Address..................................... None
IP Mode........................................ Auto
Static IP Address.............................. 10.1.1.1
Network MTU.................................... 1518
OpenFlow Variant............................... OpenFlow 1.0
Default Table.................................. layer-2-match
Passive Mode................................... Enable
This output shows an operationally enabled switch:
console#show openflow
Administrative Mode............................ Enable
Administrative Status.......................... Enabled
Disable Reason................................. None
IP Address..................................... 10.27.65.64
IP Mode........................................ Auto
Static IP Address.............................. 10.1.1.1
Network MTU.................................... 1518
OpenFlow Variant............................... OpenFlow 1.3
Default Table.................................. full-match
Passive Mode................................... Enable
Action The action specified by the flow.
Duration The time since the flow was created
Idle The time since the flow was hit.
Installed in hardware Shows 0 if for some reason the flow could not be added in
the hardware.
Parameter Description
Data Center Technology Commands 1175
This example shows the output for OpenFlow 1.0 using the switch tables
parameter:
console#show openflow switch tables
Flow Table...............................1
Flow Table Name..........................Forwarding Database
Maximum Size.............................64
Number of Entries........................8
Hardware Entries.........................7
Software-Only Entries....................1
Waiting for Space Entries................0
Flow Insertion Count.....................1
Flow Deletion Count......................0
Insertion Failure Count..................0
Flow Table Description:
The forwarding database maps non-multicast MAC addresses and the ports on
which these addresses are located.
This example shows the output for OpenFlow 1.3 using the switch tables
parameter:
console#show openflow switch tables
Flow Table..................................... 60
Flow Table Name................................ Openflow 1.3
Maximum Size................................... 1920
Number of Entries.............................. 0
Hardware Entries............................... 0
Software-Only Entries.......................... 0
Waiting for Space Entries...................... 0
Flow Insertion Count........................... 0
Flow Deletion Count............................ 0
Insertion Failure Count........................ 0
Flow Table Description......................... The Openflow 1.3 table
matches on the packet layer-2 header, including DA-MAC, SA-MAC, VLAN, Vlan
priority ether type; layer-3 header, including SRC-IP, DST-IP, IP protocol,
IP-TOS; layer-4 header, including UDP/TCP source and dest port, ICMP type,
and code; SRC-IPv6, DST_IPv6, IPv6 Flow Label, ECN, ICMPv6 type and code,
source L4 Port for TCP / UDP / SCTP and input port including physical port
and LAG port.
Data Center Technology Commands 1176
The following example shows the output when the switch groups parameter
is given:
console#show openflow switch groups
Max Indirect Group Entries......................................... 1234
Current Indirect Group Entries in database......................... 123
Max All Group Entries.............................................. 1234
Current All Group Entries in database.............................. 123
Max Select Group Entries........................................... 1234
Current Select Group Entries in database........................... 123
Group Id 12345678 type “Indirect”
=================================
Ref Count 1 : Duration 8 : Bucket Count 1
Bucket Entry List:
------------------
Bucket Index 25 : Output Port 1
Src MAC 00:00:00:00:00:AB : Dst MAC 00:00:00:00:00:CD
VLAN 101 : Reference Group Id NA
Group Id 23456789 type “All”
============================
Ref Count NA : Duration 10 : Bucket Count 2
Bucket Entry List:
------------------
Bucket Index 26 : Output Port 2
Src MAC NA : Dst MAC NA
VLAN 102 : Reference Group Id NA
Bucket Index 27 : Output Port 3
Src MAC NA : Dst MAC NA
VLAN 103 : Reference Group Id NA
Group Id 34567890 type “Select”
===============================
Ref Count NA : Duration 10 : Bucket Count 3
Bucket Entry List:
------------------
Data Center Technology Commands 1177
Bucket Index 28 : Output Port NA
Src MAC NA : Dst MAC NA
VLAN NA : Reference Group Id 12345678
Bucket Index 29 : Output Port NA
Src MAC NA : Dst MAC NA
VLAN NA : Reference Group Id 12345678
Bucket Index 30 : Output Port NA
Src MAC NA : Dst MAC NA
VLAN NA : Reference Group Id 12345678
This examples shows the output for OpenFlow 1.0 flows:
console#show openflow switch flows
Flow: 00000000 Type: “1DOT0”
Flow Table: 60 Priority: 1 Type: Untagged MAC
Match Criteria:
Ingress port: Gi1/0/1 Egress Port:
VLAN ID: VLAN PCP: EtherType: 0x0800
Src MAC: Src IP: Src IP Port:
Dst MAC: Dst IP: Dst IP Port:
IP Protocol: TOS: DSCP:
Action: Drop
Duration (secs): 55 Idle (secs): 45 In HW: Yes
Packet Count: 12321 HW Priority: 2131
This example shows the output for OpenFlow 1.3 flows:
console#show openflow switch flows
Flow: 000000E1 Type: “1DOT3”
Match Criteria:
Flow Table: 60 Priority: 10
Ingress port: Gi1/0/1 Egress Port: Gi1/0/2
VLAN ID: 1 VLAN PCP: 1 EtherType: 0x0800
Src MAC: 00:00:02:37:38:01 Src IP: 100.0.0.225 Src IP Port: 1
Dst MAC: 00:00:18:37:22:01 Dst IP: 192.0.0.225 Dst IP Port: 1
IP Protocol: 17 TOS: 32 DSCP: 8
Action:
Data Center Technology Commands 1178
Duration (secs): 5 Idle (secs): 2 In HW: Yes
Packet Count: 3 HW Priority: 65464
Flow 000001F9 type “1DOT3”
Match Criteria:
Flow Table: 60 Priority: 10
Ingress port: Gi1/0/1 Egress Port: Gi1/0/1
VLAN ID: 1 VLAN PCP: 1 EtherType: 0x0800
Src MAC: 00:00:02:37:38:01 Src IP: 100.0.1.249 Src IP Port: 1
Dst MAC: 00:00:18:37:22:01 Dst IP: 192.0.1.249 Dst IP Port: 1
IP Protocol: 17 TOS: 32 DSCP: 8
Action:
Duration (secs): 2 Idle (secs): 0 In HW: Yes
Packet Count: 9879 HW Priority: 786743
Data Center Technology Commands 1179
Priority Flow Control Commands
Dell EMC Networking N4000 Series Switches
Priority Flow Control (PFC) provides a means of pausing frames based on
individual priorities on a single physical link. By pausing the congested
priority or priorities independently, protocols that are highly loss sensitive can
share the same link with traffic that has different loss tolerances with less
congestion spreading than standard flow control. The priorities are
differentiated by the priority field of the 802.1Q VLAN header. PFC is
standardized by the IEEE 802.1Qbb specification.
PFC uses a new control packet defined in 802.1Qbb and therefore is not
compatible with standard flow control. An interface that is configured for
PFC will be automatically disabled for 802.3x flow control. When PFC is
disabled on an interface, the flow control configuration for the interface
becomes active. Any flow control frames received on a PFC configured
interface are ignored.
Each priority is configured as either drop or no-drop. If a priority that is
designated as no-drop is congested, the priority is paused. Drop priorities do
not participate in pause. By default there are no priority classifications
configured and PFC is not enabled.
While several no-drop priorities may be configured on a supporting system,
the actual number of lossless priorities supported on a given system is a
function of the switch chips packet buffer, the maximum supported MTU
size, pause delay, the media type and the total number of ports enabled for
lossless behavior. In order to guarantee lossless behavior, the switch chip must
send a pause message prior to exhausting its available packet buffer and have
sufficient buffer to absorb the delay. In order to accomplish this, it must
reserve enough memory (headroom) to handle the max delay in processing
the pause packet.
The maximum number of lossless priorities per interface is two. The
headroom is only used for guaranteeing lossless behavior. There must be
enough dynamic memory to handle the typical work load of the switch in
addition to the headroom. With two no-drop priorities per interface and
static allocations, there is only about 30 percent of the buffer space available
for normal forwarding behavior.
Data Center Technology Commands 1180
The effective default behavior on an interface enabled for PFC without a no-
drop priority is that no flow control (legacy or PFC) is enabled. If the user
enables PFC but does not create any no-drop priorities, the interface will not
be lossless.
Changing the drop and no-drop capabilities on an interface, either in flow
control or priority flow control, may require that all ports briefly drop link.
The priority to flow control group cannot be changed while traffic is running.
When 802.3 link flow control is enabled, all priorities are mapped to a single
flow control group. When Qbb is enabled, the priorities are each mapped into
their own flow control group, where lossless groups have additional buffer to
handle the round trip delay for flow control. In order to minimize the impact,
the link will only be dropped when changing between 802.3 and Qbb.
Commands in this Section
This section explains the following commands:
priority-flow-control mode
Use the priority-flow-control mode on command in Datacenter-Bridging
Configuration mode to enable Priority-Flow-Control (PFC) on an interface.
To disable Priority-Flow-Control, use the no form of the command.
Syntax
priority-flow-control mode on
priority-flow-control mode off
no priority-flow-control mode
•on—Enable PFC on the interface.
•off—Disable PFC on the interface.
Data Center Bridging Capability Exchange Commands
priority-flow-control priority
clear priority-flow-control statistics
show interfaces priority-flow-control
Data Center Technology Commands 1181
Default Configuration
Priority-flow-control mode is off (disabled) by default.
Command Mode
Datacenter-Bridging Configuration mode
User Guidelines
NOTE: This command is only available on N40xx series switches.
PFC must be enabled before FIP snooping can operate over the interface. Use
the no form of the command to return the mode to the default (off). VLAN
tagging (trunk or general mode) must be enabled on the interface in order to
carry the 802.1p value through the network. Additionally, the dot1mapping to
class-of-service must be set to one-to-one. Ports that are configured to use the
DCBX auto-configuration roles (auto-up or auto-down) have their PFC
settings overridden. Only ports configured as DCBX manual role utilize the
configured PFC settings.
When PFC is enabled on an interface, the normal PAUSE control mechanism
is operationally disabled. Because PFC is a link local protocol, it must be
configured on all the interfaces aggregated in a port channel. Only
configuring some of the ports in a port channel to use PFC will cause
unexpected results and is not supported.
Example
The following example enables PFC on an interface.
s1(config)#interface te1/0/1
s1(config-if-Te1/0/1)#datacenter-bridging
s1(config-if-dcb)#priority-flow-control mode on
priority-flow-control priority
Use the priority-flow-control priority command in Datacenter-Bridging
Configuration mode to enable the priority group for lossless (no-drop) or
lossy (drop) behavior on the selected interface. Up to two lossless priorities
can be enabled on an interface.
Use the no form of the command to return all priorities to their default lossy
behavior.
Data Center Technology Commands 1182
Syntax
priority-flow-control priority priority-list {drop | no-drop}
no priority-flow-control priority
•drop—Disable lossless behavior on the selected priorities.
•no-drop—Enable lossless behavior on the selected priorities.
• priority-list —A list of IEEE 802.1p priorities (up to two) which are to be
configured as lossless.
Default Configuration
The default behavior for all priorities is tail-drop.
Command Mode
Datacenter-Bridging Configuration mode
User Guidelines
NOTE: This command is only available on N40xx series switches.
The administrator must configure the same no-drop priorities across the
network in order to ensure end-to-end lossless behavior. Ports that are
configured to use the DCBX auto-configuration roles (auto-up or auto-down)
have their PFC settings overridden. Only ports configured as DCBX manual
role utilize the configured PFC settings.
Example
The following example sets priority 3 to no drop behavior.
s1(config)#interface te1/0/1
s1(config-if-Te1/0/1)#datacenter-bridging
s1(config-if-dcb)#priority-flow-control mode on
s1(config-if-dcb)#priority-flow-control priority 1 no-drop
clear priority-flow-control statistics
Use the clear priority-flow-control statistics command to clear all or interface
Priority-Flow-Control statistics.
Data Center Technology Commands 1183
Syntax
clear priority-flow-control statistics [ethernet interface ]
• interface — A valid Ethernet port.
Command Mode
Privileged Exec mode
User Guidelines
This command has no user guidelines.
Example #1
console#clear priority-flow-control statistics tengigabitethernet 1/0/1
Example #2
console#clear priority-flow-control statistics
show interfaces priority-flow-control
Use the show interfaces priority-flow-control command to display the global
or interface priority flow control status and statistics.
Syntax
show interfaces interface-id priority-flow-control
• interface-id—A valid Ethernet port identifier.
Command Mode
Privileged Exec, Global Configuration mode and all Configuration submodes
User Guidelines
NOTE: This command is only available on N40xx series switches.
This command has no user guidelines.
Examples
The following examples show the priority flow control status and statistics.
s1#show interfaces tengigabitethernet 1/0/1 priority-flow-control
Data Center Technology Commands 1184
Interface Detail:te1/0/1
PFC Configured State: Disabled
PFC Operational State: Enabled
Configured Drop Priorities: 2-7
Operational Drop Priorities: 2-7
Configured No-Drop Priorities: 0-1
Operational No-Drop Priorities:0-1
Delay Allowance: 32456 bit times
Peer Configuration Compatible: True
Compatible Configuration Count: 3
Incompatible Configuration Count: 1
Priority Received PFC Frames Transmitted PFC Frames
-------- ----------------- ----------------------
00 0
10 0
20 0
30 0
40 0
50 0
60 0
70 0
console#show interfaces priority-flow-control
Port Drop No-Drop Operational
Priorities Priorities Status
-------- --------------- --------------- ----------
Te1/0/1 0-2,4-7 3 Active
Te1/0/2 0-2,4-7 3 Active
Te1/0/3 0-7 Inactive
Te1/0/4 0-7 Inactive
Te1/0/5 0-7 Inactive
Te1/0/6 0-7 Inactive
Te1/0/7 0-7 Inactive
Te1/0/8 0-7 Inactive
Te1/0/9 0-7 Inactive
Te1/0/10 0-7 Inactive
Te1/0/11 0-7 Inactive
Te1/0/12 0-7 Inactive
Te1/0/13 0-7 Inactive
Te1/0/14 0-7 Inactive
Te1/0/15 0-7 Inactive
Te1/0/16 0-7 Inactive
Te1/0/17 0-7 Inactive
Te1/0/18 0-7 Inactive
Data Center Technology Commands 1185
Te1/0/19 0-7 Inactive
Te1/0/20 0-7 Inactive
Te1/0/21 0-7 Inactive
Te1/0/22 0-7 Inactive
Te1/0/23 0-2,4-7 3 Active
Te1/0/24 0-7 Inactive
Data Center Technology Commands 1186
Layer 3 Routing Commands 1187
7
Layer 3 Routing Commands
The sections that follow describe commands that conform to the OSI model’s
Network Layer (Layer 3). Layer 3 Routing commands enable routing
protocols to perform a series of exchanges over various data links to route data
between any two nodes in a network. These commands define the addressing
and routing structure of the Internet.
The Dell EMC N1100-ON Series switches do not support routing.
This section of the document contains the following Layer 3 topics:
ARP Commands Loopback Interface Commands
Bidirectional Forwarding Detection
Commands
IP Multicast Commands
Border Gateway Protocol Commands IPv6 Multicast Commands
BGP Routing Policy OSPF Commands
DVMRP Commands OSPFv3 Commands
IGMP Commands Router Discovery Protocol Commands
IGMP Commands Routing Information Protocol Commands
IGMP Proxy Commands Tunnel Interface Commands
IP Helper/DHCP Relay Commands Virtual Router Commands
IP Routing Commands Virtual Router Redundancy Protocol
Commands
IPv6 Routing Commands
–
Layer 3 Routing Commands 1188
ARP Commands
Dell EMC Networking N1500/N2000/N2100-ON/N3000/N3100-
ON/N4000 Series Switches
When a host has an IP packet to send on an Ethernet network, it must
encapsulate the IP packet in an Ethernet frame. The Ethernet header requires
a destination MAC address. If the destination IP address is on the same
network as the sender, the sender uses the Address Resolution Protocol (ARP)
to determine the MAC address associated with destination IP address. The
network device broadcasts an ARP request, identifying the IP address for
which it wants a corresponding MAC address. The IP address is called the
target IP. If a device on the same physical network is configured with the
target IP, it sends an ARP response giving its MAC address. This MAC address
is called the target MAC.
If the destination IP address is not on the same network as the sender, the
sender generally forwards the packet to a default gateway. The default
gateway is a router that forwards the packet to its destination. The host may
be configured with a default gateway or may dynamically learn a default
gateway.
The router discovery protocol is one method that enables hosts to learn a
default gateway. If a host does not know a default gateway, it can learn the
first hop to the destination through proxy ARP. Proxy ARP (RFC 1027) is a
technique used to make a machine physically located on one network appear
to be logically part of a different physical network connected to the same
router (may also be a firewall). Typically Proxy ARP hides a machine with a
public IP address on a private network behind a router and still allows the
machine to appear to be on the public network. The router proxies ARP
requests and all network traffic to and from the hidden machine to make this
fiction possible.
Proxy ARP is implemented by making a small change to a router's processing
of ARP requests. Without proxy ARP, a router only responds to an ARP
request if the target IP address is an address configured on the interface where
the ARP request arrived. With proxy ARP, the router may also respond if it
has a route to the target IP address. The router only responds if all next hops
on its route to the destination are through interfaces other than the interface
where the ARP request was received.
Layer 3 Routing Commands 1189
ARP Aging
Dynamic entries in the ARP cache are aged. When an entry for a neighbor
router reaches its maximum age, the system sends an ARP request to the
neighbor router to renew the entry. Entries for neighbor routers should
remain in the ARP cache as long as the neighbor continues to respond to ARP
requests. ARP cache entries for neighbor hosts are renewed more selectively.
When an ARP cache entry for a neighbor host reaches its maximum age, the
system checks if the cache entry has been used recently to forward data
traffic. If so, the system sends an ARP request to the entry's target IP address.
If a response is received, the cache entry is retained and its age is reset to 0. By
enabling the dynamic renew option, the system administrator can configure
ARP to attempt to renew aged ARP entries regardless of their use for
forwarding.
If the system learns a new ARP entry but the hardware does not have space to
add the new ARP entry, the system attempts to remove entries that have not
been used for forwarding recently. This action may create space for new
entries in the hardware's ARP table.
Commands in this Section
This section explains the following commands:
arp
Use the arp command in Global Configuration mode to create an Address
Resolution Protocol (ARP) entry. The arp command optionally creates a static
ARP entry in the selected VRF. Use the no form of the command to remove
the entry.
arp arp timeout
arp cachesize clear arp-cache
arp dynamicrenew clear arp-cache management
arp purge ip local-proxy-arp
arp resptime ip proxy-arp
arp retries show arp
Layer 3 Routing Commands 1190
Syntax
arp [vrf vrf-name]ip-address hardware-address [ interface interface-id]
no arp ip-address
• vrf-name—The name of the VRF with which the ARP entry is to be
associated. If no VRF is specified, the ARP entry is associated with the
global ARP table.
• ip-address — IP address of a device on a subnet attached to an existing
routing interface.
• hardware-address — A unicast MAC address for that device.
• interface-id—An optional IP unnumbered (VLAN) interface identifier.
Default Configuration
This command has no default configuration.
Command Mode
Global Configuration mode
User Guidelines
The VRF identified in the parameter must have been previously created or an
error is returned.
Only IPv4 addresses are supported with the vrf parameter.
The vrf parameter is only available on the N3000/N3100/N4000 switches.
The interface identifier is the identifier of the unnumbered interface, not the
loopback interface from which the IP address is borrowed.
When adding a static ARP entry with an unnumbered interface, the ip
address must match the mask of the unnumbered interface.
A static ARP entry is only installed if the IP address matches one of the local
subnets. In case of unnumbered interfaces, static ARP entries created for the
unnumbered-peer do not match any of the local subnets and cannot be
resolved to an interface. By specifying the interface explicitly in the static
ARP command, static ARP entries for unnumbered-peers can be configured.
Layer 3 Routing Commands 1191
Example
The following example creates an ARP entry consisting of an IP address and a
MAC address.
console(config)#arp 192.168.1.2 00A2.64B3.A245
arp cachesize
Use the arp cachesize command in Global Configuration mode to configure
the maximum number of entries in the ARP cache. To return the maximum
number of ARP cache entries to the default value, use the no form of this
command.
Syntax
arp cachesize integer
no arp cachesize
• integer — Maximum number of ARP entries in the cache. Use the show
sdm prefer command to display the supported ARP cache size.
Default Configuration
The switch defaults to using the maximum allowed cache size.
Command Mode
Global Configuration mode
User Guidelines
The ARP cache size is dependent on the switching hardware used. The
allowed range of values may be different from the example given below for a
given switch model.
On VRF enabled switches, the ARP cache is shared among all VRF instances.
Configuration of the cache size is shared among all VRF instances.
Example
The following example defines an arp cachesize of 1000.
console(config)#arp cachesize 1000
Layer 3 Routing Commands 1192
arp dynamicrenew
Use the arp dynamicrenew command in Global Configuration mode to
enable the ARP component to automatically renew dynamic ARP entries
when they age out. To disable the automatic renewal of dynamic ARP entries
when they age out, use the no form of the command.
Syntax
arp dynamicrenew
no arp dynamicrenew
Default Configuration
The default state is enabled.
Command Mode
Global Configuration mode
User Guidelines
When an ARP entry reaches its maximum age, the system must decide
whether to retain or delete the entry. If the entry has recently been used to
forward data packets, the system will renew the entry by sending an ARP
request to the neighbor. If the neighbor responds, the age of the ARP cache
entry is reset to 0 without removing the entry from the hardware. Traffic to
the host continues to be forwarded in hardware without interruption. If the
entry is not being used to forward data packets, the system sends an ARP
request to renew the entry. When an entry is not renewed, it is removed from
the hardware and subsequent data packets to the host trigger an ARP request.
Traffic to the host is lost until the router receives an ARP reply from the host.
Gateway entries, and entries for a neighbor router, are always renewed. The
dynamic renew option only applies to host entries.
The disadvantage of enabling dynamic renew is that once an ARP cache entry
is created, that cache entry continues to take space in the ARP cache as long
as the neighbor continues to respond to ARP requests, even if no traffic is
being forwarded to the neighbor. If the ARP cache is full and a new host is
learned, the oldest ARP cache entry is replaced with the new host entry.In a
network where the number of potential neighbors is greater than the ARP
Layer 3 Routing Commands 1193
cache capacity, enabling dynamic renew could prevent some neighbors from
communicating because the ARP cache is full. Dynamic renewal should be
disabled in these networks.
Example
console#configure
console(config)#arp dynamicrenew
console(config)#no arp dynamicrenew
arp purge
Use the arp purge command to cause the specified IP address to be removed
from the ARP cache. Only entries of type dynamic or gateway are affected by
this command. The arp purge command optionally removes a static ARP
entry in the selected VRF.
Syntax
arp purge [vrf vrf-name] ip-address [ interface interface-id]
• vrf-name—The name of the VRF associated with the ARP entry which is
to be removed. If no VRF is specified, the ARP entry is associated with the
global ARP table is removed.
• ip-address — The IP address to be removed from ARP cache.
• interface-id—An optional IP unnumbered (VLAN) interface identifier.
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode
User Guidelines
The VRF identified in the parameter must have been previously created or an
error is returned.
Only IPv4 addresses are supported with the vrf parameter.
The vrf parameter is only available on the N3000/N3100/N4000 switches.
Layer 3 Routing Commands 1194
The interface identifier is the identifier of the unnumbered interface, not the
loopback interface from which the IP address is borrowed.
When the IP address does not uniquely identify an ARP entry, the interface
must be given to uniquely identify the ARP entry. The interface may be
numbered or unnumbered.
Example
The following example removes the specified IP address from arp cache.
console#arp purge 192.168.1.10
arp resptime
Use the arp resptime command in Global Configuration mode to configure
the ARP request response time-out. To return the response time-out to the
default value, use the no form of this command.
Syntax
arp resptime integer
no arp resptime
• integer — IP ARP entry response time out. (Range: 1-10 seconds)
Default Configuration
The default value is 1 second.
Command Mode
Global Configuration mode
User Guidelines
This command has no user guidelines.
Example
The following example defines a response time-out of 5 seconds.
console(config)#arp resptime 5
Layer 3 Routing Commands 1195
arp retries
Use the arp retries command in Global Configuration mode to configure the
ARP count of maximum requests for retries. To return to the default value,
use the no form of this command.
Syntax
arp retries integer
no arp retries
• integer — The maximum number of requests for retries. (Range: 0-10)
Default Configuration
The default value is 4 retries.
Command Mode
Global Configuration mode
User Guidelines
This command has no user guidelines.
Example
The following example defines 6 as the maximum number of retries.
console(config)#arp retries 6
arp timeout
Use the arp timeout command in Global Configuration mode to configure
the ARP entry age-out time. Use the no form of the command to set the age-
out time to the default.
Syntax
arp timeout integer
no arp timeout
• integer — The IP ARP entry age-out time. (Range: 15-21600 seconds)
Layer 3 Routing Commands 1196
Default Configuration
The default value is 1200 seconds.
Command Mode
Global Configuration mode
User Guidelines
This command has no user guidelines.
Example
The following example defines 900 seconds as the timeout.
console(config)#arp timeout 900
clear arp-cache
Use the clear arp-cache command to remove all ARP entries of type dynamic
from the ARP cache.
Syntax
clear arp-cache [vrf vrf-name] [gateway]
• vrf-name—The name of the VRF instance on which the command
operates. If no VRF parameter is given, counters for the default (global)
router instance is cleared.
•gateway — Removes the dynamic entries of type gateway, as well.
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode
User Guidelines
The VRF identified in the parameter must have been previously created or an
error is returned.
Layer 3 Routing Commands 1197
Example
The following example clears all entries ARP of type dynamic, including
gateway, from ARP cache.
console#clear arp-cache gateway
clear arp-cache management
Use the clear arp-cache management command to clear all entries that show
as management arp entries in the show arp command.
Syntax
clear arp-cache management
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode
User Guidelines
This command has no user guidelines.
Example
In the example below, out-of-band management entries are shown, for
example, those from the out-of-band interface.
console#show arp
Age Time (seconds)............................. 1200
Response Time (seconds).................... 1
Retries................................................... 4
Cache Size............................................ 6144
Dynamic Renew Mode....................... Disable
Total Entry Count Current / Peak...... 0 / 0
Static Entry Count Configured / Active / Max.. 0 / 0 / 128
IP Address MAC Address Interface Type Age
--------------- ----------------- -------------- -------- -----------
10.27.20.241 001A.A0FF.F662 Management Dynamic n/a
10.27.20.243 0019.B9D1.29A3 Management Dynamic n/a
console#clear arp-cache management
Layer 3 Routing Commands 1198
ip local-proxy-arp
Use the ip local proxy-arp command in Interface Configuration mode to
enable proxying of ARP requests. This allows the switch to respond to ARP
requests within a subnet where routing is not enabled.
Syntax
ip local-proxy-arp
no ip local-proxy-arp
Default Configuration
Proxy arp is disabled by default.
Command Mode
Interface (VLAN) Configuration
User Guidelines
This command has no user guidelines.
Example
This example enables proxying of ARP requests on VLAN 10.
console(config-if-Gi1/0/1)#interface vlan 10
console(config-if-vlan10)#ip local-proxy-arp
ip proxy-arp
Use the ip proxy-arp command in Interface Configuration mode to enable
proxy ARP on a router interface. Without proxy ARP, a device only responds
to an ARP request if the target IP address is an address configured on the
interface where the ARP request arrived. With proxy ARP, the device may also
respond if the target IP address is reachable. The device only responds if all
next hops in its route to the destination are through interfaces other than the
interface that received the ARP request. Use the no form of the command to
disable proxy ARP on a router interface.
Layer 3 Routing Commands 1199
Syntax
ip proxy-arp
no ip proxy-arp
Default Configuration
Enabled is the default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
The ip proxy-arp command is not available in interface range mode.
Example
The following example enables proxy arp for VLAN 15.
(config)#interface vlan 15
console(config-if-vlan15)#ip proxy-arp
show arp
Use the show arp command to display all entries in the Address Resolution
Protocol (ARP) cache. The displayed results are not the total ARP entries. To
view the total ARP entries, the operator should view the show ARP results.
Syntax
show arp [vrf vrf-name][brief]
• vrf-name—The name of the VRF instance on which the command
operates. If no VRF parameter is given, information for the default
(global) router instance is shown.
• brief — Display ARP parameters.
Default Configuration
This command has no default configuration.
Layer 3 Routing Commands 1200
Command Mode
User Exec and Privileged Exec modes, Global Configuration mode and all
Configuration submodes
User Guidelines
The show arp command will display static (user-configured) ARP entries
regardless of whether they are reachable over an interface or not.
The VRF identified in the parameter must have been previously created or an
error is returned.
The VRF parameter is only available on the N3000/N3100/N4000 series
switches.
Example
The following example shows show arp command output.
console#show arp
Static ARP entries are only active
when the IP address is reachable on a local subnet
Age Time (seconds)............................. 1200
Response Time (seconds)........................ 1
Retries........................................ 4
Cache Size..................................... 6144
Dynamic Renew Mode............................ Disable
Total Entry Count Current / Peak.............. 0 / 0
Static Entry Count Configured / Active / Max .. 1 / 0 / 128
IP Address MAC Address Interface Type Age
---------- -------------- --------- ------ -------
1.1.1.3 0000.0000.0022 n/a Static n/a
Layer 3 Routing Commands 1201
Bidirectional Forwarding Detection
Commands
Dell EMC Networking N3000/N3100/N4000 Series Switches
Bidirectional Forwarding Detection (BFD) verifies bidirectional connectivity
between forwarding engines, which can be a single hop or multiple hops away.
The protocol works over any underlying transmission mechanism and
protocol layer with a wide range of detection times, especially in scenarios
where fast failure detection is required in data plane level for multiple
concurrent sessions.
Use the following commands to configure Bidirectional Forwarding Detection
commands (BFD).
Commands in this Section
This section explains the following commands:
feature bfd
Use this command to enable BFD on the router. Use the no form of the
command to disable BFD and clear any dynamic state.
Syntax
feature bfd
no feature bfd
Default Configuration
BFD is not enabled by default.
feature bfd ip ospf bfd
bfd echo ipv6 ospf bfd
bfd interval neighbor fall-over bfd
bfd slow-timer show bfd neighbor
Layer 3 Routing Commands 1202
Command Mode
Global Configuration
User Guidelines
BFD supports fast detection of forwarding failures on a routing interface.
BFD provides an advantage for forwarding plane failure detection over that
provided by the individual protocols, each having different hello protocol
timers and detection periods.
The BFD feature provides notification to BGP or OSPF when an interface is
detected to not be in a forwarding state. No other routing protocols are
supported.
BFD is supported in the default VRF only.
BFD should be configured on routed interfaces only. BFD should not be
configured on mirrored ports or on interfaces enabled for IEEE 802.1x.
BFD is supported across link aggregation groups, but does not detect
individual LAG member link failure.
BFD does not operate on the out-of-band interface.
The no feature bfd command does not remove administrator-supplied
configuration.
A BFD session is created per VLAN routing interface. On trunk ports,
multiple BFD sessions may be established.
Command History
Introduced in version 6.2.0.1 firmware.
Example
console# configure
console(config)# feature bfd
console(config)# exit
bfd echo
This command enables BFD echo mode on an interface. Use the no form of
the command to disable BFD echo mode.
Layer 3 Routing Commands 1203
Syntax
bfd echo
no bfd echo
Default Configuration
BFD echo mode is not enabled by default.
Command Mode
Interface (VLAN) Configuration and Interface (VLAN) range mode.
User Guidelines
BFD echo mode enables fast sending and turnaround of BFD echo packets.
Use the bfd slow-timer command to adjust the sending of BFD control plane
packets when BFD echo mode is enabled.
Command History
Introduced in version 6.2.0.1 firmware.
Example
console# configure
console(config)# interface vlan 10
console(config-if-vlan10)# bfd echo
bfd interval
This command configures BFD session parameters for a VLAN routing
interface. It overwrites any BFD configuration present on the interface. Use
the no form of the command to return the parameters to their default values.
Syntax
bfd interval transmit-interval min_rx minimum-receive-interval multiplier
detection-time-multiplier
no bfd interval
Layer 3 Routing Commands 1204
•
transmit-interval
—Refers to the desired minimum transmit interval,
which is the minimum interval the user wants to use while transmitting
BFD control packets. It is represented in milliseconds. Its range is 100 ms
to 1000 ms with a change granularity of 100 ms and with a default value of
100 ms.
•
minimum-receive-interval
—Refers to the required minimum receive
interval, which is the minimum interval at which the system can receive
BFD control packets. It is represented in milliseconds. Its range is 100 ms
to 1000 ms with a granularity of 100 ms and with a default value of 100 ms.
•
detection-time-multiplier
—Specifies the number of BFD control packets
which, if missed consecutively, will cause a session to be declared down. Its
range is 3 to 50 with a default value of 3.
Default Configuration
The default transmit-interval is 100ms.
The default minimum-receive-interval is 100ms.
The default detection-time-multiplier is 3.
Command Mode
Interface (VLAN) mode.
User Guidelines
There are no user guidelines for this command.
Command History
Introduced in version 6.2.0.1 firmware.
Example
In this example, VLAN 100 is created, assigned an IP address to make it a
routable interface, and the bfd interval is set to 100 ms, the minimum receive
interface is 100 ms, and the multiplier is 5.
console#configure
console(config)#vlan 100
console(config-vlan100)#exit
console(config)#interface vlan 100
console(config-if-vlan100)#ip address 192.168.10.11 /24
Layer 3 Routing Commands 1205
console(config-if-vlan100)#bfd interval 100 min_rx 100 multiplier 5
console(config-if-vlan100)#exit
console(config)#interface te1/0/1
console(config-if-Te1/0/1)#switchport mode trunk
bfd slow-timer
This command configures the BFD periodic slow transmission interval for
BFD Control packets. Use the no form of the command to return the slow
transmission interval value to the default.
Syntax
bfd slow-timer receive-interval
no bfd slow-timer
• receive-interval—The slow transmission interval. Range 1000–30000
milliseconds.
Default Configuration
The default receive-interval is 2000 ms.
Command Mode
Global Configuration mode
User Guidelines
The argument receive-interval refers to the slow transmission interval for
BFD Control packets. This timer is only used when the BFD echo function is
enabled. When the BFD echo mode is enabled, the rate of BFD control
packets is kept low as the echo function is used to detect forwarding failures.
Command History
Introduced in version 6.2.0.1 firmware.
Example
console# configure
console(config)# bfd slow-timer 1000
Layer 3 Routing Commands 1206
ip ospf bfd
Use the ip ospf bfd command to enable sending of BFD events to OSPF on a
VLAN routing interface. Use the no form of the command to disable sending
of BFD events.
Syntax
ip ospf bfd
no ip ospf bfd
Default Configuration
BFD is not enabled by default.
Command Mode
Interface (VLAN) Configuration mode
User Guidelines
BFD processing notifies OSPF of L3 connectivity issues with the peer. The
interface must be a VLAN interface enabled for routing.
BFD must also be enabled in OSPF router configuration mode in order to
BFD processing to occur.
Command History
Introduced in version 6.3.0.1 firmware.
Example
The following example
console#configure
console(config)#ip routing
console(config)#interface vlan 3
console(config-if-vlan3)#ip address 192.168.0.1 /24
console(config-if-vlan3)#ip ospf area 0
console(config-if-vlan3)#ip ospf bfd
onsole(config-if-vlan3)#exit
console(config)#router ospf
console(config-router)#bfd
Layer 3 Routing Commands 1207
ipv6 ospf bfd
Use the ipv6 ospf bfd command to enable sending of BFD events to OSPF on
a VLAN routing interface. Use the no form of the command to disable
sending of BFD events.
Syntax
ipv6 ospf bfd
no ipv6 ospf bfd
Default Configuration
BFD is not enabled by default.
Command Mode
Interface (VLAN) Configuration mode
User Guidelines
BFD processing notifies OSPFv3 of level 3 connectivity issues with the peer.
The interface must be a VLAN interfaced enabled for routing.
BFD must also be enabled in OSPFv3 router configuration mode for BFD
processing to occur.
Command History
Introduced in version 6.3.0.1 firmware.
Example
console#configure
console(config)#ipv6 unicast-routing
console(config)#interface vlan 3
console(config-if-vlan3)#ipv6 address fe80::1214
console(config-if-vlan3)#ipv6 ospf area 0
console(config-if-vlan3)#ipv6 ospf bfd
onsole(config-if-vlan3)#exit
console(config)#ipv6 router ospf
console(config-router6)#bfd
Layer 3 Routing Commands 1208
neighbor fall-over bfd
This command enables BFD support for a BGP neighbor. Use the no form of
the command to disable BFD for the specified BGP neighbor.
Syntax
neighbor{ ipv4-address | ipv6-address [interface vlan vlan-id ] fall-over bfd
no neighbor { ipv4-address | ipv6-address [interface vlan vlan-id ] fall-over
bfd interval
• ipv4-address—The IPv4 address of a configured neighbor reachable over a
VLAN routing interface expressed in dotted quad notation.
• ipv6-address—The IPv6 address of a configured neighbor reachable over
an IPv6 VLAN routing interface.
•vlan-id—If specified, the VLAN on which the IPv6 address is configured.
Default Configuration
No BFD neighbors are configured by default.
Command Mode
Router BGP Configuration mode
User Guidelines
There are no user guidelines for this command.
Command History
Introduced in version 6.2.0.1 firmware.
Example
console(config)# router bgp
console(config-router)# neighbor 172.16.11.6 fall-over bfd
show bfd neighbor
This command displays the neighbors for which BFD has established
adjacencies.
Layer 3 Routing Commands 1209
Syntax
show bfd neighbor [details] [ip-address]
•
details
—Display additional information regarding each BFD neighbor,
including sent and received message counts.
•
ip-address
—The IPv4 or IPv6 address of a BFD neighbor. Limits the
output to the specific neighbor.
Default Configuration
There is no default configuration for this command.
Command Mode
User mode, Privileged Exec mode, Global Configuration mode, all show
modes
User Guidelines
The local address displayed in the output is the IP address of the interface
through which the neighbor is connected.
Update is displayed in the format dd hh:mm:ss where:
• dd is days
• hh is hours
• mm is minutes
• ss is seconds
The operational intervals are the intervals used as a result of negotiation with
the BFD link partner.
The following information is displayed.
Parameters Description
Our IP address The current IP address.
Neighbor IP address The IP address of the active BFD neighbor.
State The current state, either Up or Down.
Interface The current interface.
Uptime The amount of time the interface has been up.
Layer 3 Routing Commands 1210
Command History
Introduced in version 6.2.0.1 firmware.
Example
console# show bfd neighbors
Local Address Neighbor Uptime State Interface
------------- -------------- ----------- ------ ---------
172.16.10.1 172.16.10.20 02:18:49 Up VLAN10
10.1.10.1 10.1.10.20 01:15:25 Up Gi1/0/5
fdf8:f53b::53 fdf8:f53b::58 00:38:11 Up Gi1/0/1
console# show bfd neighbors details
Registered Protocol The protocol from which the BFD session was initiated and
that is registered to receive events from BFD. (for example,
BGP).
Local Diag The diagnostic state specifying the reason for the most
recent change in the local session state.
Demand mode Indicates if the system wishes to use Demand mode.
Note: Demand mode is not supported in Dell 6.0 8.0,
Minimum transmit
interval
The minimum interval to use when transmitting BFD
control packets.
Actual TX Interval The transmitting interval being used for control packets.
Actual TX Echo interval The transmitting interval being used for echo packets.
Minimum receive
interval
The minimum interval at which the system can receive
BFD control packets.
Detection interval
multiplier
The number of BFD control packets that must be missed in
a row to declare a session down.
My discriminator Unique Session Identifier for Local BFD Session.
Your discriminator Unique Session Identifier for Remote BFD Session.
Tx Count The number of transmitted BFD packets.
Rx Count The number of received BFD packets.
Drop Count The number of dropped packets.
Parameters Description
Layer 3 Routing Commands 1211
Local IP address............................... 2.1.1.1
Neighbor IP address............................ 2.1.1.2
State.......................................... Up
Interface...................................... VLAN 10
Uptime......................................... 0 00:01:54
Registered Protocol............................ BGP
Local Diag..................................... 0
Demand mode.................................... FALSE
Minimum transmit interval...................... 100 ms
Minimum receive interval....................... 100 ms
Operational transmit interval.................. 100 ms
Operational transmit echo interval............. 0 ms
Detection interval multiplier.................. 3
Local discriminator............................ 1
Remote discriminator........................... 1
Tx Count....................................... 105
Rx Count....................................... 107
Drop Count..................................... 0
Layer 3 Routing Commands 1212
Border Gateway Protocol
Commands
Dell EMC Networking N3000/N3100/N4000 Series Switches
This section describes the commands you use to view and configure Border
Gateway Protocol (BGP), which is an exterior gateway routing protocol that
you use to route traffic between autonomous systems. The BGP CLI
commands are available in the N3000/N3100/N4000 Series switches. On the
N3000 Series switches, the BGP specific firmware must be loaded (e.g.,
N3000_BGPvA.B.C.D.stk.
CAUTION: The commands in this section are in one of three functional groups.
• Show commands display switch settings, statistics, and other information.
• Configuration commands configure features and options of the switch. For
every configuration command, there is a show command that displays the
configuration setting.
• Clear commands reset part of the protocol state.
Commands in this Section
This section explains the following commands:
router bgp maximum-paths (IPv6
Address Family
Configuration)
redistribute (BGP)
address-family maximum-paths ibgp (BGP
Router Configuration)
redistribute (BGP IPv6)
address-family ipv4 vrf maximum-paths ibgp (IPv6
Address Family
Configuration)
route-target
address-family ipv6 neighbor activate set extcommunity rt
address-family vpnv4
unicast
neighbor advertisement-
interval (BGP Router
Configuration)
set extcommunity soo
Layer 3 Routing Commands 1213
aggregate-address neighbor advertisement-
interval (IPv6 Address
Family Configuration)
show bgp ipv6
bgp aggregate-different-
meds (BGP Router
Configuration)
neighbor allowas-in show bgp ipv6 aggregate-
address
bgp aggregate-different-
meds (IPv6 Address Family
Configuration)
neighbor connect-retry-
interval
show bgp ipv6 community
bgp always-compare-med neighbor default-originate
(BGP Router
Configuration)
show bgp ipv6 community-
list
bgp client-to-client
reflection (BGP Router
Configuration)
neighbor default-originate
(IPv6 Address Family
Configuration)
show bgp ipv6 listen range
bgp client-to-client
reflection (IPv6 Address
Family Configuration)
neighbor description show bgp ipv6 neighbors
bgp cluster-id neighbor ebgp-multihop show bgp ipv6 neighbors
advertised-routes
bgp default local-preference neighbor filter-list (BGP
Router Configuration)
show bgp ipv6 neighbors
policy
bgp fast-external-fallover neighbor filter-list (IPv6
Address Family
Configuration)
show bgp ipv6 neighbors
received-routes
bgp fast-internal-fallover neighbor inherit peer show bgp ipv6 statistics
bgp listen neighbor local-as show bgp ipv6 summary
bgp log-neighbor-changes neighbor maximum-prefix
(BGP Router
Configuration)
show bgp ipv6 update-group
bgp maxas-limit neighbor maximum-prefix
(IPv6 Address Family
Configuration)
show bgp ipv6 route-
reflection
bgp router-id neighbor next-hop-self
(BGP Router
Configuration)
show ip bgp
Layer 3 Routing Commands 1214
clear ip bgp neighbor next-hop-self
(IPv6 Address Family
Configuration)
show ip bgp aggregate-
address
clear ip bgp counters neighbor password show ip bgp community
default-information
originate (BGP Router
Configuration)
neighbor prefix-list (BGP
Router Configuration)
show ip bgp community-list
default-information
originate (IPv6 Address
Family Configuration)
neighbor prefix-list (IPv6
Address Family
Configuration)
show ip bgp extcommunity-
list
default metric (BGP Router
Configuration)
neighbor remote-as show ip bgp listen range
default metric (IPv6 Address
Family Configuration)
neighbor remove-private-as show ip bgp neighbors
distance neighbor rfc5549-support show ip bgp neighbors
advertised-routes
distance bgp (BGP Router
Configuration)
neighbor route-map (BGP
Router Configuration)
show ip bgp neighbors
received-routes
distance bgp (IPv6 Address
Family Configuration)
neighbor route-map (IPv6
Address Family
Configuration)
show ip bgp neighbors
policy
distribute-list prefix in neighbor route-reflector-
client (BGP Router
Configuration)
show ip bgp route-reflection
distribute-list prefix out
(BGP Router
Configuration)
neighbor route-reflector-
client (IPv6 Address Family
Configuration)
show ip bgp statistics
distribute-list prefix out
(IPv6 Address Family
Configuration)
neighbor send-community
(BGP Router
Configuration)
show ip bgp summary
enable neighbor send-community
(IPv6 Address Family
Configuration)
show ip bgp template
ip as-path access-list neighbor shutdown show ip bgp traffic
Layer 3 Routing Commands 1215
router bgp
Use the router bgp command to enable BGP and identify the autonomous
system (AS) number for the router. Only a single instance of BGP can be run
and the router can only belong to a single AS.
Syntax
router bgp as-number
no router bgp as-number
• as-number—The router’s autonomous system number is asplain format.
Dell EMC Networking BGP supports two byte AS numbers, in the range of
0-65535.
Default Configuration
By default, BGP is inactive.
Command Mode
Global Configuration mode
User Guidelines
The no router bgp command disables BGP and all BGP configurations revert
to default values. Alternatively, the administrator can use the no enable
command in BGP router configuration mode to disable BGP globally without
clearing the BGP configuration.
ip bgp-community new-
format
neighbor timers show ip bgp update-group
ip bgp fast-external-fallover neighbor update-source show ip bgp vpn4
ip community-list network (BGP Router
Configuration)
show router-capability
ip extcommunity-list network (IPv6 Address
Family Configuration)
template peer
match extcommunity redistribute (BGP) timers bgp
maximum-paths (BGP
Router Configuration)
rd
–
Layer 3 Routing Commands 1216
ASNs 0, 56320–64511, and 65535 are reserved and cannot be used.
Command History
Introduced in version 6.2.0.1 firmware.
Example
The following example creates a BGP routing instances and enables BGP
routing for AS 4324.
console(config)#router bgp 4324
address-family
Use the address-family command in peer template configuration mode to
configure policy parameters within a peer template to be applied to a specific
address family. To delete all policy commands for an address family in a peer
template, use the no form of this command
Syntax
address-family { ipv4 | ipv6 }
no address-family { ipv4 | ipv6 }
•ipv4—Configure policy parameters to be applied to IPv4 routes.
•ipv6—Configure policy parameters to be applied to IPv6 routes.
Default Configuration
No peer templates are configured by default.
Command Mode
Peer Template Configuration mode
User Guidelines
This command enters address family configuration mode within the peer
template. Policy commands configured within this mode apply to the address
family. The following commands can be added to a peer template in address
family configuration mode:
• activate
Layer 3 Routing Commands 1217
•advertisement-interval seconds
• default-originate
•filter-list as-path-list-number {in | out}
•maximum-prefix { maximum | unlimited } [threshold]
• next-hop-self
•prefix-list prefix-list-name { in | out }
• remove-private-as
• route-reflector-client
•route-map map-name { in | out }
•send-community
The activate command is only available in address-family ipv6 mode.
If an IPv6 peer inherits a template that specifies address family ipv4
parameters, those parameters are ignored.
Command History
Introduced in version 6.2.0.1 firmware.
Example
In this example, the peer template AGGR sets the keepalive timer to 3
seconds and the hold timer to 9 seconds, allows communities to be sent for
both IPv4 and IPv6 routes, and configures different inbound and outbound
route maps for IPv4 and IPv6. Two neighbors, 172.20.1.2 and 172.20.2.2,
inherit these parameters from the template.
console(config)# router bgp 65000
console(config-router)# neighbor 172.20.1.2 remote-as 65001
console(config-router)# neighbor 172.20.2.2 remote-as 65001
console(config-router)# template peer AGGR
console(config-rtr-tmplt)# timers 3 9
console(config-rtr-tmplt)# address-family ipv4
console(config-rtr-tmplt-af)# send-community
console(config-rtr-tmplt-af)# route-map RM4-IN in
console(config-rtr-tmplt-af)# route-map RM4-OUT out
console(config-rtr-tmplt-af)# exit
console(config-rtr-tmplt)# address-family ipv6
console(config-rtr-tmplt-af)# send-community
console(config-rtr-tmplt-af)# route-map RM6-IN in
console(config-rtr-tmplt-af)# route-map RM6-OUT out
console(config-rtr-tmplt-af)# exit
Layer 3 Routing Commands 1218
console(config-rtr-tmplt)# exit
console(config-router)# neighbor 172.20.1.2 inherit peer AGGR
console(config-router)# neighbor 172.20.2.2 inherit peer AGGR
console(config-router)# address-family ipv6
console(config-router)# neighbor 172.20.1.2 activate
console(config-router)# neighbor 172.20.2.2 activate
address-family ipv4 vrf
Use the address-family ipv4 vrf command to enter IPv4 VRF configuration
mode for a particular VRF instance to configure the BGP VRF parameters.
Use the no form of this command to delete the IPv4 VRF configuration.
Syntax
address-family ipv4 vrf vrf-name
no address-family ipv4 vrf vrf-name
• vrf-name — The VRF instance name.
Default Configuration
There is no default configuration.
Command Mode
BGP Router Configuration mode
User Guidelines
Commands entered in this mode enable peering with BGP neighbors in this
VRF instance. All the neighbor specific commands are given in this mode as
well.
VRF configuration is disabled by default.
Command History
Introduced in version 6.3.0.1 firmware.
Example
console(config-router)# address-family ipv4 vrf Red
Layer 3 Routing Commands 1219
address-family ipv6
Use the address-family ipv6 command to enter IPv6 family configuration
mode to specify IPv6 configuration parameters. Use the no form of the
command to delete all IPv6 configuration.
Syntax
address-family ipv6
no address-family ipv6
Default Configuration
By default, the exchange of IPv6 routes is disabled.
Command Mode
BGP Router Configuration mode
User Guidelines
The address-family ipv6 command moves the CLI to IPv6 address family
configuration mode. Commands entered in this mode can be used to enable
exchange of IPv6 routes over IPv6 or IPv4 peering sessions, specify IPv6
prefixes to be originated, and configure inbound and outbound policies to be
applied to IPv6 routes. The no version of this command clears all IPv6 address
family configuration
ASNs 0, 56320–64511, and 65535 are reserved cannot be used.
Command History
Introduced in version 6.2.0.1 firmware.
Example
console(config-router)# address-family ipv6
address-family vpnv4 unicast
Use the address-family vpnv4 unicast command to configure a BGP routing
session to advertise VPN IPv4 prefixes.
Use the no form of this command to delete the VPN IPv4 configuration.
Layer 3 Routing Commands 1220
Syntax
address-family vpn4 unicast
no address-family vpn4 unicast
Default Configuration
VPN-IPv4 address family mode is not configured by default.
Command Mode
Router BGP Configuration mode
User Guidelines
When an iBGP neighbor is configured in this mode, each VPN-IPv4 prefix is
made globally unique by the addition of an 8-byte route distinguisher (RD).
Only unicast prefixes are advertised to the iBGP neighbor. To exit from VPN-
IPv4 address family mode, use the exit command.
This command enters VPN-IPv4 address family configuration mode. All
neighbor commands available in IPv4 Address Family configuration mode are
applicable to this mode as well.
Two additional options to the neighbor command are available in VPN-IPv4
address family configuration mode. See the bold keywords in the commands
below for the additions:
• neighbor ip-address activate
• neighbor ip-address send-community extended
Command History
Introduced in version 6.3.0.1 firmware.
Example
The following example shows how to enter the VPN-IPv4 address family
mode and to distribute VPN4-IPv4 addresses to a neighbor with the extended
community attribute:
console(config)# router bgp 10
console(config-router)# neighbor 1.1.1.1 remote-as 5000
console(config-router)# address-family vpnv4 unicast
console(config-router-af)# neighbor 1.1.1.1 activate
Layer 3 Routing Commands 1221
console(config-router-af)# neighbor 1.1.1.1 send-community extended
console(config-router-af)# exit
console(config-router)#
aggregate-address
Use the aggregate-address command to configure a summary address for BGP.
Syntax
aggregate-address { ipv4-prefix mask | ipv6-prefix/prefix-length } [as-set]
[summary-only]
no aggregate-address { ipv4-prefix mask | ipv6-prefix/prefix-length } [as-set]
[summary-only]
•
ipv4-prefix mask
—A summary prefix and mask in dotted-quad notation.
The default route (0.0.0.0 0.0.0.0) cannot be configured as an aggregate-
address. The mask cannot be a 32-bit mask (255.255.255.255). The
combination of prefix and mask must be a valid IPv4 unicast destination
prefix
•
ipv6-prefix
—An IPv6 network prefix. This argument must be in the form
documented in RFC 2373 where the address is specified in hexadecimal
using 16-bit values between 0x00 and 0xff and separated by colons.
Counters are cleared only for the matching prefixes.
•
prefix-length
—The length of the IPv6 prefix given as part of the ipv6-
prefix. This is required if a prefix is specified. A decimal value in the range
0 to 128 that indicates how many of the high-order contiguous bits of the
address comprise the prefix (the network portion of the address) in /length
format. A slash must precede the decimal value in /length format.
•as-set— If the as-set option is configured, the aggregate is advertised with
a non-empty AS_PATH. (Normally, the aggregate is advertised with an
empty AS path and the ATOMIC_AGGREGATE attribute.) If the
AS_PATH of all contained routes is the same, the AS_PATH of the
aggregate is the AS_PATH of the contained routes. Otherwise, if the
contained routes have different AS_PATHs, the AS_PATH attribute
includes an AS_SET with each of the AS numbers listed in the AS PATHs
of the aggregated routes. If the as-set option is not configured, the
aggregate is advertised with an empty AS_PATH.
Layer 3 Routing Commands 1222
•summary-only
–
When specified, the more-specific routes within the
aggregate address are not advertised to neighbors.
Default Configuration
No aggregate addresses are configured by default. Unless the options are
specified, the aggregate is advertised with the ATOMIC_AGGREGATE
attribute and an empty AS path, and the more specific routes are advertised
along with the aggregate.
Command Mode
• BGP Router Configuration mode
• IPv6 Address Family Configuration mode
User Guidelines
To be considered a match for an aggregate address, a prefix must be more
specific (i.e., have a longer prefix length) than the aggregate address. A prefix
whose prefix length equals the length of the aggregate address is not
considered a match.
When BGP originates a summary address, it installs a reject route in the
common routing table for the summary prefix. Any received packets that
match the summary prefix but not a more specific route match the reject
route and are dropped.
BGP accepts up to 128 summary addresses for each address family.
Command History
Introduced in version 6.2.0.1 firmware.
Example
console(config-router)#aggregate-address 10.27.21.0 255.255.255.0
bgp aggregate-different-meds (BGP Router
Configuration)
Use the bgp aggregate-different-meds command to control the aggregation of
routes with different multi-exit discriminator (MED) attributes. By default,
BGP only aggregates routes that have the same MED value.
Layer 3 Routing Commands 1223
Syntax
bgp aggregate-different-meds
no bgp aggregate-different-meds
Default Configuration
By default, all the routes aggregated by a given aggregate address must have
the same MED value.
Command Mode
BGP Router Configuration mode
User Guidelines
When this command is used, the path for an active aggregate address is
advertised without an MED attribute and the MED attribute is not
considered in aggregating routes. When this command is not used, if
multiple routes match an aggregate address, but have different MEDs, the
aggregate takes the MED of the first matching route and any other matching
prefix with the same MED is included in the aggregate. Matching prefixes
with different MEDs are not considered part of the aggregate and continue to
be advertised as individual routes.
Command History
Introduced in version 6.2.0.1 firmware.
Example
console(config-router)#bgp aggregate-different-meds
bgp aggregate-different-meds (IPv6 Address
Family Configuration)
Use the bgp aggregate-different-meds command to allow IPv6 routes with
different MEDs to be aggregated.
Syntax
bgp aggregate-different-meds
Layer 3 Routing Commands 1224
no bgp aggregate-different-meds
Default Configuration
By default, all the routes aggregated by a given aggregate address must have
the same MED value.
Command Mode
IPv6 Address Family Configuration mode
User Guidelines
When this command is used, the path for an active aggregate address is
advertised without an MED attribute and the MED attribute is not
considered in aggregating routes. When this command is not used, if
multiple routes match an aggregate address, but have different MEDs, the
aggregate takes the MED of the first matching route and any other matching
prefix with the same MED is included in the aggregate. Matching prefixes
with different MEDs are not considered part of the aggregate and continue to
be advertised as individual routes.
Command History
Introduced in version 6.2.0.1 firmware.
Example
console(config-router-af)#bgp aggregate-different-meds
bgp always-compare-med
Use this command to compare MED values during the decision process in
paths received from different autonomous systems. To revert to the default
behavior, only comparing MED values from paths received from neighbors in
the same AS, use the no form of this command.
Syntax
bgp always-compare-med
no bgp aways-compare-med
Layer 3 Routing Commands 1225
Default Configuration
By default, all routes aggregated by a given aggregate address must have the
same MED value.
Command Mode
• BGP Router Configuration mode
• IPv6 Address Family Configuration mode
User Guidelines
The MED is a 32-bit integer, commonly set by an external peer to indicate
the internal distance to a destination. The decision process compares MED
values to prefer paths that have a shorter internal distance. Since different
autonomous systems may use different internal distance metrics or have
different policies for setting the MED, the decision process normally does not
compare MED values in paths received from peers in different autonomous
systems. This command allows you to force BGP to compare MEDs regardless
of if paths are received from a common AS.
Command History
Introduced in version 6.2.0.1 firmware.
Example
console(config-router)#bgp always-compare-med
bgp client-to-client reflection (BGP Router
Configuration)
Use the bgp client-to-client reflection command to enable client-to-client
reflection. By default, a route reflector reflects routes received from its clients
to its other clients. However, if a route reflector’s clients have a full iBGP
mesh, the route reflector does not reflect to the clients.
Syntax
bgp client-to-client reflection
no bgp client-to-client reflection
Layer 3 Routing Commands 1226
Default Configuration
Client-to-client reflection is enabled by default when a router is configured as
a route reflector.
Command Mode
BGP Router Configuration mode
User Guidelines
Route reflection can change the routes clients select. A route reflector only
reflects those routes it selects as best routes. Best route selection can be
influenced by the IGP metric of the route to reach the BGP next hop. Since a
client’s IGP distance to a given next hop may differ from route reflector’s IGP
distance, a route reflector may not re-advertise a route a client would have
selected as best in the absence of route reflection. One way to avoid this
effect is to fully mesh the clients within a cluster. When clients are fully
meshed, there is no need for the cluster’s route reflectors to reflect client
routes to other clients within the cluster. When client-to-client reflection is
disabled, a route reflector continues to reflect routes from non-clients to
clients and from clients to non-clients.
In BGP Router Configuration mode, this command only affects
advertisement of IPv4 routes. The same command is available in Address-
Family IPv6 Configuration mode for IPv6 routes.
Command History
Introduced in version 6.2.0.1 firmware.
Example
console(config-router)#bgp client-to-client reflection
bgp client-to-client reflection (IPv6 Address
Family Configuration)
Use the bgp client-to-client reflection command to enable client-to-client
reflection. By default, a route reflector reflects routes received from its clients
to its other clients. However, if a route reflector’s clients have a full iBGP
mesh, the route reflector does not reflect to the clients.
Layer 3 Routing Commands 1227
Syntax
bgp client-to-client reflection
no bgp client-to-client reflection
Default Configuration
Client-to-client reflection is enabled by default when a router is configured as
a route reflector.
Command Mode
IPv6 Address Family Configuration mode
User Guidelines
Route reflection can change the routes clients select. A route reflector only
reflects those routes it selects as best routes. Best route selection can be
influenced by the IGP metric of the route to reach the BGP next hop. Since a
client’s IGP distance to a given next hop may differ from route reflector’s IGP
distance, a route reflector may not re-advertise a route a client would have
selected as best in the absence of route reflection. One way to avoid this
effect is to fully mesh the clients within a cluster. When clients are fully
meshed, there is no need for the cluster’s route reflectors to reflect client
routes to other clients within the cluster. When client-to-client reflection is
disabled, a route reflector continues to reflect routes from non-clients to
clients and from clients to non-clients.
The same command is available in BGP Router Configuration mode for IPv4
routes.
Command History
Introduced in version 6.2.0.1 firmware.
Example
console(config-router-af)#bgp client-to-client reflection
bgp cluster-id
Use the bgp cluster-id command to specify the cluster ID of a route reflector.
To revert the cluster ID to its default, use the no form of this command.
Layer 3 Routing Commands 1228
Syntax
bgp cluster-id cluster-id
no bgp cluster-id
• cluster-id—A non-zero 32-bit identifier that uniquely identifies a cluster
of route reflectors and their clients. The cluster ID may be entered in
dotted notation like an IPv4 address or as an integer.
Default Configuration
A route reflector whose cluster ID has not been configured uses its BGP
router ID (configured with bgp router-id) as the cluster ID.
Command Mode
BGP Router Configuration mode
User Guidelines
A route reflector and its clients form a cluster. Since a cluster with a single
route reflector has a single point of failure, a cluster may be configured with
multiple route reflectors. To avoid sending multiple copies of a route to a
client, each route reflector in a cluster should be configured with the same
cluster ID. Route reflectors with the same cluster ID must have the same set
of clients; otherwise, some routes may not be reflected to some clients. The
same cluster ID is used for both IPv4 and IPv6 route reflection.
Command History
Introduced in version 6.2.0.1 firmware.
Example
console(config-router)#bgp cluster-id 1
bgp default local-preference
Use the bgp default local-preference command to enable the network
operator to specify the default local preference. Local preference is an
attribute sent to internal peers to indicate the degree of preference for a
route. A route with a numerically higher local value is preferred over a route
with a numerically lower value.
Layer 3 Routing Commands 1229
Syntax
bgp default local-preference number
no bgp default local-preference
• number—The value to use as the local preference for routes advertised to
internal peers. The range is 0 to 4,294,967,295.
Default Configuration
If no other value is configured, BGP advertises a local preference of 100 in
UPDATE messages to internal peers.
Command Mode
BGP Router Configuration mode
User Guidelines
BGP assigns the default local preference to each path received from an
external peer. (BGP retains the LOCAL_PREF on paths received from
internal peers.) BGP also assigns the default local preference to locally-
originated paths. If you change the default local preference, the local
preference on paths previously received is not changed; it is only applied to
paths received after the change. To apply the new local preference to paths
previously received, use clear ip bgp to force a soft inbound reset.
Command History
Introduced in version 6.2.0.1 firmware.
Example
console(config-router)#bgp default local-preference 1
bgp fast-external-fallover
Use this command to configure BGP to immediately reset the adjacency with
an external peer if the routing interface to the peer goes down.
Syntax
bgp fast-external-fallover
Layer 3 Routing Commands 1230
no bgp fast-external-fallover
Default Configuration
Fast external fallover is enabled by default.
Command Mode
BGP Router Configuration mode
User Guidelines
When BGP gets a routing interface down event, BGP drops the adjacency
with all external peers whose IPv4 address is in one of the subnets on the
failed interface. This behavior can be overridden for specific interfaces using
ip bgp fast-external-fallover.
Command History
Introduced in version 6.2.0.1 firmware.
Example
console(config-router)# bgp fast-external-fallover
bgp fast-internal-fallover
Use the bgp fast-internal-fallover command to configure BGP to
immediately reset the adjacency with an internal peer when there is a loss of
reachability to an internal peer.
Syntax
bgp fast-internal-fallover
no bgp fast-internal-fallover
Default Configuration
By default, fast internal fallover is enabled.
Command Mode
BGP Router Configuration mode
Layer 3 Routing Commands 1231
User Guidelines
BGP tracks the reachability of each internal peer’s IP address. If a peer
becomes unreachable (that is, the RIB no longer has a non-default route to
the peer’s IP address), BGP drops the adjacency.
Command History
Introduced in version 6.2.0.1 firmware.
Example
console(config-router)# bgp fast-internal-fallover
bgp listen
Use the bgp listen command to create an IPv4 listen range and associates it
with the specified peer template. The bgp listen command also activates the
IPv4 or IPv6 BGP dynamic neighbors feature. Use the no form of the
command to remove an IPv4 or IPv6 listen range.
Syntax
bgp listen { limit max-number | range network/length [ inherit peer peer-
template-name ] }
no bgp listen { limit | range network/length [ inherit peer peer-template-
name ] }
•
limit
max-number
— Sets a maximum limit number of IPv4 BGP
dynamic subnet range neighbors. The number is from 1 to 100. Default is
20.
•
range network/length
— Specifies a listen subnet range that is to be
created. The IP prefix representing a subnet is specified by network, and
length is the subnet mask in bits. The network argument can be valid IPv4
prefix (BGP Router Configuration mode or IPv4 Address Family
Configuration mode) or an IPv6 prefix (IPv6 Address Family
Configuration mode).
•
inherit peer peer-template-name
— (Optional) Specifies a BGP peer
template name that is to be associated with the specified listen subnet
range and inherited with dynamically created neighbors.
Layer 3 Routing Commands 1232
Default Configuration
No subnets are associated with a BGP listen subnet range, and the BGP
dynamic neighbor feature is not activated.
Command Mode
BGP Router Configuration mode, IPv4 Address Family Configuration mode,
IPv6 Address Family Configuration mode
User Guidelines
This command can be used to configure IPv4 BGP neighbors (BGP Router
Configuration mode) as well as IPv6 BGP neighbors (IPv6 Address Family
Configuration mode).
Use the limit keyword and max-number argument to define the global
maximum number of IPv4 BGP dynamic neighbors that can be created.
BGP dynamic neighbors are configured using a range of IP addresses. Each
range can be configured as a subnet IP address. After a subnet range is
configured for a BGP peer group, and a TCP session is initiated by the
neighbor for an IP address in the subnet range, a new BGP neighbor is
dynamically configured on the local switch. Dynamically created neighbors
are not displayed in the running-config.
It is acceptable that the template peer name is not specified. In this case, all
dynamic neighbors are created with the default parameters. The template
peer name can be assigned/changed for a listen range at any time.
The limit on the total number of both IPv4 and IPv6 listen range groups is 10.
Command History
Introduced in version 6.3.0.1 firmware.
Example
The following example shows how to create an IPv4 listen range with a
template to be inherited with dynamically created BGP neighbors:
console#configure
console(config)# router bgp 100
console(config-router)#bgp listen limit 10
console(config-router)#bgp listen range 10.12.0.0/16
console(config-router)#bgp listen range 10.27.0.0/16 inherit peer ABC
Layer 3 Routing Commands 1233
bgp log-neighbor-changes
Use the bgp log-neighbor-changes command to enable logging of adjacency
state changes.
Syntax
bgp log-neighbor-changes
no bgp log-neighbor-changes
Default Configuration
Neighbor state changes are not logged by default.
Command Mode
BGP Router Configuration mode
User Guidelines
Both backward and forward adjacency state changes are logged. Forward state
changes, except for transitions to the Established state, are logged at the
Informational severity level. Backward state changes and forward changes to
Established are logged at the Notice severity level
Command History
Introduced in version 6.2.0.1 firmware.
Example
console(config-router)# bgp log-neighbor-changes
bgp maxas-limit
Use this command to specify a limit on the length of AS Paths that BGP
accepts from its neighbors. To revert the limit to its default, use the no form
of this command.
Syntax
bgp maxas-limit limit
no bgp maxas-limit
Layer 3 Routing Commands 1234
• limit—The maximum length of an AS Path that BGP accepts from its
neighbors. The length is the number of autonomous systems listed in the
path. The limit may be set to any value from 1 to 100.
Default Configuration
BGP accepts AS paths with up to 75 AS numbers
Command Mode
BGP Router Configuration mode
User Guidelines
If BGP receives a path whose AS PATH attribute is longer than the configured
limit, BGP sends a NOTIFICATION and resets the adjacency.
Command History
Introduced in version 6.2.0.1 firmware.
Example
console(config-router)#bgp maxas-limit 1
bgp router-id
Use the bgp router-id command to set the BGP router ID.
Syntax
bgp router-id router-id
no bgp router-id
• router-id—An IPv4 address in dotted quad notation. This is the address for
BGP to use as it’s router ID.
Default Configuration
There is no default BGP router ID. The system does not select a router ID
automatically. One must be configured manually.
Layer 3 Routing Commands 1235
Command Mode
BGP Router Configuration mode
User Guidelines
The BGP router ID must be a valid IPv4 unicast address, but is not required
to be an address assigned to the router. The router ID is specified in the
dotted notation of an IPv4 address. Changing the router ID disables and re-
enables BGP, causing all adjacencies to be re-established.
BGP is enabled by default once the administrator has specified the local AS
number with the router bgp command and configured a router ID with the
bgp router-id command.
BGP is not operable until a BGP router ID has been assigned. The BGP
administrative state (as set by the enable command) has no operational effect
until a router id is assigned to the BGP router.
Command History
Introduced in version 6.2.0.1 firmware.
Example
console(config-router)#bgp router-id 10.27.21.142
clear ip bgp
Use the clear ip bgp command to reset peering sessions with all of a subnet of
BGP peers. The command arguments specify which peering sessions are reset
and the type of reset performed.
Syntax
clear ip bgp [vrf vrf-name]{* | as-number | ipv4-address | ipv6-address [
interface interface-id ] {listen range network/length}} [soft [in | out]]
• vrf-name—This optional parameter identifies the VRF for which to reset
peering sessions. If not given, the default sessions are reset.
•*— Reset adjacency with every BGP peer.
• as-number— Only reset adjacencies with BGP peers in the given
autonomous system.
Layer 3 Routing Commands 1236
• ipv4-address—Only reset the adjacency with a single specified peer with a
given IPv4 peer address.
• ipv6-address [ interface interface-id ]—Only reset the adjacency with a
single specified peer with a given IPv6 peer address. If the interface-id is
given, only reset the adjacency on the specified interface. The interface id
must be a routing interface (a routed VLAN identifier). An adjacency that
is formed with the autodetect feature cannot be reset with the command.
•listen range – Reset all adjacencies that are included in the listen subnet
range.
•soft—BGP resends all updates to the neighbors and reprocesses updates
from the neighbors.
•in | out—If the in keyword is given, updates from the neighbor are
reprocessed. If the out keyword is given, updates are resent to the neighbor.
If neither keyword is given, updates are reprocessed in both directions.
Default Configuration
There is no default configuration.
Command Mode
Privileged Exec mode
User Guidelines
Soft inbound reset causes BGP to send a Route Refresh request to each
neighbor being reset. If a neighbor does not support the Route Refresh
capability, the updated policy is applied to routes previously received from the
neighbor.
When a change is made to an outbound policy, BGP schedules an outbound
soft reset to update neighbors according to the new policy.
This command applies to routes for all address families.
When clear ip bgp is issued for any peers, any pending policy configuration
changes are applied, for all global policy and for all peers.
Command History
Introduced in version 6.2.0.1 firmware. Updated in version 6.3.0.1 firmware.
Layer 3 Routing Commands 1237
Example
console(config-router)#clear ip bgp
clear ip bgp counters
Use the clear ip bgp counters resets all BGP counters to 0. These counters
include send and receive packet and prefix counters for all neighbors.
Syntax
clear ip bgp [vrf vrf-name] counters
• vrf-name—This optional parameter identifies the VRF for which to clear
counters. If not given, the default VRF counters are cleared.
Default Configuration
There is no default configuration.
Command Mode
Privileged Exec mode
User Guidelines
There are no user guidelines.
Command History
Introduced in version 6.3.0.1 firmware.
Example
console(config-router)#clear ip bgp counters
default-information originate (BGP Router
Configuration)
Use the default-information originate command to enable BGP to originate
a default route.
Syntax
default-information originate [ always ]
Layer 3 Routing Commands 1238
no default-information originate Default Configuration
•always—Allows BGP to originate a default route even if the common
routing table has no default route.
Default Configuration
By default BGP does not originate a default route. If a default route is
redistributed into BGP, BGP does not advertise the default route unless the
default-information originate command has been given. The always option is
disabled by default.
Command Mode
BGP Router Configuration mode
User Guidelines
Origination of the default route is not subject to a prefix filter configured
with the distribute-list out command.
Command History
Introduced in version 6.2.0.1 firmware.
Example
console(config-router)#default-information originate
default-information originate (IPv6 Address
Family Configuration)
Use this command in IPv6 Address Family Config mode to allow BGP to
originate an IPv6 default route.
Syntax
default-information originate [ always ]
no default-information originate Default Configuration
•always—Allows BGP to originate a default route even if the common
routing table has no default route.
Layer 3 Routing Commands 1239
Default Configuration
By default BGP does not originate a default route. If a default route is
redistributed into BGP, BGP does not advertise the default route unless the
default-information originate command has been given. The always option is
disabled by default.
Command Mode
IPv6 Address Family Configuration mode
User Guidelines
Origination of the default route is not subject to a prefix filter configured
with the distribute-list out command.
Command History
Introduced in version 6.2.0.1 firmware.
Example
console(config-router-af)#default-information originate
default metric (BGP Router Configuration)
This command sets the value of the Multi Exit Discriminator (MED)
attribute on routes redistributed into BGP when no metric has been specified
in the redistribute command.
Syntax
default-metric value
no default-metric
• value—The value to as the MED. The range is 1 to 4,294,967,295.
Default Configuration
By default, no default metric is set and no MED is included in redistributed
routes.
Layer 3 Routing Commands 1240
Command Mode
BGP Router Configuration mode
User Guidelines
There are no user guidelines.
Command History
Introduced in version 6.2.0.1 firmware.
Example
console(config-router)#default-metric 1
default metric (IPv6 Address Family
Configuration)
This command sets the metric of redistributed IPv6 routes when a metric is
not configured in the redistribute command.
Syntax
default-metric value
no default-metric
• value—The value to as the MED. The range is 1 to 4,294,967,295.
Default Configuration
By default, no default metric is set and no MED is included in redistributed
routes.
Command Mode
IPv6 Address Family Configuration mode
User Guidelines
There are no user guidelines.
Layer 3 Routing Commands 1241
Command History
Introduced in version 6.2.0.1 firmware.
Example
console(config-router-af)#default-metric 1
distance
Use this command to set the preference (also known as administrative
distance) of BGP routes to specific destinations.
Syntax
distance distance [ prefix wildcard-mask [prefix-list] ]
no distance distance [ prefix wildcard-mask [prefix-list] ]
• distance—The preference value for matching routes. The range is 1 to 255.
• prefix wildcard-mask— Routes learned from BGP peers whose address falls
within this prefix are assigned the configured distance value. The wildcard-
mask is an inverted network mask whose 1 bits indicate the don’t care
portion of the prefix.
• prefix-list—A prefix list can optionally be specified to limit the distance
value to a specific set of destination prefixes learned from matching
neighbors.
Default Configuration
BGP assigns preference values according to the distance bgp command,
unless overridden for specific neighbors or prefixes by this command.
Command Mode
BGP Router Configuration mode
User Guidelines
You may enter up to 128 instances of this command. Two instances of this
command may not have the same prefix and wildcard mask. If a distance
command is configured that matches an existing distance command’s prefix
and wildcard mask, the new command replaces the existing command. There
Layer 3 Routing Commands 1242
can be overlap between the prefix and mask configured for different
commands. When there is overlap, the command whose prefix and wildcard
mask are the longest match for a neighbor’s address is applied to routes from
that neighbor.
An ECMP route’s distance is determined by applying distance commands to
the neighbor that provided the best path.
The distance command is not applied to existing routes. To apply
configuration changes to the distance command itself or the prefix list to
which a distance command applies, you must force a hard reset of affected
neighbors.
Command History
Introduced in version 6.2.0.1 firmware.
Example
To set the preference value of the BGP route to 100.0.0.0/8 from neighbor
10.1.1.1, use the following distance command:
(R1) (Config)# ip prefix-list pfx-list1 permit 100.0.0.0/8
(R1) (Config)# router bgp 1
(R1) (Config-router)# distance 25 10.1.1.1 0.0.0.0 pfx-list1
To set the preference value to 12 for all BGP routes from neighbor 10.1.1.1,
use the following distance command:
(R1) (Config-router)# distance 12 10.1.1.1 0.0.0.0
To set the preference value of all routes within 100.0.0.0/8 from any neighbor,
use the following distance command:
(R1) (Config)# ip prefix-list pfx-list2 permit 100.0.0.0/8 ge 8
(R1) (Config)# router bgp 1
(R1) (Config-router)#distance 25 0.0.0.0 255.255.255.255 pfx-list2
distance bgp (BGP Router Configuration)
Use this command to set the preference (also known as administrative
distance) of BGP routes.
Syntax
distance bgp external-distance internal-distance local-distance
no distance bgp
Layer 3 Routing Commands 1243
• external-distance—The preference value for routes learned from external
peers. The range is 1 to 255.
• internal-distance—The preference value for routes learned from internal
peers. The range is 1 to 255.
• local-distance—The preference value for locally-originated routes. The
range is 1 to 255.
Default Configuration
• external-distance—20
• internal-distance—200
• local-distance—200
Command Mode
BGP Router Configuration mode
User Guidelines
Different distance values can be configured for routes learned from external
peers, routes learned from internal peers, and BGP routes locally originated. A
route with a lower preference value is preferred to a route with a higher
preference value to the same destination. Routes with a preference of 255
may not be selected as best routes and used for forwarding.
The change to the default BGP distances does not affect existing routes. To
apply a distance change to existing routes, you must force the routes to be
deleted from the RIB and relearned, either by resetting the peers from which
the routes are learned or by disabling and re-enabling BGP.
Command History
Introduced in version 6.2.0.1 firmware.
Example
console(config-router)#distance bgp 20 200 200
distance bgp (IPv6 Address Family Configuration)
Use this command to set the preference (also known as administrative
distance) of BGP routes.
Layer 3 Routing Commands 1244
Syntax
distance bgp external-distance internal-distance local-distance
no distance bgp
• external-distance—The preference value for routes learned from external
peers. The range is 1 to 255.
• internal-distance—The preference value for routes learned from internal
peers. The range is 1 to 255.
• local-distance—The preference value for locally-originated routes. The
range is 1 to 255.
Default Configuration
• external-distance—20
• internal-distance—200
• local-distance—200
Command Mode
IPv6 Address Family Configuration mode
User Guidelines
Different distance values can be configured for routes learned from external
peers, routes learned from internal peers, and BGP routes locally originated. A
route with a lower preference value is preferred to a route with a higher
preference value to the same destination. Routes with a preference of 255
may not be selected as best routes and used for forwarding.
The change to the default BGP distances does not affect existing routes. To
apply a distance change to existing routes, you must force the routes to be
deleted from the RIB and relearned, either by resetting the peers from which
the routes are learned or by disabling and re-enabling BGP.
Command History
Introduced in version 6.2.0.1 firmware.
Example
console(config-router-af)#distance bgp 20 200 200
Layer 3 Routing Commands 1245
distribute-list prefix in
Use this command to configure a filter that restricts the routes that BGP
accepts from all neighbors based on destination prefix.
Syntax
distribute-list prefix list-name in
no distribute-list prefix list-name in
• list-name—A prefix list used to filter routes received from all peers based
on destination prefix.
Default Configuration
No distribute lists are defined by default.
Command Mode
• BGP Router Configuration mode
• IPv6 Address Family Configuration mode
User Guidelines
The distribute list is applied to all routes received from all neighbors. Only
routes permitted by the prefix list are accepted. If the command refers to a
prefix list that does not exist, the command is accepted and all routes are
permitted.
Command History
Introduced in version 6.2.0.1 firmware.
Example
console(config-router)#distribute-list prefix 255 in
distribute-list prefix out (BGP Router
Configuration)
Use this command to configure a filter that restricts the advertisement of
routes based on destination prefix.
Layer 3 Routing Commands 1246
Syntax
distribute-list prefix list-name out [ protocol | connected | static ]
no distribute-list prefix list-name out [ protocol | connected | static ]
• prefix list-name—A prefix list used to filter routes advertised to neighbors.
• protocol|connected|static—(Optional) When a route source is specified,
the distribute list applies to routes redistributed from that source. Only
routes that pass the distribute list are redistributed. The protocol value
may be either rip or ospf.
Default Configuration
No distribute lists are defined by default.
Command Mode
BGP Router Configuration mode
User Guidelines
Only one instance of this command may be defined for each route source
(RIP, OSPF, static, connected). One instance of this command may also be
configured as a global filter for outbound prefixes.
If the command refers to a prefix list that does not exist, the command is
accepted and all routes are permitted.
When a distribute list is added, changed, or deleted for route redistribution,
BGP automatically reconsiders all best routes.
Command History
Introduced in version 6.2.0.1 firmware.
Example
console(config-router)#distribute-list prefix 255 out
distribute-list prefix out (IPv6 Address Family
Configuration)
Use this command to apply an IPv6 prefix list to IPv6 routes advertised via
BGP.
Layer 3 Routing Commands 1247
Syntax
distribute-list prefix list-name out [ protocol | connected | static ]
no distribute-list prefix list-name out [ protocol | connected | static ]
• prefix list-name—A prefix list used to filter routes advertised to neighbors.
• protocol|connected|static—(Optional) When a route source is specified,
the distribute list applies to routes redistributed from that source. Only
routes that pass the distribute list are redistributed. The protocol value
may be either rip or ospf.
Default Configuration
No distribute lists are defined by default.
Command Mode
IPv6 Address Family Configuration mode
User Guidelines
Only one instance of this command may be defined for each route source
(RIP, OSPF, static, connected). One instance of this command may also be
configured as a global filter for outbound prefixes.
If the command refers to a prefix list that does not exist, the command is
accepted and all routes are permitted.
When a distribute list is added, changed, or deleted for route redistribution,
BGP automatically reconsiders all best routes.
Command History
Introduced in version 6.2.0.1 firmware.
Example
console(config-router-af)#distribute-list prefix 255 out
enable
This command globally enables BGP, while retaining the configuration.
Layer 3 Routing Commands 1248
Syntax
enable
no enable
Default Configuration
By default, BGP is enabled once the administrator has specified the local AS
number with the router bgp command and configured a router id with bgp
router-id.
Command Mode
BGP Router Configuration mode
User Guidelines
When disabling BGP using no enable, BGP retains its configuration. The no
router bgp command resets all BGP configuration to default values.
When BGP is administratively disabled, BGP sends a NOTIFICATION
message to each peer with a Cease error code.
The no enable command persists in the running-config (and startup-config)
only when a router-id has assigned using the bgp router-id command. If no
router-id has been assigned, the administrative state will not appear in the
running-config or in the startup-config.
Command History
Introduced in version 6.2.0.1 firmware.
Example
console(config-router)#enable
ip as-path access-list
Use this command to create an AS path access list. To delete an AS path
access list, use the no form of this command.
Syntax
ip as-path access-list as-path-list-number { permit | deny } regexp
Layer 3 Routing Commands 1249
no ip as-path access-list as-path-list-number
• as-path-list-number—A number from 1 to 500 uniquely identifying the
list. All AS path access list commands with the same as-path-list-number
are considered part of the same list.
•permit—Permit routes whose AS Path attribute matches the regular
expression.
•deny—Deny routes whose AS Path attribute matches the regular
expression.
• regexp—A regular expression used to match the AS path attribute of a
BGP path where the AS path is treated as an ASCII string.
Default Configuration
No AS path lists are configured by default. There are no default values for any
of the parameters of this command.
Command Mode
Global Configuration mode
User Guidelines
An AS path access list filters BGP routes on the AS path attribute of a BGP
route. The AS path attribute is a list of the autonomous system numbers
along the path to the destination. An AS path access list is an ordered
sequence of statements. Each statement specifies a regular expression and a
permit or deny action. If the regular expression matches the AS path of the
route expressed as an ASCII string, the route is considered a match and the
statement’s action is taken. An AS path list has an implicit deny statement at
the end. If a path does not match any of the statements in an AS path list, the
action is considered to be deny.
Once an path list is created, individual statements cannot be deleted from it.
To remove an individual statement, delete the AS path list and recreate it
without the statement to be deleted.
Statements are applied in the order in which they are created. New
statements are added to the end of the list. The statement with the first
matching regular expression is applied.
Layer 3 Routing Commands 1250
Up to 128 AS path access lists can be configured, with up to 64 statements
each. To enter the question mark within a regular expression, first enter
CTRL-V to prevent the CLI from interpreting the question mark as a request
for help.
Command History
Introduced in version 6.2.0.1 firmware.
Example
In the following example, the router is configured to reject routes received
from neighbor 172.20.1.1 with an AS path that indicates the route originates
in or passes through AS 100.
console(config)# ip as-path access-list 1 deny _100_
console(config)# ip as-path access-list 1 deny ^100$
console(config)# router bgp 1
Special Character/Symbol Behavior
asterisk * Matches zero or more sequences of the
pattern.
brackets [] Designates a range of single-character
patterns.
caret ^ Matches the beginning of the input
string.
dollar sign $ Matches the end of the input string.
hyphen - Separates the end points of a range.
period . Matches any single character, including
white space.
plus sign + Matches 1 or more sequences of the
pattern.
question mark ? Matches 0 or 1 occurrences of the
pattern.
underscore _ Matches a comma (,), left brace ({),
right brace (}), left parenthesis, right
parenthesis, the beginning of the input
string, the end of the input string, or a
space.
Layer 3 Routing Commands 1251
console(config-router)# neighbor 172.20.1.1 remote-as 200
console(config-router)# neighbor 172.20.1.1 filter-list 1 in
ip bgp-community new-format
Use this command to display BGP standard communities in AA:NN format.
To display BGP standard communities as 32-bit integers, use the no form of
this command.
Syntax
ip bgp-community new-format
no ip bgp-community new-format
Default Configuration
Standard communities are displayed in AA:NN format.
Command Mode
Global Configuration mode
User Guidelines
RFC 1997 specifies that the first two bytes of a community number are
considered to be an autonomous system number. The new format displays a
community number as the ASN followed by a 16-bit AS-specific number.
Command History
Introduced in version 6.2.0.1 firmware.
Example
console(config)# ip bgp-community new-format
ip bgp fast-external-fallover
Use the ip bgp fast-external-fallover command to configure fast external
failover behavior for a specific routing interface.
Syntax
ip bgp fast-external-fallover { permit | deny }
Layer 3 Routing Commands 1252
no ip bgp fast-external-fallover
•permit—Enables fast external fallover on the interface, regardless of the
global configuration of the feature.
•deny—Disables fast external fallover on the interface, regardless of the
global configuration of the feature.
Default Configuration
Fast external fallover is enabled globally by default. There is no default
interface configuration.
Command Mode
Interface (VLAN) Configuration mode
User Guidelines
This command overrides for a specific routing interface the fast external
fallover behavior configured globally. If permit is specified, the feature is
enabled on the interface, regardless of the global configuration. If deny is
specify, the feature is disabled on the interface, regardless of the global
configuration. The command no ip bgp fast-external-fallover clears the
interface settings and indicates that the global settings should be used.
Example
console(config-if-vlan1)#ip bgp fast-external-fallover permit
ip community-list
Use this command to create or configure a BGP community list. To delete a
community list, use the no form of this command.
Syntax
ip community-list standard list-name {permit | deny} [community-number]
[no-advertise] [no-export] [no-export-subconfed] [no-peer]
no ip community-list standard list-name
•standard list-name—Identifies a named standard community list. The
name may contain up to 32 characters.
•permit—Indicates that matching routes are permitted.
Layer 3 Routing Commands 1253
•deny—Indicates that matching routes are denied.
• community-number—From zero to sixteen community numbers
formatted as a 32-bit integers or in AA:NN format, where AA is a 2-byte
autonomous system number and NN is a 16 bit integer. The range is 1 to
4,294,967,295 (any 32-bit integer other than 0). Communities are
separated by spaces.
•no-advertise—The well-known standard community: NO_ADVERTISE
(0xFFFFFF02), which indicates the community is not to be advertised.
•no-export—The well-known standard community: NO_EXPORT,
(0xFFFFFF01), which indicates the routes are not to be advertised outside
the community.
•no-export-subconfed—The well-known standard community:
NO_EXPORT_SUBCONFED (0xFFFFFF03), which indicates the routes
are not to be advertised to external BGP peers.
Default Configuration
No community lists are configured by default.
Command Mode
Global Configuration mode
User Guidelines
A community list statement with no community values is considered a match
for all routes, regardless of their community membership. So the statement
ip community-list bullseye permit
is a “permit all” statement.
A community number may be entered in either format, as a 32-bit integer or a
pair of 16-bit integers separated by a colon, regardless of whether the ip bgp-
community new-format command is active. Up to 16 communities, including
the well-known communities, can be listed in a single command. Up to 32
statements may be configured with a given community list name. Up to 128
unique community list names may be configured.
Successive invocations of the command are additive in that they add to the
configured communities up to the maximum.
Layer 3 Routing Commands 1254
If more than the maximum allowed communities are configured, the excess
entries are ignored.
Command History
Introduced in version 6.2.0.1 firmware.
Example
console(config)# ip community-list standard test permit
ip extcommunity-list
Use the ip extcommunity-list command to create an extended community
list to configure VRF route filtering. Use the no form of the command to
configure VRF route filtering.
Syntax
ip extcommunity-list standard-list [permit | deny][rt value] [soo value]
no ip extcommunity-list standard-list
•
standard-list
— A standard list number from 1 to 99 that identifies one or
more permit or deny groups of extended communities.
•
permit | deny
— Permits or denies access for a matching condition. Once
a permit value has been configured to match a given set of extended
communities, the extended community list defaults to an implicit deny for
all other values.
•rt value— Specifies the route target (RT). extended community value. The
route target can be configured only with standard extended community
lists. This value can be entered in one of the following formats:
– 16-bit AS number :a 32-bit value (Ex : 100:11)
– 32-bit IPv4 address :a 16-bit value (Ex : 10.1.1.1:22)
•soo value— Specifies the site of origin (SOO) extended community value.
The site of origin can be configured only with standard extended
community lists. This value can be entered in one of the following formats:
– 16-bit AS number :a 32-bit value (Ex : 100:11)
– 32-bit IPv4 address :a 16-bit value (Ex : 10.1.1.1:22)
Layer 3 Routing Commands 1255
Default Configuration
No subnets are associated with a BGP listen subnet range, and the BGP
dynamic neighbor feature is not activated.
Command Mode
Global Config mode
User Guidelines
This command is used to configure numbered extended community lists.
Extended community attributes are used to filter routes for VRFs. All the
standard rules of access lists apply to the configuration of extended
community lists. The route target (RT) and site of origin (SOO) extended
community attributes are supported by the standard range of extended
community lists.
Once the first permit/deny clause has been entered for a community list,
subsequent permit/deny clauses with the same list identifier are appended to
the end of the list.
Expanded community list and regular expressions are not supported.
Route Target Extended Community Attribute
The route target (RT) extended communities attribute is configured with the
rt keyword. This attribute is used to identify a set of sites and VRFs that may
receive routes that are tagged with the configured route target. Configuring
the route target extended attribute with a route allows that route to be placed
in the per-site forwarding tables that are used for routing traffic that is
received from corresponding sites.
Site of Origin Extended Community Attribute
The site of origin (SOO) extended communities attribute is configured with
the soo keyword. This attribute uniquely identifies the site from which the
provider edge (PE) router learned the route. All routes learned from a
particular site must be assigned the same site of origin extended community
attribute, regardless if a site is connected to a single PE router or multiple PE
routers. Configuring this attribute prevents routing loops from occurring
when a site is multi-homed. The SOO extended community attribute is
configured using a route map in both outbound and inbound directions. The
SOO should not be configured for stub sites or sites that are not multi-homed
Layer 3 Routing Commands 1256
Command History
Introduced in version 6.3.0.1 firmware.
Example
The following example shows the creation of an extended community list
that permits routes from route target 1:1 and site of origin 2:2 and denies
routes from route target 3:3 and 4:4.
(R1)(Config)# ip extcommunity-list 10 permit rt 1:1
(R1)(Config)# ip extcommunity-list 10 permit rt 2:2
(R1)(Config)# ip extcommunity-list 20 deny rt 3:3 rt 4:4
List 10 shows a logical OR condition which means the first match is
processed.
List 20 shows a logical AND condition which means all the community values
must match in order for list 20 to be processed.
The following example show how the extended communities list is used by
route-maps.
(R1)(config)# route-map SEND_OUT permit 10
(R1)(config-route-map)# match extcommunity 10
(R1)(config-route-map)# set extcommunity rt 10:10 additive
(R1)(config-route-map)# exit
The following example shows the usage of extended communities attribute in
BGP configuration mode and sending of the extended communities attribute
to external peer at 1.1.1.1.
(R1)(Config)# router bgp 1
(R1)(Config-router)# neighbor 1.1.1.1 remote-as 2
(R1)(Config-router)# neighbor 1.1.1.1 route-map SEND_OUT out
(R1)(Config-router)# address-family vpnv4 unicast
(R1)(Config-router-af)# neighbor 1.1.1.1 send-community extended
(R1)(Config-router-af)# neighbor 1.1.1.1 activate
match extcommunity
Use the match extcommunity command to match BGP extended community
list attributes. Use the no form of this command to remove the match
extcommunity from the configuration and BGP extended community list
attribute entry.
NOTE: This command is effective only if BGP is running on the router.
Layer 3 Routing Commands 1257
Syntax
match extcommunity standard-list
no match extcommunity standard-list
•
standard-list
—A standard list identifier that identifies one or more permit
or deny groups of extended communities. The range if from 0–100.
Default Configuration
BGP extended community list attributes are not matched.
Command Mode
Route Map Configuration mode
User Guidelines
The match extcommunity command is used to configure match clauses that
use extended community attributes in route maps. All the standard rules of
match and set clauses apply to the configuration of extended community
attributes.
Command History
Introduced in version 6.3.0.1 firmware.
Example
The following example shows that the routes that match extended
community list 10 will set the additional route target attribute to 10:10.
(R1)(config)# ip extcommunity-list 10 permit rt 1:1
(R1)(config)# route-map SEND_OUT permit 10
(R1)(config-route-map)# match extcommunity 10
(R1)(config-route-map)# set extcommunity rt 10:10 additive
(R1)(config-route-map)# exit
maximum-paths (BGP Router Configuration)
Use this command to specify the maximum number of next hops BGP may
include in an Equal Cost Multipath (ECMP) route derived from paths
received from neighbors outside the local autonomous system.
Layer 3 Routing Commands 1258
Syntax
maximum-paths number-of-paths
no maximum-paths
• number-of-paths—The maximum number of next hops in a BGP route.
The range is from 1 to 32 unless the platform or currently selected SDM
template further restricts the range.
Default Configuration
BGP advertises a single next hop by default.
Command Mode
BGP Router Config
User Guidelines
Paths are considered for ECMP when their attributes are the same (local
preference, AS path, origin, MED, peer type and IGP distance). When BGP
uses multiple paths in an ECMP route, BGP still selects one path as the best
path and advertises only that path to its peers.
Refer to Appendix A-1 in the Users Configuration Guide for the default per
platform ECMP ranges using the entry “Number of ECMP next hops per
route.” The number of ECMP next hops is dependent on the chosen STM
template and may be greater or lesser than the default. Use the show sdm
prefer command to display the ECMP Next Hops for the currently selected
template.
Command History
Introduced in version 6.2.0.1 firmware.
Example
console(config-router)#maximum-paths 5
Layer 3 Routing Commands 1259
maximum-paths (IPv6 Address Family
Configuration)
Use this command to limit the number of ECMP next hops in IPv6 routes
from external peers.
Syntax
maximum-paths number-of-paths
no maximum-paths
• number-of-paths—The maximum number of next hops in a BGP route.
The range is from 1 to 32 unless the platform or SDM template further
restricts the range.
Default Configuration
BGP advertises a single next hop by default.
Command Mode
IPv6 Address Family Configuration
User Guidelines
Paths are considered for ECMP when their attributes are the same (local
preference, AS path, origin, MED, peer type and IGP distance). When BGP
uses multiple paths in an ECMP route, BGP still selects one path as the best
path and advertises only that path to its peers.
The following ranges are supported:
• N40xx—1-4
• N30xx—1-16
• N20xx—1-1
Command History
Introduced in version 6.2.0.1 firmware.
Example
console(config-router-af)#maximum-paths 5
Layer 3 Routing Commands 1260
maximum-paths ibgp (BGP Router Configuration)
Use this command to specify the maximum number of next hops BGP may
include in an Equal Cost Multipath (ECMP) route derived from paths
received from neighbors within the local autonomous system.
Syntax
maximum-paths ibgp number-of-paths
no maximum-paths ibgp
• number-of-paths—The maximum number of next hops in a BGP router.
The range is from 1 to 32 unless the platform or SDM template further
restricts the range.
Default Configuration
BGP uses a single next hop by default.
Command Mode
BGP Router Configuration mode
User Guidelines
Paths are considered for ECMP when their attributes are the same (local
preference, AS path, origin, MED, and IGP distance) and the paths are
received from different routers.When BGP uses multiple paths in an ECMP
route, BGP still selects one path as the best path and advertises only that path
to its peers.
The following ranges are supported in the default SDM template:
• N40xx 1-4
• N30xx 1-4
• N20xx 1-1
Configure the data-center version of the desired SDM template to increase
the ECMP paths.
Command History
Introduced in version 6.2.0.1 firmware.
Layer 3 Routing Commands 1261
Example
console(config-router)#maximum-paths ibgp 5
maximum-paths ibgp (IPv6 Address Family
Configuration)
Use this command to limit the number of ECMP next hops in IPv6 routes
from internal peers.
Syntax
maximum-paths ibgp number-of-paths
no maximum-paths ibgp
• number-of-paths—The maximum number of next hops in a BGP router.
The range is from 1 to 32 unless the platform or SDM template further
restricts the range.
Default Configuration
BGP uses a single next hop by default.
Command Mode
IPv6 Address Family Configuration mode
User Guidelines
Paths are considered for ECMP when their attributes are the same (local
preference, AS path, origin, MED, and IGP distance) and the paths are
received from different routers.When BGP uses multiple paths in an ECMP
route, BGP still selects one path as the best path and advertises only that path
to its peers.
The following ranges are supported in the default SDM template:
• N40xx 1-4
• N30xx 1-4
• N20xx 1-1
Configure the data-center version of the desired SDM template to increase
the ECMP paths.
Layer 3 Routing Commands 1262
Command History
Introduced in version 6.2.0.1 firmware.
Example
console(config-router-af)#maximum-paths ibgp 5
neighbor activate
Use this command to enable the exchange of IPv6 routes with a neighbor. To
disable the exchange of IPv6 addresses, use the no form of this command.
Syntax
neighbor { ip-address | ipv6-address [ interface interface-id ]| autodetect
interface interface-id }} activate
no neighbor { ip-address | ipv6-address [ interface interface-id ]| autodetect
interface interface-id }} activate
•
ip-address
—The IP address of a peer.
• ipv6-address—The IPv6 address of a peer.
• interface-id — If the neighbor’s IPv6 address is a link local address, the
local interface must also be specified. This must be a VLAN routing
interface and is specified using the VLAN keyword.
•
autodetect interface interface-id
—(Optional) The routing interface on
which the neighbor’s link local IPv6 address is auto detected. The
interface-id must be a VLAN routing interface. Range is 1–4093.
Default Configuration
The exchange of IPv6 routes is disabled by default.
Command Mode
IPv4 Address Family Configuration mode, IPv6 Address Family
Configuration mode
User Guidelines
The neighbor address must be the same IP address used in the neighbor
remote-as command to create the peer.
Layer 3 Routing Commands 1263
When IPv6 is enabled or disabled for a neighbor, the adjacency is brought
down and restarted to communicate to the change to the peer. Completely
configure IPv6 policy for the peer before activating the peer.
Command History
Introduced in version 6.2.0.1 firmware.
Updated in version 6.3.0.1 firmware.
Example
The following example enables the exchange of IPv6 routes with the external
peer at 172.20.1.2 and sets the next hop for IPv6 routes sent to that peer.
console (config)# router bgp 1
console (config-router)# neighbor 172.20.1.2 remote-as 2
console (config-router)# address-family ipv6
console (Config-router-af)# neighbor 172.20.1.2 activate
console (Config-router-af)# neighbor 172.20.1.2 route-map SET-V6-NH out
console (Config-router-af)# exit
console (config-router)# exit
console (config)# route-map SET-V6-NH permit 10
console (route-map)# set ipv6 next-hop 2001:1:200::1
neighbor advertisement-interval (BGP Router
Configuration)
Use this command to configure the minimum time that must elapse between
advertisements of the same route to a given neighbor.
Syntax
neighbor { ip-address [interface interface-id]} advertisement-interval
seconds
no neighbor { ip-address [interface interface-id]} advertisement-interval
• interface-id—A routing interface identifier.
• ip-address—The neighbor’s IPv4 address.
• seconds—The minimum time between route advertisement, in seconds.
The range is 0 to 600 seconds.
Layer 3 Routing Commands 1264
Default Configuration
The default value is 30 seconds for external peers and 5 seconds for internal
peers.
Command Mode
BGP Router Configuration mode
User Guidelines
RFC 4271 recommends the interval for internal peers be shorter than the
interval for external peers to enable fast convergence within an autonomous
system. This value does not limit the rate of route selection, only the rate of
route advertisement. If BGP changes the route to a destination multiple
times while waiting for the advertisement interval to expire, only the final
result is advertised to the neighbor.
Dell EMC Networking BGP enforces the advertisement interval by limiting
how often phase 3 of the decision process can run for each update group. The
interval applies to withdrawals as well as active advertisements.
Command History
Introduced in version 6.2.0.1 firmware.
Example
console(config-router)# neighbor 10.27.9.99 advertisement-interval 100
neighbor advertisement-interval (IPv6 Address
Family Configuration)
In IPv6 Address Family mode, this command controls the time between
sending Update messages containing IPv6 routes.
Syntax
neighbor { ipv6-address [interface interface-id]} advertisement-interval
seconds
no neighbor { ipv6-address [interface interface-id]} advertisement-interval
• interface-id—A routing interface identifier.
Layer 3 Routing Commands 1265
• ipv6-address—The neighbor’s IPv6 address. If the neighbor’s IPv6 address
is a link local address, the local interface must also be specified.
• seconds—The minimum time between route advertisement, in seconds.
The range is 0 to 600 seconds.
Default Configuration
The default value is 30 seconds for external peers and 5 seconds for internal
peers.
Command Mode
IPv6 Address Family Configuration mode
User Guidelines
RFC 4271 recommends the interval for internal peers be shorter than the
interval for external peers to enable fast convergence within an autonomous
system. This value does not limit the rate of route selection, only the rate of
route advertisement. If BGP changes the route to a destination multiple
times while waiting for the advertisement interval to expire, only the final
result is advertised to the neighbor.
Dell EMC Networking BGP enforces the advertisement interval by limiting
how often phase 3 of the decision process can run for each update group. The
interval applies to withdrawals as well as active advertisements. The VLAN
interface must also be specified if a link-local address is specified.
Command History
Introduced in version 6.2.0.1 firmware.
Example
console(config-router-af)#neighbor FE80::0202:B3FF:FE1E:8329 interface vlan
10 advertisement-interval 50
neighbor allowas-in
Use the neighbor allowas-in command to accept prefixes even if local ASN is
part of the AS_PATH attribute. Use the no form of the command to disable
acceptance of prefixes if the local ASN is part of the AS_PATH.
Layer 3 Routing Commands 1266
Syntax
neighbor { ip-address | ipv6-address [ interface interface-id ] | autodetect
interface vlan vlan-id } allowas-in count
no neighbor { ip-address | ipv6-address [ interface interface-id ] | autodetect
interface interface-id } allowas-in
• interface-id — A routing interface identifier beginning with the VLAN
keyword.
• ip-address — The neighbor’s IPv4 address.
• ipv6-address [ interface interface-id ] — The neighbor’s IPv6 address. If
the neighbor’s IPv6 address is a link local address, the local interface must
also be specified.
•autodetect interface interface-id — The VLAN routing interface on which
the neighbor’s link local IPv6 address is auto detected. Use the vlan
keyword and a VLAN identifier.
•allowas-in count — The maximum number of occurrences of the local
ASN allowed in the AS_PATH attribute received in the prefix updates. The
allowed range is <1-10>.
Default Configuration
The router does not accept prefixes with the local ASN is part of the
AS_PATH attribute.
Command Mode
BGP Router Configuration mode, IPv4 Address Family Configuration mode
User Guidelines
A neighbor can inherit this configuration from a peer template.
Command History
Introduced in version 6.3.0.1 firmware.
Example
console(config)# router bgp 65000
console(config-router)# neighbor 172.20.1.2 remote-as 65001
console(config-router)# neighbor 172.20.1.2 allowas-in 1
Layer 3 Routing Commands 1267
console(config-router)# neighbor 2001::2 remote-as 65003
console(config-router)# neighbor 2001::2 allowas-in 3
neighbor connect-retry-interval
Use this command in to configure the initial connection retry time for a
specific neighbor.
Syntax
neighbor { ip-address | ipv6-address [ interface interface-id ] | autodetect
interface interface-id} connect-retry-interval retry-time
no neighbor { ip-address | ipv6-address [ interface interface-id ] | autodetect
interface interface-id} connect-retry-interval
•
ip-address
—The neighbor’s IPv4 address.
•
ipv6-address
—The neighbor’s IPv6 address. If the neighbor’s IPv6 address
is a link local address, the local interface must also be specified. The
interface must be a VLAN routed interface.
•
interface interface-id
—A routing interface identifier (VLAN identifier).
•
autodetect interface interface-id
—The routing interface on which the
neighbor’s link local IPv6 address is auto detected. The interface must be a
VLAN routed interface.
•
retry-time
—The number of seconds to wait before attempting to establish
a TCP connection with a neighbor after a previous attempt failed.
Default Configuration
The default value is 2 seconds.
Command Mode
BGP Router Configuration mode
IPv4 Address Family Configuration mode
User Guidelines
If a neighbor does not respond to an initial TCP connection attempt, the
N3000/N3100/N4000 Series switch retries three times. The first retry is after
the retry interval configured with neighbor connect-retry-interval. Each
Layer 3 Routing Commands 1268
subsequent retry doubles the previous retry interval. So by default, the TCP
connection is retried after 2, 4, and 8 seconds. If none of the retries is
successful, the adjacency is reset to the IDLE state and the IDLE hold timer
is started. BGP skips the retries and transitions to IDLE state if TCP returns
an error, such as destination unreachable, on a connection attempt. The
VLAN interface must also be specified if a link-local address is specified.
Command History
Introduced in version 6.2.0.1 firmware.
Updated in version 6.3.0.1 firmware.
Example
console(config-router)#neighbor FE80::0202:B3FF:FE1E:8329 interface vlan 10
connect-retry-interval 10
neighbor default-originate (BGP Router
Configuration)
To configure BGP to originate a default route to a specific neighbor, use the
neighbor default-originate command in BGP Router Configuration mode.
Syntax
neighbor { ip-address | ipv6-address [interface interface-id]} default-
originate [route-map map-name]
• interface-id—A routing interface identifier (VLAN interface).
• ip-address—The neighbor’s IPv4 address.
• ipv6-address —The neighbor’s IPv6 address. If the neighbor’s IPv6 address
is a link local address, the local interface must also be specified.
• map-name—(Optional) A route map may be configured to set attributes
on the default route advertised to the neighbor.
Default Configuration
No default is originated by default.
Layer 3 Routing Commands 1269
Command Mode
BGP Router Configuration mode
User Guidelines
By default, a neighbor-specific default has no MED and the Origin is IGP.
Attributes may be set using an optional route map. A neighbor-specific
default is only advertised if the Adj-RIB-Out does not include a default
learned by other means, either from the
default-information originate (BGP
Router Configuration)
command or a default learned from a peer. This type of
default origination is not conditioned on the presence of a default route in
the routing table. This form of default origination does not install a default
route in the BGP routing table (it will not appear in the
show ip bgp
command), nor does it install a default route in the Adj-RIB-Out for the
update group of peers so configured (it will not appear in the
show ip bgp
neighbors advertised-routes
command).
Origination of the default route is not subject to a prefix filter configured
with the command
distribute-list prefix out (BGP Router Configuration)
.
A route map may be configured to set attributes on the default route sent to
the neighbor. If the route map includes a match ip-address term, that term is
ignored. If the route map includes match community or match as-path
terms, the default route is not advertised. If there is no route map with the
route map name given, the default route is not advertised. The VLAN
interface must also be specified if a link-local address is specified.
Command History
Introduced in version 6.2.0.1 firmware.
Example
console(config-router)#neighbor FE80::0202:B3FF:FE1E:8329 interface vlan 10
default-originate
neighbor default-originate (IPv6 Address Family
Configuration)
To configure BGP to originate a default IPv6 route to a specific neighbor, use
the neighbor default-originate command in IPv6 Address Family
configuration mode.
Layer 3 Routing Commands 1270
Syntax
neighbor { ip-address | ipv6-address [interface interface-id]} default-
originate [route-map map-name]
• interface-id—A routing interface identifier (VLAN interface).
• ip-address—The neighbor’s IPv4 address.
• ipv6-address —The neighbor’s IPv6 address. If the neighbor’s IPv6 address
is a link local address, the local interface must also be specified.
• map-name—(Optional) A route map may be configured to set attributes
on the default route advertised to the neighbor.
Default Configuration
No default is originated by default.
Command Mode
IPv6 Address Family Configuration
User Guidelines
By default, a neighbor-specific default has no MED and the Origin is IGP.
Attributes may be set using an optional route map. A neighbor-specific
default is only advertised if the Adj-RIB-Out does not include a default
learned by other means, either from the
default-information originate (BGP
Router Configuration)
command or a default learned from a peer. This type of
default origination is not conditioned on the presence of a default route in
the routing table. This form of default origination does not install a default
route in the BGP routing table (it will not appear in the
show ip bgp
command), nor does it install a default route in the Adj-RIB-Out for the
update group of peers so configured (it will not appear in the
show ip bgp
neighbors advertised-routes
command).
Origination of the default route is not subject to a prefix filter configured
with the command
distribute-list prefix out (BGP Router Configuration)
.
A route map may be configured to set attributes on the default route sent to
the neighbor. If the route map includes a match ip-address term, that term is
ignored. If the route map includes match community or match as-path
Layer 3 Routing Commands 1271
terms, the default route is not advertised. If there is no route map with the
route map name given, the default route is not advertised. The VLAN
interface must also be specified if a link-local address is specified.
Command History
Introduced in version 6.2.0.1 firmware.
Example
console(config-router-af)#neighbor FE80::0202:B3FF:FE1E:8329 interface vlan
10 default-originate
neighbor description
Use this command to record a text description of a neighbor. The description
is informational and has no functional impact.
Syntax
neighbor { ip-address | ipv6-address [ interface interface-id ] | autodetect
interface interface-id } description text
no neighbor { ip-address | ipv6-address [ interface interface-id ]autodetect
interface interface-id } description
• interface-id—A routing interface identifier (VLAN interface).
• ip-address—The neighbor’s IP address.
• ipv6-address [ interface interface-id ]—The neighbor’s IPv6 address. If the
neighbor’s IPv6 address is a link local address, the local interface must also
be specified. The interface-id must specify a routing interface identifier
(VLAN ID).
• text—Text description of neighbor. Up to 80 characters are allowed.
•
autodetect interface interface-id
—(Optional) The routing interface on
which the neighbor’s link local IPv6 address is auto detected. The
interface-id must be a VLAN routing interface.
Default Configuration
No description is configured by default.
Layer 3 Routing Commands 1272
Command Mode
BGP Router Configuration mode
IPv4 Address Family Configuration mode
User Guidelines
The VLAN interface must also be specified if a link-local address is specified.
Command History
Introduced in version 6.2.0.1 firmware.
Updated in version 6.3.0.1 firmware.
Example
console(config-router)#neighbor FE80::0202:B3FF:FE1E:8329 interface vlan 10
description Test-System
neighbor ebgp-multihop
Use the neighbor ebgp-multihop command to configure BGP to form
neighborship with external peers that are not directly connected.
Syntax
neighbor { ip-address | ipv6-address [ interface interface-id ] | autodetect
interface interface-id } ebgp-multihop hop-count
no neighbor { ip-address | ipv6-address [ interface interface-id ] | autodetect
interface interface-id } ebgp-multihop hop-count
• ip-address — The neighbor’s IPv4 address. This is the IP address of the
neighbor on the connected link.
• ipv6-address — The neighbor’s IPv6 address. If the neighbor’s IPv6 address
is a link local address, the local interface must also be specified. Valid in
IPv6 address family configuration mode.
•
interface
interface-id —The local VLAN routing interface over which the
IPv6 neighbor can be reached or is auto-detected. Use the vlan keyword
and a VLAN ID. Range 1-4093.
Layer 3 Routing Commands 1273
•autodetect interface interface-id — The VLAN routing interface on which
the neighbor’s link local IPv6 address is auto detected. Use the vlan
keyword and a VLAN ID. Range 1-4093.
• hop-count — The maximum hop-count allowed to reach the neighbor.
The allowed range is 1–255.
Default Configuration
The default hop count is 64.
Command Mode
BGP Router Configuration mode, IPv6 Address Family Configuration mode
User Guidelines
The ebgp-multihop parameter is relevant only for external BGP neighbors.
For internal BGP neighbors, the TTL value remains 64 and can’t be modified.
A neighbor can inherit this configuration from a peer template. To make the
update-source config work for external BGP neighbors, ebgp-multihop hop-
count should be configured to a TTL value larger than the default TTL of 1.
Autodetect Interface
When BGP is deployed in an IPv6 data center network, it is desirable to use
IPv6 link local addresses as BGP neighbors. Using link local addresses avoids
the need to assign and manage global IPv6 addresses on interconnect links.
Dell EMC Networking already supports BGP neighbors with link local IPv6
addresses, but it requires that the link local IPv6 address of the neighbor be
configured using the BGP “neighbor” command. Since the link local address
is derived from the switch MAC address, the network administrator needs to
know the MAC address of all the switches deployed in the network, and if one
switch fails and is replaced with a different switch then all the BGP neighbor
switches need to be reconfigured to change the link local address specified in
their neighbor commands.
The IPv6 Link Local Address Auto Detect feature eliminates the need for the
network administrator to configure the link local IPv6 address of every
neighbor. Instead of specifying the link local IPv6 address, the network
Layer 3 Routing Commands 1274
administrator can use a special keyword “autodetect” to refer to the link local
IPv6 address of the neighbor. For example: “neighbor autodetect interface
0/21 remote-as 10000”
There are several restrictions to this feature:
1
The “interface” can only refer to non-multiple access VLAN routing
interfaces. It does not work on tunnels.
2
Only one “autodetect” neighbor can be configured per interface.
3
If autodetect neighbor is configured on an interface, a link-local IPv6
neighbor cannot be configured on the same interface.
4
If more than one link local IPv6 address is detected on the specified
interface, this is considered to be an error and the address auto-detection
fails.
5
The feature is supported only on platforms that also support the RFC
5549.
6
The feature is applicable only for directly connected neighbors.
7
Multiple access VLANs are not supported.
Command History
Introduced in version 6.3.0.1 firmware.
Example
console(config)# router bgp 65000
console(config-router)# neighbor 172.20.1.2 remote-as 65001
console(config-router)# neighbor 172.20.1.2 ebgp-multihop 3
console(config-router)# neighbor 2001::2 remote-as 65003
console(config-router)# neighbor 2001::2 ebgp-multihop 4
neighbor filter-list (BGP Router Configuration)
This command filters advertisements to or from a specific neighbor according
to the advertisement’s AS Path.
Syntax
neighbor { ip-address | ipv6-address [ interface interface-id ]} filter-list as-
path-list-number {in | out}
Layer 3 Routing Commands 1275
no neighbor { ip-address | ipv6-address [ interface interface-id ]} filter-list
as-path-list-number {in | out}
• interface-id—A routing interface identifier (VLAN interface).
• ip-address—The neighbor’s IPv4 address.
• ipv6-address —The neighbor’s IPv6 address. If the neighbor’s IPv6 address
is a link local address, the local interface must also be specified.
• as-path-list-number —Identifies an AS path list.
•in—The AS Path list is applied to advertisements received from the
neighbor.
•out—The AS Path list is applied to advertisements to be sent to the
neighbor.
Default Configuration
No neighbor filter lists are configured by default.
Command Mode
BGP Router Configuration mode
User Guidelines
Only a single AS path list can be configured in each direction for each
neighbor. If you invoke the command a second time for a given neighbor, the
new AS path list number replaces the previous AS path list number.
If you assign a neighbor filter list to a nonexistent AS path access list, all
routes are filtered. The VLAN interface must also be specified if a link-local
address is specified.
Command History
Introduced in version 6.2.0.1 firmware.
Example
console(config-router)#neighbor FE80::0202:B3FF:FE1E:8329 interface vlan 10
filter-list 1 in
Layer 3 Routing Commands 1276
neighbor filter-list (IPv6 Address Family
Configuration)
This command filters BGP to apply an AS path access list to UPDATE
messages received from or sent to a specific neighbor. Filtering for IPv6 is
independent of filtering configured for IPv4. If an UPDATE message includes
both IPv4 and IPv6 NLRI, it could be filtered for IPv4 but accepted for IPv6
or vice versa.
Syntax
neighbor { ip-address | ipv6-address [ interface interface-id ]} filter-list as-
path-list-number {in | out}
no neighbor { ip-address | ipv6-address [ interface interface-id ]} filter-list
as-path-list-number {in | out}
• ip-address—The neighbor’s IPv4 address.
• ipv6-address [interface interface-id]—The neighbor’s IPv6 address. If the
neighbor’s IPv6 address is a link local address, the local interface must also
be specified.
• as-path-list-number —Identifies an AS path list.
•in—The AS Path list is applied to advertisements received from the
neighbor.
•out—The AS Path list is applied to advertisements to be sent to the
neighbor.
Default Configuration
No neighbor filter lists are configured by default.
Command Mode
BGP Router Configuration mode
User Guidelines
If you assign a neighbor filter list to a nonexistent AS path access list, all
routes are filtered. The VLAN interface must also be specified if a link-local
address is specified.
Layer 3 Routing Commands 1277
Command History
Introduced in version 6.2.0.1 firmware.
Example
console(config-router-af)#neighbor FE80::0202:B3FF:FE1E:8329 interface vlan
10 filter-list 1 in
neighbor inherit peer
To configure a BGP peer to inherit peer configuration parameters from a peer
template, use the neighbor inherit peer command. To remove the
inheritance, use the no form of this command.
Syntax
neighbor { ip-address | ipv6-address [ interface interface-id ] ] | autodetect
interface interface-id} inherit peer template-name
no neighbor { ip-address | ipv6-address [ interface interface-id ] | autodetect
interface interface-id} inherit peer template-name
• ip-address—The neighbor’s IPv4 address.
• ipv6-address [interface interface-id]—The neighbor’s IPv6 address. If the
neighbor’s IPv6 address is a link local address, the local interface must also
be specified.
•autodetect interface interface-id – The VLAN routing interface on which
the neighbor’s link local IPv6 address is auto detected.
• template-name—The name of the peer template whose peer configuration
parameters are to be inherited by this neighbor.
Default Configuration
No peer configuration parameters are inherited by default.
Command Mode
BGP Router Configuration mode, IPv4 Address Family Configuration mode
Layer 3 Routing Commands 1278
User Guidelines
Neighbor session and policy parameters can be configured once in a peer
template and inherited by multiple neighbors, eliminating the need to
configure the same parameters for each neighbor. Parameters are inherited
from the peer template specified and from any templates it inherits from. A
neighbor can inherit directly from only one peer template.
Command History
Introduced in version 6.2.0.1 firmware.
Updated in version 6.3.0.1 firmware.
Example
console(config)# router bgp 65000
console(config-router)# neighbor 172.20.1.2 remote-as 65001
console(config-router)# neighbor 172.20.2.2 remote-as 65001
console(config-router)# template peer AGGR
console(config-rtr-tmp)# timers 3 9
console(config-rtr-tmp)# address-family ipv4
console(config-rtr-tmp-af)# send-community
console(config-rtr-tmp-af)# route-map RM4-IN in
console(config-rtr-tmp-af)# route-map RM4-OUT out
console(config-rtr-tmp-af)# exit
console(config-rtr-tmp)# exit
console(config-router)# neighbor 172.20.1.2 inherit peer AGGR
console(config-router)# neighbor 172.20.2.2 inherit peer AGGR
neighbor local-as
Use the neighbor local-as command to configure BGP to advertise the local-
as instead of the router’s own AS in the routes advertised to the neighbor.
Syntax
neighbor { ip-address | ipv6-address [ interface interface-id ] | autodetect
interface vlan vlan-id } local-as as-number no-prepend replace-as no
neighbor { ip-address | ipv6-address [ interface interface-id ] | autodetect
interface interface-id } local-as
• interface-id—A routing interface identifier (VLAN interface).
• ip-address — The neighbor’s IPv4 address.
Layer 3 Routing Commands 1279
• ipv6-address [ interface interface-id] — The neighbor’s IPv6 address. If
the neighbor’s IPv6 address is a link local address, the local interface must
also be specified.
•autodetect interface interface-id — The VLAN routing interface on which
the neighbor’s link local IPv6 address is auto detected.
•local-as as-number — The AS number to advertise as the local AS in the
AS PATH sent to the neighbor.
•no-prepend — The local-as is not prepended in the AS PATH received in
the updates from this neighbor.
•replace-as — Replace the router’s own AS with the local-as in the AS
PATH sent to the neighbor.
Default Configuration
No local-as is configured for any peer.
Command Mode
BGP Router Configuration mode, IPv4 Address Family Configuration mode
User Guidelines
In typical data center deployments using CLOS networks, the peering is all
external BGP between the BGP devices requiring an unique ASN for each
router. Normally, the private BGP networks are expected to use private AS
numbers. But, there are only 1024 private AS numbers in the standard 2-byte
ASN.
Due to this limitation, data center deployments are forced to use public ASNs
in their private networks. When such private networks are interconnected to
each other, there needs to be a way to manipulate the public ASNs in the
route advertisements so that the private networks with the public ASNs don’t
experience ASN conflicts.
With the options no-prepend and replace-as
• The router replaces the global AS of the router with the configured local-as
when advertising the routes to the peer on which this command is
configured.
• As well the local-as is not prepended to the routes received from the
neighbor on which this command is configured.
Layer 3 Routing Commands 1280
This command is allowed only on external BGP neighbors. A neighbor can
inherit this configuration from a peer template.
When the local-as is configured for a peer, the BGP peer adjacency gets reset.
Command History
Introduced in version 6.3.0.1 firmware.
Example
console(config)#router bgp 65000
console(config-router)# neighbor 172.20.1.2 remote-as 65001
console(config-router)# neighbor 172.20.1.2 local-as 65002 no-prepend
replace-as
console(config-router)# neighbor 2001::2 remote-as 65003
console(config-router)# neighbor 2001::2 local-as 65002 no-prepend replace-
as
neighbor maximum-prefix (BGP Router
Configuration)
Use the neighbor maximum-prefix command to configure the maximum
number of IPv4 prefixes that BGP will accept from a specified neighbor.
Syntax
neighbor { ip-address | ipv6-address [ interface interface-id ]} maximum-
prefix { maximum [threshold] [warning-only] | unlimited }
no neighbor { ip-address | ipv6-address [ interface interface-id ]} maximum-
prefix
• ip-address—The neighbor’s IP address.
• ipv6-address—The neighbor’s IPv6 address. If the neighbor’s IPv6 address
is a link local address, the local interface must also be specified.
• interface-id—If the neighbor’s IPv6 address is a link local address, the local
VLAN routing interface must also be specified.
•maximum—The maximum number of prefixes BGP will accept from this
neighbor. Range 0-4294967295. Values greater than the free space in the
route table are not enforced.
Layer 3 Routing Commands 1281
• threshold—The percentage of the maximum number of prefixes BGP
configured for this neighbor. When the number of prefixes received from
the neighbor exceeds this percentage of the maximum, BGP writes a log
message. The range is 1 to 100 percent. The default is 75%. Unless
warning-only is specified, BGP shuts down the adjacency when the
threshold is reached.
•unlimited—Do not enforce any prefix limit. Use this option when
inbound filtering will reduce the number received prefixes such that they
will fit in the routing table. Exceeding the capacity of the routing table will
cause the adjacency to be shut down unless the warning-only option is
configured.
•warning-only—(Optional) If BGP receives more than the maximum
number of prefixes, BGP writes a log message rather than shutting down
the adjacency.
Default Configuration
There is no prefix limit by default. The default warning threshold is 75%. A
neighbor that exceeds the limit is shut down by removing the adjacency
unless the warning-only option is configured.
Command Mode
BGP Router Configuration mode
User Guidelines
If the peering session is shut down, the adjacency stays down until clear ip
bgp is issued for the neighbor.
Different limits can be set for IPv4 and IPv6. The VLAN interface must also
be specified if a link-local address is specified.
Command History
Introduced in version 6.2.0.1 firmware.
Example
console(config-router)#neighbor FE80::0202:B3FF:FE1E:8329 interface vlan 10
maximum-prefix unlimited
Layer 3 Routing Commands 1282
neighbor maximum-prefix (IPv6 Address Family
Configuration)
In IPv6 address family configuration mode, the neighbor maximum-prefix
command specifies the maximum number of IPv6 prefixes that BGP will
accept from a given neighbor.
Syntax
neighbor { ip-address | ipv6-address [ interface interface-id ]} maximum-
prefix { maximum [threshold] [warning-only] | unlimited }
no neighbor { ip-address | ipv6-address [ interface interface-id ]} maximum-
prefix
• ip-address—The neighbor’s IP address.
• ipv6-address—The neighbor’s IPv6 address. If the neighbor’s IPv6 address
is a link local address, the local interface must also be specified.
• interface-id—If the neighbor’s IPv6 address is a link local address, the local
VLAN routing interface must also be specified.
•maximum—The maximum number of prefixes BGP will accept from this
neighbor. Range 0-4294967295. Values greater than the free space in the
route table are not enforced.
• threshold—The percentage of the maximum number of prefixes BGP
configured for this neighbor. When the number of prefixes received from
the neighbor exceeds this percentage of the maximum, BGP writes a log
message. The range is 1 to 100 percent. The default is 75%. Unless
warning-only is specified, BGP shuts down the adjacency when the
threshold is reached.
•unlimited—Do not enforce any prefix limit. Use this option when
inbound filtering will reduce the number received prefixes such that they
will fit in the routing table. Exceeding the capacity of the routing table will
cause the adjacency to be shut down unless the warning-only option is
configured.
•warning-only—(Optional) If BGP receives more than the maximum
number of prefixes, BGP writes a log message rather than shutting down
the adjacency.
Layer 3 Routing Commands 1283
Default Configuration
There is no prefix limit by default. The default warning threshold is 75%. A
neighbor that exceeds the limit is shut down by removing the adjacency
unless the warning-only option is configured.
Command Mode
IPv6 Address Family Configuration mode
User Guidelines
If the peering session is shut down, the adjacency stays down until clear ip
bgp is issued for the neighbor.
Different limits can be set for IPv4 and IPv6. In IPv6 address family mode,
the command accepts either an IPv4 or an IPv6 address. The VLAN interface
must also be specified if a link-local address is specified.
Command History
Introduced in version 6.2.0.1 firmware.
Example
console(config-router-af)#neighbor FE80::0202:B3FF:FE1E:8329 interface vlan
10 maximum-prefix unlimited
neighbor next-hop-self (BGP Router
Configuration)
The neighbor next-hop-self command configures BGP to set the next hop
attribute to a local IP address when advertising a route to an internal peer.
Normally, BGP retains the next hop attribute received from the external peer.
Syntax
neighbor { ip-address | ipv6-address [ interface interface-id ]} next-hop-self
no neighbor { ip-address | ipv6-address [ interface interface-id ]} next-hop-
self
• ip-address – The neighbor’s IPv4 address.
Layer 3 Routing Commands 1284
• ipv6-address [ interface interface-id ] – The neighbor’s IPv6 address. If the
neighbor’s IPv6 address is a link local address, the local interface must also
be specified.
Default Configuration
This is not enabled by default.
Command Mode
BGP Router Configuration mode
User Guidelines
When the next hop attribute in routes from external peers is retained,
internal peers must have a route to the external peer’s IP address. This is
commonly done by configuring the IGP on the border router to advertise the
external (or “DMZ”) subnet. The next-hop-self option eliminates the need to
advertise the external subnet in the IGP. The neighbor next-hop-self
command sets the next hop for all routes sent to a neighbor. The VLAN
interface must also be specified if a link-local address is specified.
Command History
Introduced in version 6.2.0.1 firmware.
Example
console(config-router)#neighbor FE80::0202:B3FF:FE1E:8329 interface vlan 10
next-hop-self
neighbor next-hop-self (IPv6 Address Family
Configuration)
In IPv6 address family configuration mode, the neighbor next-hop-self
command configures BGP to use a local address as the IPv6 next hop when
advertising IPv6 routes to a specific peer.
Syntax
neighbor { ip-address | ipv6-address [ interface interface-id ]} next-hop-self
Layer 3 Routing Commands 1285
no neighbor { ip-address | ipv6-address [ interface interface-id ]} next-hop-
self
• ip-address – The neighbor’s IPv4 address.
• ipv6-address [ interface interface-id ] – The neighbor’s IPv6 address. If the
neighbor’s IPv6 address is a link local address, the local interface must also
be specified.
Default Configuration
This is not enabled by default.
Command Mode
IPv6 Address Family Configuration mode
User Guidelines
When the next hop attribute in routes from external peers is retained,
internal peers must have a route to the external peer’s IP address. This is
commonly done by configuring the IGP on the border router to advertise the
external (or “DMZ”) subnet. The next-hop-self option eliminates the need to
advertise the external subnet in the IGP.
In IPv6 Address Family Configuration mode, the command accepts either an
IPv4 or an IPv6 address. For IPv6, BGP uses an IPv6 address from the local
interface that terminates the peering session. The VLAN interface must also
be specified if a link-local address is specified.
Command History
Introduced in version 6.2.0.1 firmware.
Example
console(config-router-af)#neighbor FE80::0202:B3FF:FE1E:8329 interface vlan
10 next-hop-self
neighbor password
Use the neighbor password command to enable MD5 authentication of TCP
segments sent to and received from a neighbor, and to configure an
authentication key.
Layer 3 Routing Commands 1286
Syntax
neighbor { ip-address | ipv6-address [ interface interface-id ] | autodetect
interface interface-id } password string
no neighbor { ip-address | ipv6-address [ interface interface-id ]| autodetect
interface interface-id} password
• ip-address—The neighbor’s IPv4 address.
• ipv6-address [ interface interface-id ] – The neighbor’s IPv6 address. If the
neighbor’s IPv6 address is a link local address, the local interface must also
be specified. The interface-id must specify a routing interface identifier
(VLAN ID).
•
autodetect interface interface-id
—(Optional) The routing interface on
which the neighbor’s link local IPv6 address is auto detected. The
interface-id must be a VLAN routing interface.
• string—Case-sensitive password from 1 to 25 characters in length.
Default Configuration
MD5 authentication is disabled by default.
Command Mode
BGP Router Configuration mode
IPv4 Address Family Configuration mode
User Guidelines
MD5 must either be enabled or disabled on both peers. The same password
must be configured on both peers. After a TCP connection is established, if
the password on one end is changed, then the password on the other end
must be changed to match before the hold time expires. Using the default
hold times, both passwords must be changed within 120 seconds to guarantee
the connection is not dropped. The VLAN interface must also be specified if
a link-local address is specified.
Command History
Introduced in version 6.2.0.1 firmware.
Updated in version 6.3.0.1 firmware.
Layer 3 Routing Commands 1287
Example
console(config-router)#neighbor FE80::0202:B3FF:FE1E:8329 interface vlan 10
password sample
neighbor prefix-list (BGP Router Configuration)
Use the neighbor prefix-list command to filter advertisements sent to a
specific neighbor based on the destination prefix of each route.
Syntax
neighbor { ip-address | ipv6-address [interface vlan vlan-id]} prefix-list
prefix-list-name { in | out }
no neighbor { ip-address | ipv6-address [interface vlan vlan-id]} prefix-list
prefix-list-name { in | out }
• ip-address—The neighbor’s IPv4 address.
• prefix-list-name—The name of an IP prefix list.
• ipv6-address—The neighbor’s IPv6 address. If the neighbor’s IPv6 address
is a link local address, the local interface must also be specified. This
command is available in IPv6 address family mode.
•interface vlan vlan-id—The local interface/VLAN ID over which the IPv6
neighbor can be reached. Range: 1-4093.
•in—Apply the prefix list to advertisements received from this neighbor.
•out—Apply the prefix list to advertisements to be sent to this neighbor.
Default Configuration
No prefix list is configured.
Command Mode
BGP Router Configuration mode
User Guidelines
Only one prefix list may be defined for each neighbor in each direction. If a
prefix list that does not exist is assigned, all prefixes are permitted. The VLAN
interface must also be specified if a link-local address is specified.
Layer 3 Routing Commands 1288
Command History
Introduced in version 6.2.0.1 firmware.
Example
console(config-router)#neighbor FE80::0202:B3FF:FE1E:8329 interface vlan 10
prefix-list test in
neighbor prefix-list (IPv6 Address Family
Configuration)
In IPv6 address family configuration mode, the neighbor prefix-list command
specifies an IPv6 prefix list to filter routes received from or advertised to a
given peer.
Syntax
neighbor { ip-address | ipv6-address [interface vlan vlan-id]} prefix-list
prefix-list-name { in | out }
no neighbor { ip-address | ipv6-address [interface vlan vlan-id]} prefix-list
prefix-list-name { in | out }
• ip-address—The neighbor’s IPv4 address.
• prefix-list-name—The name of an IP prefix list.
• ipv6-address—The neighbor’s IPv6 address. If the neighbor’s IPv6 address
is a link local address, the local interface must also be specified. This
command is available in IPv6 address family mode.
•interface vlan vlan-id—The local interface/VLAN ID over which the IPv6
neighbor can be reached. Range: 1-4093.
•in—Apply the prefix list to advertisements received from this neighbor.
•out—Apply the prefix list to advertisements to be sent to this neighbor.
Default Configuration
No prefix list is configured.
Command Mode
IPv6 Address Family Configuration mode
Layer 3 Routing Commands 1289
User Guidelines
Only one prefix list may be defined for each neighbor in each direction. If a
prefix list that does not exist is assigned, all prefixes are permitted.
In IPv6 address family mode, the command accepts either an IPv4 or an IPv6
address.
Command History
Introduced in version 6.2.0.1 firmware.
Example
console(config-router-af)#neighbor 10.130.14.55 prefix-list test in
neighbor remote-as
Use the neighbor remote-as command to configure a neighbor and identify
the neighbor’s autonomous system.
Syntax
neighbor { ip-address | ipv6-address [interface vlan vlan-id] | autodetect
interface interface-id } remote-as as-number
no neighbor { ip-address | ipv6-address [interface vlan vlan-id] | autodetect
interface interface-id } remote-as
• ip-address—The neighbor’s IPv4 address. For external peers, this address
must be an IPv4 address on the link that connects the two peers. For
internal peers, the neighbor address can be any address, such as the IPv4
address of a loopback interface.
• ipv6-address—The neighbor’s IPv6 address. If the neighbor’s IPv6 address
is a link local address, the local interface must also be specified. This
command is available in IPv6 address family mode.
•interface vlan vlan-id—The local routing interface/VLAN ID over which
the IPv6 neighbor can be reached. Range: 1-4093.
•
autodetect interface interface-id
—(Optional) The routing interface on
which the neighbor’s link local IPv6 address is auto detected. The
interface-id must be a VLAN routing interface. Range is 1–4093.
Layer 3 Routing Commands 1290
•remote-as as-number—The autonomous system number of the neighbor’s
AS. The range is 1 to 65,535. If the neighbor’s AS number is the same as
the local router and the peer is considered an internal peer. Otherwise, the
peer is an external peer.
Default Configuration
No neighbors are configured by default.
Command Mode
BGP Router Configuration mode
IPv4 Address Family Configuration mode
User Guidelines
Up to 100 neighbors can be configured.
Command History
Introduced in version 6.2.0.1 firmware.
Updated in version 6.3.0.1 firmware.
Example
console(config-router)#neighbor 10.130.14.55 remote-as 10
neighbor remove-private-as
Use the neighbor remove-private-as command to remove private AS numbers
when advertising IPv4 routes to an external peer. To stop removing private AS
numbers, use the no form of this command.
Syntax
neighbor { ip-address | ipv6-address [interface vlan vlan-id]} remove-
private-as [ all replace-as ]
no neighbor { ip-address | ipv6-address [interface vlan vlan-id]} remove-
private-as
• ip-address – The neighbor’s IPv4 address.
Layer 3 Routing Commands 1291
• ipv6-address– The neighbor’s IPv6 address. If the neighbor’s IPv6 address
is a link local address, the local interface must also be specified.
•interface vlan vlan-id – The local interface/VLAN ID over which the IPv6
neighbor can be reached. Range 1-4093.
•all replace-as – (Optional) To retain the original AS path length, replace
each private AS number with the local AS number.
Default Configuration
Private AS numbers are not removed by default.
Command Mode
BGP Router Configuration mode
User Guidelines
This command can only be applied to external peers. Private AS numbers are
removed or replaced whether or not the original AS path includes any non-
private AS numbers. The AS path advertised to the external peer always
includes at least one instance of the local AS number; therefore, removing
private AS numbers never results in advertisement of an empty AS_PATH
attribute. AS numbers from 64512 to 65535 inclusive are considered private.
Although 65535 is a reserved ASN and not technically part of the private
range, it is treated as a private ASN when removing or replacing private ASNs.
Command History
Introduced in version 6.2.0.1 firmware.
Example
console(config-router)#neighbor 10.130.14.55 remove-private-as
neighbor rfc5549-support
Use the neighbor rfc5549-support command to enable advertisement of IPv4
routes over IPv6 next hops selectively to an external BGP IPv6 peer. To
disable advertisement of these routes, use the no form of this command.
Layer 3 Routing Commands 1292
Syntax
neighbor { ipv6-address | autodetect interface interface-id } rfc5549-support
no neighbor { ipv6-address | autodetect interface interface-id } rfc5549-
support
• interface-id—A routing interface identifier (VLAN interface).
• ipv6-address — The neighbor’s IPv6 address.
• autodetect interface interface-id — The routing interface on which the
neighbor’s link local IPv6 address is auto detected.
Default Configuration
RFC 5549 support is enabled by default for all neighbors.
Command Mode
BGP Router Configuration mode, IPv4 Address Family Configuration mode
User Guidelines
This command can only be applied to external BGP peers via a single hop.
The Next Hop Address advertised for the IPv4 prefixes consists of the link-
local IPv6 address and the global IPv6 address (if configured on the interface).
When the Extended Next Hop Encoding capability is not received from a
neighbor, Dell EMC Networking does not advertise the RFC 5549 routes to
the neighbor. The Dell EMC Networking solution is interoperable with
routers that do not support RFC 5549.
Command History
Introduced in version 6.3.0.1 firmware.
Example
The following example results in the connected IPv4 networks 1.1.1.0/24 and
2.2.2.0/24 advertised with next hop set to 2001::1 only to eBGP IPv6 peer
2001::2 and not to eBGP peer 2002::2.
console(config)#ip routing
console(config)#ipv6 unicast-routing
console(config)#vlan 10,20,30
Layer 3 Routing Commands 1293
console(config-vlan10,20,30)#exit
console(config)#interface vlan 10
console(config-if-vlan10)#ipv6 enable
console(config-if-vlan10)#ipv6 address 2001::1/64
console(config-if-vlan10)#exit
console(config)#interface vlan 20
console(config-if-vlan20)#ipv6 enable
console(config-if-vlan20)#ip address 1.1.1.1 /24
console(config-if-vlan20)#ipv6 address 2002::1/64
console(config-if-vlan20)#exit
console(config)#interface vlan 30
console(config-if-vlan30)#ip address 2.2.2.2 /24
console(config-if-vlan30)#exit
console(config)#router bgp 100
console(config-router)#redistribute connected
console(config-router)#neighbor 2001::2 remote-as 200
console(config-router)#neighbor 2001::2 rfc5549-support
console(config-router)#neighbor 2002::2 remote-as 300
neighbor route-map (BGP Router Configuration)
Use the neighbor route-map command to apply a route map to incoming or
outgoing routes for a specific neighbor. To remove the route map, use the no
form of this command.
Syntax
neighbor ip-address route-map map-name { in | out }
no neighbor ip-address route-map map-name { in | out }
• ip-address—The neighbor’s IP address.
•route-map map-name—The name of the route map to be used to filter
route updates on the specified interface.
•in | out—Whether the route map is applied to incoming or outgoing
routes.
Default Configuration
No route maps are applied by default.
Layer 3 Routing Commands 1294
Command Mode
A route map can be used to change the local preference, MED, or AS Path of
a route. Routes can be selected for filtering or modification using an AS path
access list or a prefix list. If a neighbor route-map statement refers to a non-
existent route map, all routes are denied.
Neighbor route maps configured with this command in router configuration
mode are only applied to IPv4 routes.
User Guidelines
BGP Router Configuration mode
Command History
Introduced in version 6.2.0.1 firmware.
Example
console(config-router)#neighbor 10.130.14.55 route-map test in
neighbor route-map (IPv6 Address Family
Configuration)
In IPv6 address family configuration mode, the neighbor route-map
command specifies a route map to be applied to inbound or outbound IPv6
routes. To remove the route map, use the no form of this command.
Syntax
neighbor { ip-address | ipv6-address [ interface vlan vlan-id ]} route-map
map-name { in | out }
no neighbor { ip-address | ipv6-address [ interface vlan vlan-id]} route-map
map-name { in | out }
• ip-address—The neighbor’s IP address.
• ipv6-address—The neighbor’s IPv6 address. If the neighbor’s IPv6 address
is a link local address, the local interface must also be specified. Valid in
IPv6 address family mode.
•interface vlan vlan-id—The local interface/VLAN ID over which the IPv6
neighbor can be reached. Range 1-4093.
Layer 3 Routing Commands 1295
•route-map map-name—The name of the route map to be used to filter
route updates on the specified interface.
•in | out—Whether the route map is applied to incoming or outgoing
routes.
Default Configuration
No route maps are applied by default.
Command Mode
IPv6 Address Family Configuration mode
User Guidelines
A route map can be used to change the local preference, MED, or AS Path of
a route. Routes can be selected for filtering or modification using an AS path
access list or a prefix list. If a neighbor route-map statement refers to a non-
existent route map, all routes are denied.
Neighbor route maps configured with this command in router configuration
mode are only applied to IPv4 routes. In IPv6 address family mode, the
command accepts either an IPv4 or an IPv6 address.
Command History
Introduced in version 6.2.0.1 firmware.
Example
console(config-router-af)#neighbor 10.130.14.55 route-map test in
neighbor route-reflector-client (BGP Router
Configuration)
To configure an internal peer as an IPv4 route reflector client, use the
neighbor route-reflector-client command.
Syntax
neighbor ip-address route-reflector-client
no neighbor ip-address route-reflector-client
Layer 3 Routing Commands 1296
• ip-address—The neighbor’s IPv4 address.
Default Configuration
Peers are not route reflector clients by default.
Command Mode
BGP Router Configuration
User Guidelines
Normally, a router does not re-advertise BGP routes received from an internal
peer to other internal peers. If you configure a peer as a route reflector client,
this router will re-advertise such routes. A router is a route reflector if it has
one or more route reflector clients. Configuring the first route reflector client
automatically makes the router a route reflector.
If you configure multiple route reflectors within a cluster, you must configure
each route reflector in the cluster with the same cluster ID. Use the bgp
cluster-id command to configure a cluster ID.
An external peer may not be configured as a route reflector client.
When reflecting a route, BGP ignores the set statements in an outbound
route map to avoid causing the receiver to compute routes that are
inconsistent with other routers in the AS.
Command History
Introduced in version 6.2.0.1 firmware.
Example
console(config-router)#neighbor 10.130.14.55 route-reflector-client
neighbor route-reflector-client (IPv6 Address
Family Configuration)
To configure an internal peer as an IPv4 route reflector client, use the
neighbor route-reflector-client command.
Layer 3 Routing Commands 1297
Syntax
neighbor { ip-address | ipv6-address [ interface vlan vlan-id ] } route-
reflector-client
no neighbor { ip-address | ipv6-address [ interface vlan vlan-id ]} route-
reflector-client
• ip-address—The neighbor’s IPv4 address.
• ipv6-address—The neighbor’s IPv6 address. If the neighbor’s IPv6 address
is a link local address, the local interface must also be specified.
•interface vlan vlan-id—The local interface/VLAN ID over which the IPv6
neighbor can be reached. Range 1-4093.
Default Configuration
Peers are not route reflector clients by default.
Command Mode
IPv6 Address Family Configuration
User Guidelines
Normally, a router does not re-advertise BGP routes received from an internal
peer to other internal peers. If you configure a peer as a route reflector client,
this router will re-advertise such routes. A router is a route reflector if it has
one or more route reflector clients. Configuring the first route reflector client
automatically makes the router a route reflector.
If you configure multiple route reflectors within a cluster, you must configure
each route reflector in the cluster with the same cluster ID. Use the bgp
cluster-id command to configure a cluster ID.
An external peer may not be configured as a route reflector client.
When reflecting a route, BGP ignores the set statements in an outbound
route map to avoid causing the receiver to compute routes that are
inconsistent with other routers in the AS.
Command History
Introduced in version 6.2.0.1 firmware.
Layer 3 Routing Commands 1298
Example
console(config-router-af)#neighbor 10.130.14.55 route-reflector-client
neighbor send-community (BGP Router
Configuration)
Use the neighbor send-community command to configure the local router to
send the BGP communities attribute in UPDATE messages to a specific
neighbor.
Syntax
neighbor ip-address send-community
no neighbor ip-address send-community
• ip-address – The neighbor’s IPv4 address.
Default Configuration
The communities attribute is not sent to neighbors by default.
Command Mode
BGP Router Configuration mode
User Guidelines
There are no user guidelines.
Command History
Introduced in version 6.2.0.1 firmware.
Example
console(config-router)#neighbor 10.130.14.55 send-community
Layer 3 Routing Commands 1299
neighbor send-community (IPv6 Address Family
Configuration)
In IPv6 address family configuration mode, the neighbor send-community
command tells BGP to send the COMMUNITIES attribute with routes
advertised to the peer.
Syntax
neighbor { ip-address | ipv6-address [ interface interface-id ]} send-
community
no neighbor { ip-address | ipv6-address [ interface interface-id ]} send-
community
• ip-address – The neighbor’s IPv4 address.
• ipv6-address [ interface interface-id ] – The neighbor’s IPv6 address. If the
neighbor’s IPv6 address is a link local address, the local interface must also
be specified.
Default Configuration
The communities attribute is not sent to neighbors by default.
Command Mode
IPv6 Address Family Configuration mode
User Guidelines
The command accepts either an IPv4 or an IPv6 address.
Command History
Introduced in version 6.2.0.1 firmware.
Example
console(config-router-af)#neighbor 10.130.14.55 send-community
Layer 3 Routing Commands 1300
neighbor shutdown
Use the neighbor shutdown command to administratively disable
communications with a specific BGP neighbor. The effect is to gracefully
bring down the adjacency with the neighbor. If the adjacency is up when the
command is given, the peering session is dropped and all route information
learned from the neighbor is purged.
Syntax
neighbor { ip-address | ipv6-address [interface interface-id] | autodetect
interface interface-id } shutdown
no neighbor { ip-address | ipv6-address [interface interface-id] | autodetect
interface interface-id } shutdown
• ip-address – The neighbor’s IPv4 address. This is the IP address of the
neighbor on the connected link.
• ipv6-address– The neighbor’s IPv6 address. If the neighbor’s IPv6 address
is a link local address, the local interface must also be specified. Valid in
IPv6 address family configuration mode.
• interface-id – The local VLAN routing interface over which the IPv6
neighbor can be reached. Use the vlan keyword and a VLAN ID. Range 1-
4093.
•
autodetect interface interface-id
—(Optional) The routing interface on
which the neighbor’s link local IPv6 address is auto detected. The
interface-id must be a VLAN routing interface. Range is 1–4093.
Default Configuration
Neighbors are administratively enabled by default.
Command Mode
BGP Router Configuration, IPv4 Address Family Configuration, IPv6 Address
Family Configuration
Layer 3 Routing Commands 1301
User Guidelines
When a neighbor is shut down, BGP first sends a NOTIFICATION message
with a Cease error code. When an adjacency is administratively shut down,
the adjacency stays down until administratively re-enabled (using no
neighbor shutdown).
Command History
Introduced in version 6.2.0.1 firmware.
Updated in version 6.3.0.1 firmware.
Example
console(config-router)#neighbor 10.130.14.55 shutdown
neighbor timers
Use the neighbor timers command to override the global keepalive and hold
timer values as well as set the keepalive and hold timers for a specific
neighbor.
Syntax
neighbor { ip-address | ipv6-address [ interface vlan vlan-id ] | autodetect
interface interface-id } timers keepalive holdtime
no neighbor { ip-address | ipv6-address [ interface vlan vlan-id ] | autodetect
interface interface-id } timers
• ip-address—The neighbor’s IPv4 address. This is the IP address of the
neighbor on the connected link.
• ipv6-address—The neighbor’s IPv6 address. If the neighbor’s IPv6 address
is a link local address, the local interface must also be specified.
•interface vlan vlan-id—The local interface/VLAN ID over which the IPv6
neighbor can be reached. Range 1-4093.
•
autodetect interface interface-id
—(Optional) The routing interface on
which the neighbor’s link local IPv6 address is auto detected. The
interface-id must be a VLAN routing interface. Range is 1–4093.
Layer 3 Routing Commands 1302
• keepalive—The time, in seconds, between BGP KEEPALIVE packets sent
to a neighbor. The range is 0 to 65,535 seconds. A small internal jitter is
applied to the keepalive interval timer in order to reduce the CPU load
that may occur when multiple timers expire simultaneously.
• holdtime—The time, in seconds, that BGP continues to consider a
neighbor to be alive without receiving a BGP KEEPALIVE or UPDATE
packet from the neighbor. If no KEEPALIVE is received from a neighbor
for longer than the hold time, BGP drops the adjacency. If the hold time is
set to 0, then BGP does not enforce a hold time and BGP does not send
periodic KEEPALIVE messages. The range is 0, 3 to 65,535 seconds.
Default Configuration
The keepalive and hold timers default to the globally configured values set
with the timers bgp command.
Command Mode
BGP Router Configuration mode, IPv4 Address Family Configuration mode
User Guidelines
The new values are not applied to adjacencies already in the ESTABLISHED
state. Updated keepalive or hold time values are only applied when an
adjacency is newly formed.
Command History
Introduced in version 6.2.0.1 firmware.
Updated in version 6.3.0.1 firmware.
Example
console(config-router)#neighbor 10.130.14.55 timers 1000 500
neighbor update-source
The neighbor update-source command configures BGP to use a specific IP
address as the source address for the TCP connection with a neighbor. This IP
address must be the IP address configured on the peer BGP router as the
neighbor address for this router.
Layer 3 Routing Commands 1303
Syntax
neighbor { ip-address | ipv6-address [ interface vlan vlan-id ] | autodetect
interface interface-id }} update-source interface
no neighbor { ip-address | ipv6-address [ interface vlan vlan-id ] | autodetect
interface interface-id }} update-source
• ip-address—The neighbor’s IPv4 address. This is the IP address of the
neighbor on the connected link.
• ipv6-address—The neighbor’s IPv6 address. If the neighbor’s IPv6 address
is a link local address, the local interface must also be specified.
•interface vlan vlan-id—The local interface/VLAN ID over which the IPv6
neighbor can be reached. Range: 1-4093.
•
autodetect interface interface-id
—(Optional) The routing interface on
which the neighbor’s link local IPv6 address is auto detected. The
interface-id must be a VLAN routing interface. Range is 1–4093.
•update-source interface – Use the primary IPv4 address on the specified
interface as the source IP address for the TCP connection with the
neighbor.
Default Configuration
When no update source is configured, the BGP TCP connections use the
primary IPv4 address on the outgoing interface to the neighbor.
Command Mode
BGP Router Configuration mode, IPv4 Address Family Configuration mode
User Guidelines
The IP address used as the source address in IP packets sent to a neighbor
must be the same address used to configure the local system as a neighbor on
the peer BGP router. In other words, if the update source is configured, it
must be the same IP address used in the neighbor remote-as command on
the peer.
Layer 3 Routing Commands 1304
It is common to use an IP address on a loopback interface as an update source
because a loopback interface is always reachable as long as any routing
interface is up. The peering session will stay up as long as the loopback
interface remains reachable. If you use an IP address on a routing interface,
then the peering session will go down if that interface goes down.
Command History
Introduced in version 6.2.0.1 firmware.
Updated in version 6.3.0.1 firmware.
Example
console(config-router)#neighbor 10.130.14.55 update-source 100
network (BGP Router Configuration)
The network command configures BGP to advertise an address prefix.The
prefix is only advertised if the common routing table includes a non-BGP
route with the same prefix. The route may be a connected route, a static
route, or a dynamic route from another routing protocol.
Syntax
network prefix mask network-mask [ route-map rm-name ]
no network prefix mask network-mask [ route-map rm-name ]
network ipv6-prefix/prefix-length [ route-map rm-name ]
no network ipv6-prefix/prefix-length
• prefix—An IPv4 address prefix in dotted decimal notation.
• network-mask—The network mask for the prefix in dotted-quad notation
(e.g., 255.255.0.0) where a zero bit in the mask indicates a don’t care
condition for the corresponding address bits.
• ipv6-prefix—An IPv6 network prefix. This argument must be in the form
documented in RFC 2373 where the address is specified in hexadecimal
using 16-bit values between 0x00 and 0xff and separated by colons.
Layer 3 Routing Commands 1305
• prefix-length—The length of the IPv6 prefix given as part of the ipv6-
prefix. Required if a prefix is specified. A decimal value in the range 1 to
128 that indicates how many of the high-order contiguous bits of the
address comprise the prefix (the network portion of the address) in /length
format. A slash mark must precede the decimal value in /length format.
• rm-name—The name of a route map used to filter prefixes or set
attributes of prefixes advertised by this network. The route map
statements are evaluated in order, and the first match terminates
processing of the route map. If the specified route map does not exist, the
network prefix is not advertised (all routes are denied).
Default Configuration
No networks are advertised by default.
Command Mode
BGP Router Configuration
User Guidelines
BGP supports up to 64 networks. The network command may also be used
specify a default route (network 0.0.0.0 mask 0.0.0.0).
If a route map is configured to set attributes on the advertised routes, match
as-path and match community terms in the route map are ignored. A match
ip-address prefix-list term is honored in this context. If the route map
includes such a match term, the network is only advertised if the prefix list
permits the network prefix. If the specified route map does not exist, the
network is not advertised.
Command History
Introduced in version 6.2.0.1 firmware.
Example
console(config-router)#network 10.130.14.55 255.255.0.0
Layer 3 Routing Commands 1306
network (IPv6 Address Family Configuration)
In IPv6 address family configuration mode, the network command identifies
network IPv6 prefixes that BGP originates in route advertisements to its
neighbors.
Syntax
network prefix mask network-mask [ route-map rm-name ]
no network prefix mask network-mask [ route-map rm-name ]
network ipv6-prefix/prefix-length [ route-map rm-name ]
no network ipv6-prefix/prefix-length
• prefix—An IPv4 address prefix in dotted decimal notation.
• network-mask—The network mask for the prefix in dotted-quad notation
(e.g., 255.255.0.0) where a zero bit in the mask indicates a don’t care
condition for the corresponding address bits.
• ipv6-prefix—An IPv6 network prefix. This argument must be in the form
documented in RFC 2373 where the address is specified in hexadecimal
using 16-bit values between 0x00 and 0xff and separated by colons.
• prefix-length—The length of the IPv6 prefix given as part of the ipv6-
prefix. Required if a prefix is specified. A decimal value in the range 1 to
128 that indicates how many of the high-order contiguous bits of the
address comprise the prefix (the network portion of the address) in /length
format. A slash mark must precede the decimal value in /length format.
• rm-name—The name of a route map used to filter prefixes or set
attributes of prefixes advertised by this network. The route map
statements are evaluated in order, and the first match terminates
processing of the route map. If the specified route map does not exist, the
network prefix is not advertised (all routes are denied).
Default Configuration
No networks are advertised by default.
Command Mode
IPv6 Address Family Configuration
Layer 3 Routing Commands 1307
User Guidelines
BGP supports up to 64 networks. The network command may also be used
specify a default route (network 0.0.0.0 mask 0.0.0.0).
If a route map is configured to set attributes on the advertised routes, match
as-path and match community terms in the route map are ignored. A match
ip-address prefix-list term is honored in this context. If the route map
includes such a match term, the network is only advertised if the prefix list
permits the network prefix. If the specified route map does not exist, the
network is not advertised.
Example
console(config-router-af)#network 10.130.14.55 255.255.0.0
Default Configuration
The default tag value is 0.
There is no default metric or route map configured.
Command Mode
Router BGP Configuration mode
User Guidelines
The configured metric value is specific to the routes distributed. Use the
default-metric command to configure a default metric for all redistributed
routes.
The RIP metric is a hop count. The metric for a redistributed route limits the
distance the route can be redistributed in the RIP network. Since the
maximum valid metric in a RIP network is 15, redistributing routes into RIP
with a metric of 12 implies that the route can only be redistributed across 3
hops in the RIP network.
In general, redistributing routes from BGP into a RIP network is not
recommended.
Command History
Introduced in version 6.2.0.1 firmware.
Layer 3 Routing Commands 1308
Example
console(config-router)#redistribute rip
rd
Use the rd command to configure a BGP routing session to advertise VPN-
IPv4 prefixes. Use the no form of this command to delete the VPN-IPv4
configuration.
Syntax
rd route-distinguisher
no rd
route-distinguisher—
A 2-byte or an 8-byte value to be prepended to an IPv4
prefix to create a VPN IPv4 prefix. The RD value can be specified in either of
the following formats:
• 16-bit AS number: a 32-bit value (Ex : 100:11)
• 32-bit IPv4 address: a 16-bit value (Ex : 10.1.1.1:22)
Default Configuration
VRF configuration
Command Mode
Privileged Exec mode
User Guidelines
An RD creates routing and forwarding table instance and specifies the default
route distinguisher for a VPN. The RD is prepended to IPv4 prefixes to
change them into globally unique VPN-IPv4 prefixes.
An RD is either:
• ASN related – Composed of an autonomous system number and an
arbitrary number.
• IP address related – Composed of an IP address and an arbitrary number.
Once an RD has been configured, it may not be reconfigured. Use the no
form of the command to remove the RD before configuring a new RD value.
Layer 3 Routing Commands 1309
This command is effective only if BGP is running on the router.
Command History
Introduced in version 6.3.0.1 firmware.
Example
The following example shows how to configure an RD for a VRF instance in
ASN format:
console(config)#ip vrf Customer_A
console(config-vrf-Customer_A)#rd 62001:10
console(config-vrf-Customer_A)#exit
The following example shows how to configure an RD for a VRF instance in
IPv4 address format:
console(config)#ip vrf Customer_A
console(config-vrf-Customer_A)#rd 192.168.10.1:10
console(config-vrf-Customer_A)#exit
redistribute (BGP)
The redistribute command configures BGP to advertise routes learned by
means outside of BGP. BGP can redistribute local (connected), static, OSPF,
and RIP routes.
Syntax
redistribute { ospf [match {[internal][external 1] [external 2] [nssa-external
1] [nssa-external 2]} ] | rip | connected | static} [metric metric-value]
[route-map map-tag]
no redistribute { ospf [match {[internal][external 1] [external 2] [nssa-
external 1] [nssa-external 2]} ] | rip | connected | static} [metric metric-
value] [route-map map-tag]
•ospf, rip, connected, static—A source of routes to redistribute.
•metric metric-value—(Optional) When this option is specified, BGP
advertises the prefix with the Multi Exit Discriminator path attribute set
to the configured value. If this option is not specified, but a default metric
is configured for BGP (default metric command), the MED is set to the
default metric. If both a default metric and a metric value are not
configured, the prefix is advertised without an MED attribute.
Layer 3 Routing Commands 1310
•match—(Optional) By default, if BGP is configured to redistribute OSPF
routes, BGP only redistributes internal routes (OSPF intra-area and inter-
area routes). Use of the match option configures BGP to also redistribute
specific types of external routes, or to disable redistribution of internal
OSPF routes. The match option is only valid for OSPF originated routes.
•route-map map-tag—(Optional) A route map can be used to filter
redistributed routes by destination prefix using a prefix list.
Default Configuration
BGP redistributes no routes by default. When BGP redistributes OSPF
routes, it redistributes only internal routes unless the match option specifies
external routes.
Command Mode
BGP Router Configuration mode
User Guidelines
The distribute-list out command can also be used to filter redistributed
routes by prefix. Either a redistribute route map or a distribute list may be
configured, but not both.
Successive invocations of the redistribute command are additive. The
redistribute command does not overwrite previous redistribute command
configuration or the default configuration. Use the no redistribute command
to remove the redistribution of internal or external routes.
A default route cannot be redistributed unless the default-information-
originate command is given.
The configured metric value is specific to the routes distributed. Use the
default-metric command to configure a default metric for all redistributed
routes.
The RIP metric is a hop count. The metric for a redistributed route limits the
distance the route can be redistributed in the RIP network. Since the
maximum valid metric in a RIP network is 15, redistributing routes into RIP
with a metric of 12 implies that the route can only be redistributed across 3
hops in the RIP network.
Layer 3 Routing Commands 1311
In general, redistributing routes from BGP into a RIP network is not
recommended.
Command History
Introduced in version 6.2.0.1 firmware.
Example
console(config-router)#redistribute rip
redistribute (BGP IPv6)
In IPv6 address family configuration node, the redistribute command
configures BGP to redistribute non-BGP originated routes from the IPv6
routing table.
Syntax
redistribute { ospf [match {[internal][external 1] [external 2] [nssa-external
1] [nssa-external 2]} ] | rip | connected | static} [metric metric-value]
[route-map map-tag]
no redistribute { ospf [match {[internal][external 1] [external 2] [nssa-
external 1] [nssa-external 2]} ] | rip | connected | static} [metric metric-
value] [route-map map-tag]
•ospf, rip, connected, static—A source of routes to redistribute.
•metric metric-value—(Optional) When this option is specified, BGP
advertises the prefix with the Multi Exit Discriminator path attribute set
to the configured value. If this option is not specified, but a default metric
is configured for BGP (default metric command), the MED is set to the
default metric. If both a default metric and a metric value are not
configured, the prefix is advertised without a MED attribute.
•match—(Optional) By default, if BGP is configured to redistribute OSPF
routes (redistribute ospf command), BGP only redistributes internal
routes (OSPF intra-area and inter-area routes). Use of the match option
configures BGP to also redistribute specific types of external or internal
routes, or to disable redistribution of OSPF routes. The match option is
Layer 3 Routing Commands 1312
only valid for OSPF originated routes. Successive redistribute commands
are additive. Use the no form of the command to disable redistribution of
a route source.
•route-map map-tag—(Optional) A route map can be used to filter
redistributed routes by destination prefix using a prefix list.
Default Configuration
BGP redistributes no routes by default. When BGP redistributes OSPF
routes, it redistributes only internal routes unless the match option specifies
external routes.
Command Mode
IPv6 Address Family Configuration mode
User Guidelines
The distribute-list out command can also be used to filter redistributed
routes by prefix. Either a redistribute route map or a distribute list may be
configured, but not both.
Successive invocations of the redistribute command are additive. The
redistribute command does not overwrite previous redistribute command
configuration or the default configuration. Use the no redistribute command
to remove the redistribution of internal or external routes.
A default route cannot be redistributed unless the default-information-
originate command is given. The configured metric value is specific to the
routes distributed. Use the default-metric command to configure a default
metric for all redistributed routes.
In IPv6 address family configuration mode, the syntax and behavior is the
same as for IPv4, except that Dell EMC Networking does not support RIP for
IPv6.
Command History
Introduced in version 6.2.0.1 firmware.
Example
console(config-router-af)#redistribute rip
Layer 3 Routing Commands 1313
route-target
Use the route-target command to create a list of export, import, or both route
target (RT) extended communities for the specified VRF instance.
Use the no form of the command to remove the route target from a VRF
instance.
Syntax
route-target {export | import | both} rt-ext-comm
no route-target {export | import | both} rt-ext-comm
•export — Exports routing information to the target VPN extended
community.
•import—Imports routing information from the target VPN extended
community.
• both—Exports and imports the routing information to/from the target
VPN extended community.
• rt-ext-comm — The route-target extended community attributes to be
added to the list of import, export or both (import and export) route-target
extended communities.
The route target specifies a target VPN extended community. Like a route
distinguisher, the route-target extended community can be specified in
either of the following formats:
• 16-bit AS number :your 32-bit value (Ex : 100:11)
• 32-bit IPv4 address :your 16-bit value (Ex : 10.1.1.1:22)
Default Configuration
No route targets are configured by default.
Command Mode
Privileged Exec mode
Layer 3 Routing Commands 1314
User Guidelines
Configure the route-target command once for each target extended
community. Routes that are learned and carry a specific route-target extended
community are imported into all VRFs configured with that particular
extended community as an import route target.
The configured export RT is advertised as an extended community in the MP-
BGP format to the eBGP peer. An RT is either:
• ASN related – Composed of an autonomous system number and an
arbitrary number.
• IP address related – Composed of an IP address and an arbitrary number.
This command is effective only if BGP is running on the router.
Command History
Introduced in version 6.3.0.1 firmware.
Example
The following example shows how to configure route target extended
community attributes for a VRF instance in IPv4. The result of this command
sequence is that VRF named Customer_A has two export extended
communities (100:10 and 300:10) and two import extended communities
(300:10 and 192.168.10.1:10).
console(config)#ip vrf Customer_A
console(config-vrf-Customer_A)#route-target export 100:10
console(config-vrf-Customer_A)#route-target import 192.168.10.1:10
console(config-vrf-Customer_A)#route-target both 300:10
console(config-vrf-Customer_A)#exit
set extcommunity rt
Use the set extcommunity rt command to set BGP extended community
attributes for the route target. Use the no form of the command to remove
the extended community attributes for the route target.
NOTE: This command is effective only if BGP is running on the router.
Syntax
set extcommunity rt value [additive]
Layer 3 Routing Commands 1315
no set extcommunity rt
• value — Specifies the route target extended community value. This value
can be entered in one of the following formats:
– 16-bit AS number :your 32-bit value (Ex : 100 :11)
– 32-bit IPv4 address :your 16-bit value (Ex : 10.1.1.1 :22
•additive–Adds a route target to the existing route target list without
replacing any existing route targets.
Default Configuration
No RT extended community attributes are set.
Command Mode
Route Map Configuration mode
User Guidelines
The route target (RT) extended community attribute is configured with the
rt keyword. This attribute is used to identify VRFs that may receive routes
that are tagged with the configured route target. Configuring the route target
extended attribute with a route allows that route to be placed in the per-site
forwarding tables that are used for routing traffic that is received from
corresponding sites. Only one route target can be specified in a single set
extcommunity rt command. To specify more than one route target, issue the
command again with the additive keyword.
By default, specifying route targets causes the system to replace existing route
targets with the new route targets, unless the additive keyword is used. The
use of the additive keyword causes the system to add the new route targets to
the existing route target list, but does not replace any existing route targets.
Command History
Introduced in version 6.3.0.1 firmware.
Example
The following example shows how to set the extended community attribute
for route target with route-maps.
(R1)(Config)# ip extcommunity-list 10 permit rt 1:1
Layer 3 Routing Commands 1316
(R1)(config)# route-map SEND_OUT permit 10
(R1)(config-route-map)# match extcommunity 13
(R1)(config-route-map)# set extcommunity rt 10:10 additive
(R1)(config-route-map)# exit
set extcommunity soo
Use the set extcommunity soo command to set BGP extended community
attributes for the site of origin. Use the no form of the command to remove
the extended community attributes for the site of origin.
NOTE: This command is effective only if BGP is running on the router.
Syntax
set extcommunity soo value [additive]
no set extcommunity soo
• value — Specifies the site of origin extended community value. This value
can be entered in one of the following formats:
– 16-bit AS number :your 32-bit value (Ex : 100 :11)
– 32-bit IPv4 address :your 16-bit value (Ex : 10.1.1.1 :22
•additive–Adds a route target to the existing route target list without
replacing any existing route targets.
Default Configuration
No site of origin extended community attributes are set.
Command Mode
Route Map Configuration mode
User Guidelines
The site of origin (SOO) extended communities attribute is configured with
the soo keyword. This attribute uniquely identifies the site from which the
Provider Edge (PE) router learned the route. All routes learned from a
particular site must be assigned the same SOO extended community
attribute, whether a site is connected to a single PE router or multiple PE
routers. Configuring this attribute prevents routing loops from occurring
when a site is multi-homed. The SOO extended community attribute is
Layer 3 Routing Commands 1317
configured on the interface and is propagated into BGP through
redistribution. The SOO can be applied to routes that are learned from VRFs.
The SOO should not be configured for stub sites or sites that are not multi-
homed
Command History
Introduced in version 6.3.0.1 firmware.
Example
The following example shows how to set the extended community attribute
for site of origin with route-maps on the sending BGP router.
(R1)(Config)# ip extcommunity-list 10 permit
(R1)(config)# route-map RECV_IN permit 10
(R1)(config-route-map)# set extcommunity soo 10:10
(R1)(config-route-map)# exit
The receiving BGP router will apply the route map with an extended
community list in the inward direction.
show bgp ipv6
Use this command to display IPv6 routes in the BGP routing table. This
command deprecates and replaces the show ipv6 bgp command.
Syntax
show bgp ipv6[ipv6-prefix/prefix-length [ longer-prefixes | shorter-prefixes [
length ] ] | filter-list as-path-list ]
• ipv6-prefix—An IPv6 network prefix. This argument must be in the form
where the address is specified in hexadecimal using 16-bit values between
0x00 and 0xff and separated by colons. Limits the output to a specific
prefix.
• prefix-length—The length of the IPv6 prefix given as part of the ipv6-
prefix. This is required if a prefix is specified. A decimal value in the range
1 to 128 that indicates how many of the high-order contiguous bits of the
address comprise the prefix (the network portion of the address) in /length
format. A slash mark must precede the decimal value in /length format.
Layer 3 Routing Commands 1318
•longer-prefixes—Displays the specified prefix and any longer prefixes
within the same range.
•shorter-prefixes
[ length ]
—Used with the ipv6-prefix/prefix-length option
to show routes whose prefix length is shorter than prefix-length, and,
optionally, longer than a specified length. This option may not be given if
the longer-prefixes option is given.
•filter-list
as-path-list
—Filters the output to the set of routes that match
the specified AS Path list. This option may not be given if an ipv6-
prefix/prefix-length option is given.
Default Configuration
There is no default configuration.
Command Mode
User Exec mode, Privileged Exec mode, Global Configuration mode and all
sub-modes
User Guidelines
The following fields are displayed.
Field Description
BGP table version Each time phase 2 of the BGP decision process runs to
select new BGP routes, this number is incremented.
Status codes
• s—The route is aggregated into an aggregate address
configured with the summary-only option
• *—Dell EMC Networking BGP never displays invalid
routes; so this code is always displayed (to maintain
consistency with the industry standard)
• >—Indicates that BGP has selected this path as the
best path to the destination
•i—If the route is learned from an internal peer
Network IPv6 Destination prefix
Next Hop The route’s BGP next hop
Metric Multi-Exit Discriminator
Layer 3 Routing Commands 1319
Command History
Introduced in version 6.2.0.1 firmware.
Modified in version 6.3.0.1 firmware.
Example
console# show bgp ipv6
BGP table version is 5, local router ID is 20.1.1.1
Status codes: s suppressed, * valid, > best, i - internal
Origin codes: i - IGP, e - EGP, ? - incomplete
Network Next Hop Metric LocPrf Path
*> 2001:DB8::/48 3FFE:100::1 10 100 20 10 i
3FFE:200::4
*> 2001:DB8:4:5::/64 3FFE:100::1 10 100 20 10 ?
show bgp ipv6 aggregate-address
Use this command to display the configured IPv6 aggregate addresses and
indicates if each address is currently active. This command replaces and
deprecates the show ipv6 bgp aggregate-address command.
Syntax
show bgp ipv6 aggregate address-group
Default Configuration
There is no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration sub-
modes
User Guidelines
The following fields are displayed.
LocPrf The local preference
Path The AS path
Origin The value of the Origin attribute
Layer 3 Routing Commands 1320
Command History
Introduced in version 6.2.0.1 firmware.
Modified in version 6.3.0.1 firmware.
Example
console# show bgp ipv6 aggregate-address
Prefix/Len AS Set Summary Only Active
---------------- ------ ------------ ------
2001:DB8::/48 N Y Y
3ffe:4000:1::/48 N Y Y
show bgp ipv6 community
Use this command to display IPv6 routes that belong to the specified set of
communities. This command replaces and deprecates the show ipv6 bgp
community command
Syntax
show bgp ipv6 community communities [ exact-match ]
• communities—A string of zero or more community values, which may be
in either format and may contain the well-known community keywords no-
advertise and no-export. The output displays routes that belong to every
community specified in the command.
•exact-match— Only displays routes that are members of those and only
those communities specified in the command.
Field Description
Prefix/Len Destination prefix and prefix length.
AS Set Indicates if an empty AS path is advertised with the
aggregate address (N) or an AS SET is advertised with
the set of AS numbers for the paths contributing to the
aggregate (Y).
Summary Only Indicates if the individual networks are suppressed (Y)
or advertised (N).
Active Indicates if the aggregate is currently being advertised.
Layer 3 Routing Commands 1321
Default Configuration
There is no default configuration for this command.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration sub-
modes
User Guidelines
The following fields are displayed.
Command History
Introduced in version 6.2.0.1 firmware.
Modified in version 6.3.0.1 firmware.
Example
console(config)#show bgp ipv6 community
Field Description
BGP table version Each time phase 2 of the BGP decision process runs to
select new BGP routes, this number is incremented.
Status codes
• s—The route is aggregated into an aggregate address
configured with the summary-only option
• *—Dell EMC Networking BGP never displays invalid
routes; so this code is always displayed (to maintain
consistency with the industry standard)
• >—Indicates that BGP has selected this path as the
best path to the destination
•i—If the route is learned from an internal peer
Network IPv6 Destination prefix
Next Hop The route’s BGP next hop
Metric Multi-Exit Discriminator
LocPrf The local preference
Path The AS path
Layer 3 Routing Commands 1322
BGP table version is 0, local router ID is 65.1.1.1
Status Codes: s suppressed, * valid, > best, i - internal
Origin Codes: i - IGP, e - EGP, ? - incomplete
Network Next Hop Metric LocPref Path
------------------ --------------- ---------- ---------- --------
show bgp ipv6 community-list
Use this command to display the IPv6 routes that match a specified
community list.
Syntax
show bgp ipv6 community-list name [ exact-match ]
• name—A standard community list name.
•exact-match—Displays only routes that are an exact match for the set of
communities in the matching community list statement.
Default Configuration
There is no default configuration for this command.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration sub-
modes
User Guidelines
The following fields are displayed.
Field Description
BGP table version Each time phase 2 of the BGP decision process runs to
select new BGP routes, this number is incremented.
Layer 3 Routing Commands 1323
Command History
Introduced in version 6.2.0.1 firmware.
Example
BGP table version is 0, local router ID is 65.1.1.1
Status Codes: s suppressed, * valid, > best, i - internal
Origin Codes: i - IGP, e - EGP, ? - incomplete
Network Next Hop Metric LocPref Path
------------------ --------------- --------- ---------- ----------
show bgp ipv6 listen range
Use the show bgp ipv6 listen range command to display information about
IPv6 BGP listen ranges.
Syntax
show bgp ipv6 [vrf vrf-name] listen range [ network/length ]
•
network/length
— Displays information about the specified listen range.
• vrf-name—The name of a previously configured VRF.
Status codes
• s—The route is aggregated into an aggregate address
configured with the summary-only option
• *—Dell EMC Networking BGP never displays invalid
routes; so this code is always displayed (to maintain
consistency with the industry standard)
• >—Indicates that BGP has selected this path as the
best path to the destination
•i—If the route is learned from an internal peer
Network IPv6 Destination prefix
Next Hop The route’s BGP next hop
Metric Multi-Exit Discriminator
LocPrf The local preference
Path The AS path
Layer 3 Routing Commands 1324
Default Configuration
There is no default configuration.
Command Mode
Privileged Exec mode
User Guidelines
There are no usage guidelines.
Command History
Introduced in version 6.3.0.1 firmware.
Example
console#show bgp ipv6 listen range
Listen Range.................................. 2001::1/64
Inherited Template............................ template_2001
Member ASN State
--------------------------------------- ----- -----------
2001::10 65001 OPENCONFIRM
2001::20 0 ACTIVE
Listen Range.................................. 2002::1/64
Inherited Template............................ template_2002
Member ASN State
--------------------------------------- ----- -----------
show bgp ipv6 neighbors
Use this command to display neighbors with IPv4 or IPv6 peer addresses that
are enabled for the exchange of IPv6 prefixes. This command deprecates and
replaces the show ipv6 bgp neighbors command.
Syntax
show bgp ipv6 neighbors [ ipv4-address | ipv6-address [ interface interface-
id ] | autodetect interface interface-id ]
Layer 3 Routing Commands 1325
•
ipv4-address | ipv6-address
—(Optional) If a peer address is specified, the
output is limited to an individual peer.
• interface-id—(Optional) If the peer address is an IPv6 link local address,
the interface that defines the scope of the link local address must be given.
This must be a VLAN routing interface.
•
autodetect interface interface-id
—(Optional) The routing interface on
which the neighbor’s link local IPv6 address is auto detected.
Default Configuration
There is no default configuration for this command.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration sub-
modes
User Guidelines
• “RFC 5549 Support” is displayed only if the BGP neighbor is peered over
IPv6 network.
• If the peer is configured as “autodetect”, the “Remote Address” shows
detected IPv6 address or “Unresolved” in case if the peer is not detected by
the autodetect feature.
• “Autodetect status” is displayed only if the peer is configured as
“autodetect”. The field shows one of the following statuses:
• Peer is detected
• Peer is not detected
• Multiple peers are detected
The following fields are displayed.
Field Description
Remote Address The neighbor’s IPv6 address. If this is a link local
address, the next line indicates the scope of the address.
Remote AS The neighbor’s autonomous system number
Peer ID The neighbor’s BGP router ID
Layer 3 Routing Commands 1326
Peer Admin Status START or STOP
Peer State The adjacency state of this neighbor
Peer Type The type of peer
Listen Range The ports that are being listened to.
Local Port TCP port number on the local end of the connection
Remote Port TCP port number on the remote end of the connection
Connection Retry Interval How long BGP waits between connection retries
Neighbor Capabilities Optional capabilities reported by the neighbor,
recognized and accepted by this router. Codes listed in
the show output are as follows:
• MP: Multiprotocol
• RF: Route Refresh
This version of Dell EMC Networking does not support
any multiprotocol AFI/SAFI pairs other than IPv4
unicast. The presence of this capability does not imply
otherwise.
IPv4 Unicast Support Indicates whether IPv4 unicast routes can be exchanged
with this peer. Both indicates that IPv4 is active locally
and the neighbor indicated support for IPv4 unicast in
its OPEN message. Sent indicates that IPv4 unicast is
active locally, but the neighbor did not include this
AFI/SAFI pair in its OPEN message. IPv4 unicast is
always enabled locally and cannot be disabled.
IPv6 Unicast Support Indicates whether IPv6 unicast routes can be exchanged
with this peer. Both and Sent have the same meaning as
for IPv4. None indicates that neither the local router
nor the peer has IPv6 enabled for this adjacency.
Received indicates that the peer advertised the IPv6
unicast capability, but it is not enabled locally. IPv6
unicast is enabled locally using the neighbor activate
command in address-family IPv6 configuration mode.
RFC 5549 Support If support for RFC 5549 is enabled.
Update Source The configured value for the source IP address of
packets sent to this peer. This field is only included in
the output if the update source is configured.
Layer 3 Routing Commands 1327
Local Interface Address The IPv6 address used as the source IP address in
packets sent to this neighbor.
Configured Hold Time The time, in seconds, that this router proposes to this
neighbor as the hold time
Configured Keep Alive
Time
The configured KEEPALIVE interval for this neighbor.
Negotiated Hold Time The minimum configured hold time and the hold time
in the OPEN message received from this neighbor. If the
local router does not receive a KEEPALIVE or UPDATE
message from this neighbor within this interval of time,
the local router drops the adjacency. This field is only
shown if the adjacency state is OPEN CONFIRM or
greater.
Keep Alive Time The number of seconds between KEEPALIVE messages
sent to this neighbor. This field is only shown if the
adjacency state is OPEN CONFIRM or greater.
Prefix Limit The maximum number of prefixes this router is willing
to accept from this neighbor.
Prefix Warning Threshold Percentage of the prefix limit that causes a warning
message to be logged.
Warning Only on Prefix
Limit
Whether to shutdown a neighbor that exceeds the
prefix limit. TRUE if the event is logged without
shutting down the neighbor.
Minimum Advertisement
Interval
The minimum time between UPDATE messages sent to
this neighbor.
MD5 Password The TCP MD5 password, if one is configured, in plain
text.
Last Error The last error that occurred on the connection to this
neighbor.
Last SubError The suberror reported with the last error.
Time Since Last Error How long since an error has occurred.
Established Transitions The number of times the adjacency has transitioned
into the Established state.
Established Time How long since the connection last transitioned to or
from the Established state.
Layer 3 Routing Commands 1328
Command History
Introduced in version 6.2.0.1 firmware. Modified in version 6.3.0.1 firmware.
Time Elapsed Since Last
Update
How long since an UPDATE message has been received
from this neighbor.
IPv6 Outbound Update
Group
The IPv6 outbound update group.
Message Table The number of BGP messages sent to and received from
this neighbor.
Received Update Queue
Size
Received UPDATE messages are queued for processing.
This section shows the current length of the neighbor’s
UPDATE queue in bytes, the high water mark, the
limit, and the number of UPDATEs that have been
dropped because the queue reached the limit.
The following fields are displayed for IPv4 and for IPv6.
Prefixes Advertised A running count of the number of prefixes advertised to
or received from this neighbor.
Prefixes Withdrawn A running count of the number of prefixes included in
the Withdrawn Routes portion of UPDATE messages,
to and from this neighbor.
Prefixes Current The number of prefixes currently advertised to or
received from this neighbor. For inbound prefixes, this
count only includes prefixes that passed inbound policy.
Prefixes Accepted The number of prefixes from this neighbor that are
eligible to become active in the local RIB. Received
prefixes are ineligible if their BGP Next Hop is not
resolvable or if the AS Path contains a loop. A prefix is
only considered accepted if it passes inbound policy.
Prefixes Rejected The number of prefixes currently received from this
neighbor that fail inbound policy.
Max NLFI per Update The maximum number of prefixes included in a single
UPDATE message, to and from this neighbor.
Min NLRI per Update The minimum number of prefixes included in a single
UPDATE message, to and from this neighbor.
Layer 3 Routing Commands 1329
Example
console# show bgp ipv6 neighbors fe80::2
Description: spine 1 router 1
Remote Address................................ fe80::2
Interface..................................... 0/1
Remote AS..................................... 100
Peer ID....................................... 14.3.0.1
Peer Admin Status............................. START
Peer State.................................... ESTABLISHED
Peer Type..................................... DYNAMIC
Local Port.................................... 179
Remote Port................................... 58265
Connection Retry Interval..................... 120 sec
Neighbor Capabilities......................... None
IPv4 Unicast Support.......................... None
IPv6 Unicast Support.......................... Both
RFC 5549 Support.............................. Enable
Update Source................................. None
Local Interface Address....................... fe80::2
Configured Hold Time.......................... 90 sec
Configured Keep Alive Time.................... 30 sec
Negotiated Hold Time.......................... 30 sec
Keep Alive Time............................... 10 sec
MD5 Password.................................. password
Last Error (Sent).............................. Hold Timer Expired
Last SubError.................................. None
Time Since Last Error.......................... 0 day 0 hr 4 min 27 sec
Established Transitions........................ 1
Established Time............................... 0 day 0 hr 4 min 25 sec
Time Since Last Update......................... 0 day 0 hr 4 min 24 sec
IPv6 Outbound Update Group..................... 7
Open Update Keepalive Notification Refresh Total
Msgs Sent 1 0 10 0 0 11
Msgs Rcvd 1 1 11 0 0 12
Received UPDATE Queue Size: 0 bytes. High: 355. Limit 196096. Drops 0.
IPv6 Prefix Statistics:
Inbound Outbound
Prefixes Advertised 1 0
Prefixes Withdrawn 0 0
Prefixes Current 1 0
Prefixes Accepted1 N/A
Prefixes Rejected 1 N/A
Max NLRI per Update 1 0
Min NLRI per Update 1 0
Layer 3 Routing Commands 1330
show bgp ipv6 neighbors advertised-routes
Use this command to display IPv6 routes advertised to a specific neighbor.
The format and field descriptions are the same as for show ip bgp neighbors
advertised-routes, except that the Network and Next Hop fields show IPv6
addresses. This command deprecates and replaces the show ipv6 bgp
neighbors advertised-routes command.
Syntax
show bgp ipv6 neighbors { ipv4-address | ipv6-address [ interface interface-id
] } advertised-routes
• ipv4-address—The IPv4 address of a BGP peer.
• ipv6-address [interface interface-id]—The IPv6 address of a BGP peer. If
the peer address is an IPv6 link local address, the interface that defines the
scope of the link local address must be given.
•
autodetect interface interface-id
—(Optional) The routing interface on
which the neighbor’s link local IPv6 address is auto detected. The interface
ID must be a VLAN routing interface.
Default Configuration
There is no default configuration for this command.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration sub-
modes
User Guidelines
The following fields are displayed.
Field Description
BGP table version Each time phase 2 of the BGP decision process runs to
select new BGP routes, this number is incremented
Local router ID The IP address of the local router.
Layer 3 Routing Commands 1331
Command History
Introduced in version 6.2.0.1 firmware.
Modified in version 6.3.0.1 firmware.
Example
console#show bgp ipv6 neighbors fe80::211:12ff:fe06:4 interface vl10
advertised-routes
BGP table version is 10, local router ID is 0.0.0.100
Status codes: p - advertisement pending
Origin codes: i - IGP, e - EGP, ? - incomplete
Network Next Hop Metric LocPref Path Origin
------------------ ---------------- ---------- ------- ------------- ------
1010:10::/64 0 i
2020:20::/64 0 i
Status Codes p – The route has been updated in Adj-RIB-Out since
the last UPDATE message was sent. Transmission of an
UPDATE message is pending.
Network The Destination prefix.
Next Hop The BGP Next Hop as advertised to the peer.
Metric The value of the Multi Exit Discriminator (MED), if
the MED is advertised to the peer.
LocPref The local preference. Local preference is never
advertised to external peers.
Path The AS path. The AS path does not include the local AS
number, which is added to the beginning of the AS path
when a route is advertised to an external peer.
Origin The value of the origin attribute.
• i—IGP
• e—EGP
• ?—Incomplete
Layer 3 Routing Commands 1332
show bgp ipv6 neighbors policy
Use this command to display the inbound and outbound IPv6 policies
configured for a specific peer. The output distinguishes policies that are
configured on the peer itself and policies that the peer inherits from a peer
template. This command deprecates and replaces the show ipv6 bgp
neighbors policy command.
Syntax
show bgp ipv6 neighbors [ ipv4-address | ipv6-address [ interface interface-id
] ] policy
• ipv4-address—The IPv4 address of a neighbor may optionally be specified
to limit the output to a single neighbor.
• ipv6-address [ interface interface-id ]—The IPv6 address of a neighbor. If
specified, the output shows only this neighbor. If the neighbor’s address is
a link local address, the interface must be specified.
Default Configuration
There is no default configuration for this command.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration sub-
modes
User Guidelines
The following fields are displayed.
Command History
Introduced in version 6.2.0.1 firmware.
Field Description
Neighbor The peer address of a neighbor.
Policy A neighbor-specific BGP policy.
Template If the policy is inherited from a peer template, this field
lists the template name.
Layer 3 Routing Commands 1333
Modified in version 6.3.0.1 firmware.
Example
console#show bgp ipv6 neighbors fe80::1 vlan 10 policy
Neighbor Policy Template
--------------- ------------------------------------------------ -----------
fe80::1%Vl0010
activate
prefix-list jupiter in
prefix-list saturn out
maximum-prefix 2000
send-community
show bgp ipv6 neighbors received-routes
Use this command to display a list of IPv6 routes received from a specific
neighbor. The list includes either all routes received from the neighbor,
received routes that passed inbound policy, or routes rejected by inbound
policy. The output and format as the same as for show IP bgp neighbors
received-routes, except that they list IPv6 routes. Also, the command displays
a list of IPv4 routes received from a specific neighbor with RFC5549.
This command deprecates and replaces the show ipv6 bgp neighbors
received-routes command.
Syntax
show bgp ipv6 neighbors { ipv4-address | ipv6-address [ interface interface-id
] | autodetect interface interface-id } { received-routes | routes | rejected-
routes }
• ipv4-address—The IPv4 address of a BGP peer
• ipv6-address interface interface-id—The IPv6 address of a BGP peer. If the
peer address is an IPv6 link local address, the interface that defines the
scope of the link local address must be given.
•
autodetect interface interface-id
—(Optional) The routing interface on
which the neighbor’s link local IPv6 address is auto detected. The
interface-id must be a VLAN routing interface.
Layer 3 Routing Commands 1334
Default Configuration
There is no default configuration for this command.
Command Mode
Privileged Exec and all show modes
User Guidelines
The following fields are displayed.
Command History
Introduced in version 6.2.0.1 firmware.
Modified in version 6.3.0.1 firmware.
Example
console#show bgp ipv6 neighbors 1010:10::103 routes
Local router ID is 0.0.0.101
Origin codes: i - IGP, e - EGP, ? - incomplete
Network Next Hop Metric LocPref Path Origin
------------------- ---------------- ---------- ------- ------------- ------
1010:10::/64 1010:10::103 0 65001 i
2020:20::/64 1010:10::103 0 65001 i
console#show bgp ipv6 neighbors fe80::21e:c9ff:fede:b51a interface vlan 10
received-routes
Local router ID is 0.0.0.101
Field Description
Network The destination prefix.
Next Hop The BGP Next Hop as advertised by the peer.
Metric The value of the MED, if a MED is received from the
peer.
Local Pref The local preference received from the peer.
Path The AS path as received from the peer.
Origin The value of the Origin attribute as received from the
peer.
Layer 3 Routing Commands 1335
Origin codes: i - IGP, e - EGP, ? - incomplete
Network Next Hop Metric LocPref Path Origin
------------------- ---------------- ---------- ------- ------------- ------
1010:10::/64 1010:10::103 0 65001 i
2020:20::/64 1010:10::103 0 65001 i
show bgp ipv6 statistics
Use this command to display statistics for the IPv6 decision process. This
command deprecates and replaces the show ipv6 bgp statistics command.
Syntax
show bgp ipv6 statistics
Default Configuration
There is no default configuration for this command.
Command Mode
User Exec mode, Privileged Exec mode, Global Configuration mode and all
Configuration sub-modes.
User Guidelines
The following fields are displayed.
Field Description
Delta T How long since the decision process was run.
hours:minutes:seconds if the elapsed time is less than 24
hours. Otherwise, days:hours.
Phase The phase of the decision process that was run.
Upd Grp Outbound update group ID. Only applies when phase 3
is run.
GenId Generation ID of BGP routing table when decision
process was run. The generation ID is incremented each
time phase 2 of the decision process is run and when
there is a change to the status of aggregate addresses.
Reason The event that triggered the decision process to run
Layer 3 Routing Commands 1336
Command History
Introduced in version 6.2.0.1 firmware.
Modified in version 6.3.0.1 firmware.
Example
console # show bgp ipv6 statistics
Delta T Phase Upd Grp GenId Reason Peer Duration Adds Mods
Dels
29:33:49 3 0 2041 Fwd status chng 34 750 0 500
29:33:40 2 2042 Accept-RIB-In- 59 750 0 500
29:33:28 2 2043 Accept-RIB-In- 10 0 0 250
29:23:40 2 2044 Accept-RIB-In- 32 0 0 1000
29:13:40 3 1 2044 Phase 2 done 48 500 2500 1750
29:02:01 3 0 2044 Phase 2 done 41 750 0 1250
28:33:40 2 2045 Phase 1 done 32 500 0 0
28:14:40 2 2046 Phase 1 done 16 250 0 0
show bgp ipv6 summary
Use this command to display a summary of BGP configuration and status.
This command deprecates and replaces the show ipv6 bgp summary
command.
Syntax
show bgp ipv6 summary
Peer Phase 1 of the decision process can be triggered for a
specific peer when a peer’s inbound routing policy
changes or the peer is reset. When phase 1 is run for a
single peer, the peer’s IP address is given.
Duration How long the decision process took, in milliseconds
Adds The number of routes added. For phase 1, this is the
number of prefixes that pass inbound policy and are
added to the Accept-RIB-In. For phase 2, this is the
number of routes added to the BGP routing table. For
phase 3, this is the number of prefixes added to the
update group’s Adj-RIB-Out.
Mods The number of routes modified. Always 0 for phase 1
Dels The number of routes deleted. Always 0 for phase 1.
Layer 3 Routing Commands 1337
Default Configuration
There is no default configuration for this command.
Command Mode
User Exec mode, Privileged Exec mode, Global Configuration mode and all
Configuration sub-modes.
User Guidelines
The following fields are displayed.
Field Description
Admin Mode Whether BGP is globally enabled.
BGP Router ID The configured router ID.
Local AS Number The router’s AS number.
Traps Whether BGP traps are enabled.
Maximum Paths The maximum number of next hops in an external BGP
route.
Maximum Paths iBGP The maximum number of next hops in an internal BGP
route.
Default Keep Alive Time The configured keepalive time used by all peers that
have not been configured with a peer-specific keepalive
time.
Default Hold Time The configured hold time used by all peers that have not
been configured with a peer-specific hold time.
Number of Network Entries The number of distinct IPv6 prefixes in the local RIB.
Number of AS Paths The number of IPv6 AS paths in the local RIB.
Dynamic Neighbors The number of dynamically discovered neighbors
(current number, maximum number discovered, upper
limit allowed).
Default Metric The default value for the MED for redistributed routes.
Default Route Advertise Whether BGP is configured to advertise a default route.
Corresponds to default-information originate.
Redistributing
Layer 3 Routing Commands 1338
Command History
Introduced in version 6.2.0.1 firmware.
Modified in version 6.3.0.1 firmware.
Example
console#show bgp ipv6 summary
IPv6 Routing .................................. Enable
BGP Admin Mode ................................ Enable
BGP Router ID ................................. 1.1.1.1
Local AS Number ............................... 65001
Traps ......................................... Disable
Maximum Paths ................................. 1
Maximum Paths iBGP ............................ 1
Default Keep Alive Time ....................... 30
Source A source of routes that BGP is configured to
redistribute.
Metric The metric configured with the redistribute command.
Match Value For routes redistributed from OSPF, the types of OSPF
routes being redistributed.
Distribute List The name of the prefix list used to filter redistributed
routes, if one is configured with the distribute-list out
command.
Route Map The name of the route map used to filter redistributed
routes.
Neighbor The IP address of a neighbor
ASN The neighbor’s ASN
MsgRcvd The number of BGP messages received from this
neighbor
MsgSent The number of BGP messages sent to this neighbor
State The adjacency state. One of IDLE, CONNECT,
ACTIVE, OPEN SENT, OPEN CNFRM, EST
Up/Down Time How long the adjacency has been in the
ESTABLISHED state, or, if the adjacency is down, how
long it has been down. In days:hours:minutes:seconds
Pfx Rcvd The number of IPv6 prefixes received from the neighbor
Layer 3 Routing Commands 1339
Default Hold Time ............................. 90
Number of Network Entries ..................... 0
Number of AS Paths ............................ 0
Dynamic Neighbors Current/High/Limit .......... 1/1/20
Default Metric ................................ Not Configured
Default Route Advertise ....................... No
Redistributing:
Source Metric Dist List Route Map
--------- ---------- -------------------------------- ----------------------
Neighbor ASN MsgRcvd MsgSent State Up/Down Time Pfx Rcvd
---------------- ----- -------- -------- ------------- -------------- ------
fe80::21e:c9ff:fede:b13a%Vl10
65000 137 136 ESTABLISHED 0
show bgp ipv6 update-group
Use this command to report the status of IPv6 outbound groups and their
members. Output and format are the same as for show ip bgp update-group.
This command deprecates and replaces the show ipv6 bgp update-group
command.
Syntax
show bgp ipv6 update-group [ group-index | ipv4-address | ipv6-address [
interface interface-id ] | autodetect interface interface-id ]
• group-index—If specified, this option restricts the output to a single
update group.
• ipv4-address—The IPv4 address of a peer enabled for exchange of IPv6
prefixes. If specified, this option restricts the output to the update group
containing the peer with the given address.
• ipv6-address [ interface interface-id ]—The IPv6 address of a peer. If the
peer address is a link local address, the interface that defines the scope of
the address must also be given. If a peer address is specified, this option
restricts the output to the update group containing the peer with the given
address.
•
autodetect interface interface-id
—(Optional) The routing interface on
which the neighbor’s link local IPv6 address is auto detected. The
interface-id must be a VLAN routing interface.
Layer 3 Routing Commands 1340
Default Configuration
There is no default configuration for this command.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration sub-
modes
User Guidelines
The update send history table show statistics on as many as the fifteen most
recent executions of the update send process for the update group. Items in
the history table are as follows:
The following information is displayed.
Fields Description
Version The update version.
Delta T The amount of time elapsed since the update send
process executed. hours::minutes::seconds.
Duration How long the update send process took, in milliseconds
UPD Built The number of UPDATE messages built.
UPD Sent The number of UPDATE messages successfully
transmitted to group members. Normally a copy of each
UPDATE message built is sent to each group member.
Paths Sent The number of paths advertised.
Pfxs Adv The number of prefixes advertised.
Pfxs Wd The number of prefixes withdrawn.
Fields Description
Update Group ID Unique identifier for outbound update group.
Peer Type Whether peers in this update group are internal or
external.
Minimum Advertisement
Interval
The minimum time, in seconds, between sets of
UPDATE messages sent to the group.
Layer 3 Routing Commands 1341
Command History
Introduced in version 6.2.0.1 firmware.
Send Community Whether BGP communities are included in route
advertisements to members of the group. Yes or No.
Neighbor AS Path Access
List Out
The AS path access list used to filter UPDATE messages
sent to peers in the update group.
Neighbor Prefix List Out Name of the prefix list used to filter prefixes advertised
to the peers in the update group.
Neighbor Route Map Out Name of the route map used to filter and modify routes
advertised to the peers in the update group.
Members Added The number of peers added to the group since the group
was formed.
Members Removed The number of peers removed from the group.
Update Version The number of times phase 3 of the BGP decision
process has run for this group to determine which routes
should be advertised to the group.
Number of UPDATEs Sent The number of UPDATE messages that have been sent
to this group. Incremented once for each UPDATE
regardless of the number of group members.
Time Since Last UPDATE Time since an UPDATE message was last sent to the
group. If no UPDATE has been sent to the group, the
status is “Never.”
Current Prefixes The number of prefixes currently advertised to the
group.
Current Paths The number of paths currently advertised to the group.
Prefixes Advertised The total number of prefixes advertised to the group
since the group was formed.
Prefixes Withdrawn The total number of prefixes included in the
Withdrawn Routes field of UPDATE messages sent to
the group since the group was formed.
UPDATE Send Failures The number of UPDATE messages that failed to be
delivered to all members of the group.
Current Members The IPv4 address of all current members of the group.
Layer 3 Routing Commands 1342
Modified in version 6.3.0.1 firmware.
show bgp ipv6 route-reflection
Use this command to display a summary of BGP route reflection. This
command deprecates and replaces the show ipv6 bgp route-reflection
command.
Syntax
show bgp ipv6 route-reflection
Default Configuration
There is no default configuration for this command.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
If a route reflector client is configured with an outbound route map, the
output warns that set statements in the route map are ignored when
reflecting routes to this client.
The following information is displayed.
Field Description
Cluster ID The cluster ID used by this router. The value is tagged
as configured when the value is configured with the bgp
cluster-id command. When no cluster ID is configured,
the local router ID is shown and tagged as default.
Client-to-Client Reflection Displayed as Enabled when this router reflects routes
received from its clients to its other clients. Disabled
otherwise.
Clients A list of this router’s internal peers which have been
configured as route reflector clients.
Layer 3 Routing Commands 1343
Command History
Introduced in version 6.2.0.1 firmware.
Modified in version 6.3.0.1 firmware.
Example
console(config)#show bgp ipv6 route-reflection
Cluster ID .................................... 65.1.1.1 (default)
Client-to-client Reflection ................... Enabled
Clients:
Non-client Internal Peers:
show ip bgp
To view routes in the BGP routing table, use the show ip bgp command. The
output lists both the best and non-best paths to each destination.
Syntax
show ip bgp [network/pfx-length [longer-prefixes | shorter-prefixes
[length]]] | [filter-list as-path-list ] | [prefix-list list-name]
• network/pfx-length—(Optional) Display a specific route identified by its
destination prefix
•longer-prefixes—(Optional) Used with the network/pfx-len option to show
routes whose prefix length is equal to or longer than pfx-len. This option
may not be given if the shorter-prefixes option is given.
•shorter-prefixes [ length ]—(Optional) Used with the network/pfx-len
option to show routes whose prefix length is shorter than pfx-len, and,
optionally, longer than a specified length. This option may not be given if
the longer-prefixes option is given.
•filter-list as-path-list—(Optional) Filter the output to the set of routes
that match a given AS Path list. This option may not be given if a
network/pfx-len option is given.
Non-client Internal Peers A list of this router’s internal peers that are not
configured as route reflector clients. Routes from non-
client peers are reflected to clients and vice-versa.
Layer 3 Routing Commands 1344
•Prefix-list list-name —(Optional) The name of a prefix list indicating the
list of matching routes to display.
Default Configuration
There is no default configuration.
Command Mode
User Exec mode, Privileged Exec mode, Global Configuration mode and all
sub-modes.
User Guidelines
The following fields are displayed.
Command History
Introduced in version 6.2.0.1 firmware.
Field Description
BGP table version Each time phase 2 of the BGP decision process runs to
select new BGP routes, this number is incremented.
Status codes
• s—The route is aggregated into an aggregate address
configured with the summary-only option
• *—Dell EMC Networking BGP never displays invalid
routes; so this code is always displayed (to maintain
consistency with the industry standard)
• >—Indicates that BGP has selected this path as the
best path to the destination
•i—If the route is learned from an internal peer
Network Destination prefix
Next Hop The route’s BGP next hop
Metric Multi-Exit Discriminator
LocPrf The local preference
Path The AS path
Origin The value of the Origin attribute
Layer 3 Routing Commands 1345
Example
console# show ip bgp
BGP table version is 5, local router ID is 20.1.1.1
Status codes: s suppressed, * valid, > best, i - internal
Origin codes: i - IGP, e - EGP, ? - incomplete
Network Next Hop Metric LocPrf Path Origin
*> 172.20.1.0/24 100.10.1.1 10 100 20 10 i
200.10.1.1
*> 172.20.2.0/24 100.10.1.1 10 100 20 10 ?
show ip bgp aggregate-address
Use the show ip bgp aggregate-address command to list the aggregate
addresses that have been configured and indicates whether each is currently
active.
Syntax
show ip bgp [vrf vrf-name] aggregate-address
•
vrf vrf-name
— Displays the aggregate address information associated
with the named VRF.
Default Configuration
By default, information about the global VRF is shown.
Command Mode
Privileged Exec mode, Global Configuration mode, and all sub-modes.
User Guidelines
If the vrf argument is specified, information pertaining to that VRF is
displayed.
The following fields are displayed.
Field Description
Prefix/Len Destination prefix and length
Layer 3 Routing Commands 1346
Command History
Introduced in version 6.2.0.1 firmware. Updated in 6.3.0.1 firmware.
Example
console#show ip bgp aggregate-address
Prefix/Len AS Set Summary Only Active
------------------- ------ ------------ ------
1.2.3.0/24 N N N
10.10.10.0/24 N N N
show ip bgp community
The show ip bgp community displays route information for the communities
listed in the specified community.
Syntax
show ip bgp [vrf vrf-name] community communities [exact-match]
•vrf vrf-name—Displays the aggregate address information associated with
the named VRF.
• communities—A string of zero or more community values, which may be
in either format and may contain the community keywords no-advertise
and no-export. The output displays routes that belong to every community
specified in the command.
• exact-match—Only displays routes that are members of the communities
specified in the command.
AS Set Indicates whether an empty AS path is advertised with
the aggregate address (N) or an AS SET is advertised
with the set of AS numbers for the paths contributing to
the aggregate (Y).
Summary Only Indicates whether the individual networks are
suppressed (Y) or advertised (N).
Active Indicates whether the aggregate is currently being
advertised.
Layer 3 Routing Commands 1347
Default Configuration
There is no default configuration for this command.
Command Mode
Privileged Exec and Global Configuration
User Guidelines
If the vrf argument is specified, the community information for that VRF is
displayed.
Command History
Introduced in version 6.3.0.1 firmware.
Example
console#show ip bgp community
BGP table version is 0, local router ID is 65.1.1.1
Status Codes: s suppressed, * valid, > best, i - internal
Origin Codes: i - IGP, e - EGP, ? - incomplete
Network Next Hop Metric LocPref Path Origin
------------------ --------------- ---------- ---------- ------------- ---
show ip bgp community-list
The show ip bgp community-list command lists the routes that are allowed
by the specified community list.
Syntax
show ip bgp [vrf vrf-name] community-list { name [exact-match]}
•vrf vrf-name—Displays the route information associated with the named
VRF.
• name—A standard community list name.
•exact-match—(Optional) Only displays routes that are members of those
and only those communities specified in the command.
Layer 3 Routing Commands 1348
Default Configuration
There is no default configuration for this command.
Command Mode
Privileged Exec and Global Config modes
User Guidelines
If the vrf argument is specified, the community list information pertaining to
that VRF is displayed.
Command History
Introduced in version 6.2.0.1 firmware. Updated in the version 6.3.0.1
firmware.
Example
console(config)#show ip bgp community-list test
BGP table version is 0, local router ID is 65.1.1.1
Status Codes: s suppressed, * valid, > best, i - internal
Origin Codes: i - IGP, e - EGP, ? - incomplete
Network Next Hop Metric LocPref Path Origin
------------------ --------------- ---------- --------- ------------- ------
show ip bgp extcommunity-list
Use the show ip bgp extcommunity-list command to display all the permit
and deny attributes of the given extended community list. If the list-number
is specified, the output is displayed that matches the given list-number; else
all the lists are displayed.
Syntax
show ip bgp extcommunity-list list-number
• list-number — A standard extended community list number (0 to 99).
Default Configuration
No extended community lists are configured by default.
Layer 3 Routing Commands 1349
Command Mode
Privileged Exec and Global Config modes
User Guidelines
The following fields are displayed.
Command History
Introduced in version 6.3.0.1 firmware.
Example
console#show ip bgp extcommunity-list 1
Standard extended community-list list1
permit RT:1:100 RT:2:100
deny RT:6:600
permit RT:5:200
permit SOO:9:900
show ip bgp listen range
Use the show ip bgp listen range command to display information about IPv4
BGP listen ranges.
Syntax
show ip bgp [vrf vrf-name] listen range [ network/length ]
•
network/length
— Displays information about the specified listen range.
• vrf-name—The name of a previously configured VRF.
Field Description
Standard extended
community-list
The standard named extended community list.
permit Permits access for a matching condition. Once a permit
value has been configured to match a given set of
extended communities the extended community list
defaults to an implicit deny for all other values.
RT The route target extended community attribute.
deny Denies access for a matching condition.
Layer 3 Routing Commands 1350
Default Configuration
By default, all listen ranges are shown.
Command Mode
Privileged Exec and global configuration mode
User Guidelines
There are no user guidelines.
Command History
Introduced in version 6.3.0.1 firmware.
Example
console(config-router)#show ip bgp listen range
Listen Range .................................. 10.27.0.0/16
Inherited Template ............................ template_10_27
Member ASN State
---------------- ----- -----------
10.27.8.189 65001 OPENCONFIRM
10.27.128.235 0 ACTIVE
Listen Range .................................. 15.15.0.0/24
Inherited Template ............................ template_15_15
Member ASN State
---------------- ----- -----------
show ip bgp neighbors
The show ip bgp neighbors command shows details about BGP neighbor
configuration and status.
Syntax
show ip bgp [vrf vrf-name] neighbors [neighbor-address]
• neighbor-address—(Optional) The IPv4 address of a neighbor. Used to
limit the output to a single neighbor.
Layer 3 Routing Commands 1351
•
vrf vrf-name
— Displays the aggregate address information associated
with the named VRF.
Default Configuration
By default, information about the global VRF is shown.
Command Mode
User Exec mode, Privileged Exec mode, Global Configuration mode and all
sub-modes.
User Guidelines
Since IPv4 prefixes can only be exchanged over IPv4 peering, the neighbor-
address parameter must be an IPv4 peer address. This option limits the
output to show a single neighbor. If no neighbor address is specified, the
command shows all neighbors enabled for IPv4 prefix exchange.
If the vrf-name argument is specified, information pertaining to that VRF is
displayed.
The following fields are displayed.
Field Description
Remote Address The neighbor’s IP address
Remote AS The neighbor’s autonomous system number
Peer ID The neighbor’s BGP router ID
Peer Admin Status START or STOP
Peer State The adjacency state of this neighbor
Local Port TCP port number on the local end of the connection
Remote Port TCP port number on the remote end of the connection
Connection Retry Interval How long BGP waits between connection retries
Layer 3 Routing Commands 1352
Neighbor Capabilities Optional capabilities reported by the neighbor,
recognized and accepted by this router. Codes listed in
the show output are as follows:
• MP: Multiprotocol
• RF: Route Refresh
This version of Dell EMC Networking does not support
any multiprotocol AFI/SAFI pairs other than IPv4
unicast. The presence of this capability does not imply
otherwise.
Next Hop Self If the local router is configured to advertise one of its
own IP addresses as the BGP Next Hop when
advertising a path learned from an external peer.
Update Source The configured value for the source IP address of
packets sent to this peer. This field is only included in
the output if the update source is configured.
Local Interface Address The IPv4 address used as the source IP address in
packets sent to this neighbor.
Configured Hold Time The time, in seconds, that this router proposes to this
neighbor as the hold time
Configured Keep Alive
Time
The configured KEEPALIVE interval for this neighbor.
Negotiated Hold Time The minimum configured hold time and the hold time
in the OPEN message received from this neighbor. If the
local router does not receive a KEEPALIVE or UPDATE
message from this neighbor within this interval of time,
the local router drops the adjacency. This field is only
shown if the adjacency state is OPEN CONFIRM or
greater.
Keep Alive Time The number of seconds between KEEPALIVE messages
sent to this neighbor. This field is only shown if the
adjacency state is OPEN CONFIRM or greater.
Prefix Limit The maximum number of prefixes this router is willing
to accept from this neighbor.
Prefix Warning Threshold Percentage of the prefix limit that causes a warning
message to be logged.
Layer 3 Routing Commands 1353
If the router receives an UPDATE message with an invalid path attribute, the
router will in most cases send a NOTIFICATION message and reset the
adjacency. BGP maintains a per-neighbor counter for each type of path
attribute error. This show command lists each non-zero counter, just after the
LastSubError. The counters that may be listed are as follows:
Warning Only on Prefix
Limit
Whether to shutdown a neighbor that exceeds the
prefix limit. TRUE if the event is logged without
shutting down the neighbor.
Minimum Advertisement
Interval
The minimum time between UPDATE messages sent to
this neighbor.
MD5 Password The TCP MD5 password, if one is configured, in plain
text.
Last Error The last error that occurred on the connection to this
neighbor.
Last SubError The suberror reported with the last error.
Established Transitions The number of times the adjacency has transitioned
into the Established state.
Established Time How long since the connection last transitioned to or
from the Established state.
Time Elapsed Since Last
Update
How long since an UPDATE message has been received
from this neighbor.
Message Table The number of BGP messages sent to and received from
this neighbor
Prefixes Advertised A running count of the number of prefixes advertised to
or received from this neighbor
Prefixes Withdrawn A running count of the number of prefixes included in
the Withdrawn Routes portion of UPDATE messages,
to and from this neighbor
Prefixes Current The number of prefixes currently advertised to or
received from this neighbor
Max NLRI per Update The maximum number of prefixes included in a single
UPDATE message, to and from this neighbor
Min NLRI per Update The minimum number of prefixes included in a single
UPDATE message, to and from this neighbor
Layer 3 Routing Commands 1354
Counters Description
Path with duplicate
attribute
The peer sent an UPDATE message containing the
same path attribute more than once.
Path with well-
known/optional conflict
A received path attribute was flagged as both well-
known and optional or neither well-known nor optional.
Transitive flag not set on
transitive attr
A received path attribute is known to be transitive, but
the transitive flag is not set.
Mandatory attribute non-
transitive or partial
A mandatory path attribute was received with either the
transitive or partial flag set.
Optional attribute non-
transitive and partial
An optional path attribute has the transitive flag clear
and the partial flag set.
Path attribute too long A received path attribute was longer than the expected
length.
Path attribute length error A received path attribute has a length value that exceeds
the remaining length of the path attributes field.
Invalid ORIGIN code A received UPDATE message included an invalid
ORIGIN code.
Unexpected first ASN in
AS path
The AS Path attribute from an external peer did not
include the peer’s AS number as the first AS.
Invalid AS path segment
type
The AS Path includes a segment with an invalid
segment type.
Invalid BGP NEXT HOP The BGP NEXT HOP is not a valid unicast address.
Bad BGP NEXT HOP The BGP NEXT HOP was either the receiver’s IP
address or an IP address outside the subnet to the peer.
Invalid AGGREGATOR
attribute
The AGGREGATOR attribute was invalid.
Unrecognized well-known
path attribute
An UPDATE message contained a path attribute with
the Optional flag clear, but this router does not
recognize the attribute.
Missing mandatory path
attribute
An UPDATE message was received without a
mandatory path attribute.
Missing LOCAL PREF
attribute
An UPDATE message was received from an internal
peer without the LOCAL PREF attribute.
Layer 3 Routing Commands 1355
Command History
Introduced in version 6.2.0.1 firmware.
Updated in version 6.3.0.1 firmware.
Example
console#show ip bgp neighbors
Remote Address ................................ 10.10.10.10
Remote AS ..................................... 65000
Peer ID ....................................... 0.0.0.0
Peer Admin Status ............................. START
Peer State .................................... IDLE
Local Interface Address ....................... 10.10.10.3
Local Port .................................... 179
Remote Port ................................... 54474
Connection Retry Interval ..................... 2 sec
Neighbor Capabilities ......................... None
Next Hop Self ................................. Disable
IPv4 Unicast Support .......................... Sent
IPv6 Unicast Support .......................... None
Template Name ................................. None
Update Source ................................. None
Configured Hold Time .......................... None
Configured Keep Alive Time .................... None
Prefix Limit .................................. 8160
Prefix Warning Threshold ...................... 75
Warning Only On Prefix Limit .................. False
MD5 Password .................................. None
Originate Default ............................. False
Last Error (Sent) ............................. OPEN Message Error
Last SubError ................................. Bad Peer AS
Time Since Last Error ......................... 0 days 00 hrs 00 mins 02 secs
Established Transitions ....................... 0
Established Time .............................. 0 days 01 hrs 45 mins 20 secs
Time Since Last Update ........................ No UPDATE received
IPv4 Outbound Update Group .................... None
Open Update Keepalive Notification Refresh Total
Msgs Sent 2287 0 0 2122 0 4409
Msgs Rcvd 2122 0 0 0 0 2122
Received UPDATE Queue Size: 0 bytes. High: 0 Limit: 392192 Drops: 0
Invalid prefix in UPDATE
NLRI
An UPDATE message received from this peer contained
a syntactically incorrect prefix.
Layer 3 Routing Commands 1356
IPv4 Prefix Statistics:
Inbound Outbound
Prefixes Advertised 0 0
Prefixes Withdrawn 0 0
Prefixes Current 0 0
Prefixes Accepted 0 N/A
Prefixes Rejected 0 N/A
Max NLRI per Update 0 0
Min NLRI per Update 0 0
console # show ip bgp neighbors 172.20.1.100
Remote Address ................................ 172.20.1.100
Remote AS ..................................... 100
Peer ID ....................................... 14.3.0.1
Peer Admin Status ............................. START
Peer State .................................... ESTABLISHED
Local Port .................................... 179
Remote Port ................................... 58265
Connection Retry Interval ..................... 120 sec
Neighbor Capabilities ......................... None
Next Hop Self ................................. Disable
Update Source..................................
Local Interface Address ....................... 172.20.1.2
Configured Hold Time .......................... 90 sec
Configured Keep Alive Time..................... 30 sec
Negotiated Hold Time .......................... 30 sec
Keep Alive Time ............................... 10 sec
Prefix Limit................................... None
Prefix Warning Threshold....................... 75%
Warning Only On Prefix Limit................... TRUE
Minimum Advertisement Interval................. 30 sec
MD5 Password................................... password
Originate Default.............................. TRUE
Last Error (Sent).............................. Hold Timer Expired
Last SubError.................................. None
Time Since Last Error.......................... 0 day 0 hr 4 min 27 sec
Established Transitions ....................... 1
Established Time .............................. 0 day 0 hr 4 min 25 sec
Time Since Last Update ........................ 0 day 0 hr 4 min 25 sec
Outbound Update Group.......................... 3
Open Update Keepalive Notification Refresh Total
Msgs Sent 1 0 10 0 0 11
Msgs Rcvd 1 1 11 0 0 12
Inbound Outbound
Prefixes Advertised 1 0
Layer 3 Routing Commands 1357
Prefixes Withdrawn 0 0
Prefixes Current 1 0
Max NLRI per Update 1 0
Min NLRI per Update 1 0
In this example, BGP has received an UPDATE message from an external
peer 172.20.101.100 with something other than the peer’s ASN as the first
ASN in the AS Path. The additional counter shows that this occurred one
time.
console #show ip bgp neighbors 172.20.101.100
Remote Address ................................ 172.20.101.100
Remote AS ..................................... 101
...
Last Error .................................... UPDATE Message Error
Last SubError ................................. Malformed AS_PATH
Unexpected first ASN in AS path ............... 1
Established Transitions ....................... 1
Established Time .............................. 0 days 00 hrs 00 mins 10
secs
show ip bgp neighbors advertised-routes
The show ip bgp neighbors advertised-routes command displays the list of
routes advertised to a specific neighbor. These are the routes in the adjacent
RIB out for the neighbor’s outbound update group
Syntax
show ip bgp [vrf vrf-name] neighbors ip-address advertised-routes
• ip-address—The IPv4 address of a neighbor.
•
vrf vrf-name
— Displays the aggregate address information associated
with the named VRF.
Default Configuration
By default, information about the global VRF is shown.
Command Mode
Privileged Exec mode, Global Configuration mode, and all sub-modes
Layer 3 Routing Commands 1358
User Guidelines
Note that this output differs slightly from the output in show ip bgp.
Suppressed routes and non-best routes are not advertised; so these status
codes are not relevant here. Advertised routes always have a single next hop,
the BGP NEXT HOP advertised to the peer. Local preference is never sent to
external peers.
If the vrf-name argument is specified, information pertaining to that VRF is
displayed.
The output indicates whether BGP is configured to originate a default route
to this peer (neighbor default-originate).
Command History
Introduced in version 6.2.0.1 firmware.
Updated in version 6.3.0.1 firmware.
Example
console#show ip bgp neighbors 10.10.10.10 advertised-routes
Counters Description
BGP table version Each time phase 2 of the BGP decision process runs to
select new BGP routes, this number is incremented.
Status codes p—The route has been updated in Adj-RIB-Out since
the last UPDATE message was sent. Transmission of an
UPDATE message is pending.
Network Destination prefix
Next Hop The BGP NEXT HOP as advertised to the peer.
Local Pref The local preference. Local preference is never
advertised to external peers.
Metric The value of the Multi Exit Discriminator, if the MED
is advertised to the peer.
Path The AS path. The AS path does not include the local AS
number, which is added to the beginning of the AS path
when a route is advertised to an external peer.
Origin The value of the Origin attribute.
Layer 3 Routing Commands 1359
BGP table version is 5, local router ID is 0.0.0.100
Status codes: p - advertisement pending
Origin codes: i - IGP, e - EGP, ? - incomplete
Network Next Hop Metric LocPref Path Origin
------------------- ---------------- ---------- ------- ------------- -----
172.20.1.0/24 172.20.101.1 10 100 20 10 i
p 20.1.1.0/24 172.20.101.1 100 20 ?
show ip bgp neighbors received-routes
This command displays the list of routes received from a specific neighbor.
The list includes both the accepted and rejected routes.
Syntax
show ip bgp [vrf vrf-name]neighbors ip-address {received-
routes|routes|rejected-routes}
•
vrf vrf-name
— Displays the aggregate address information associated
with the named VRF.
• ip-address—The IPv4 address of a BGP neighbor.
• Received-routes—Display the routes received by a particular neighbor
prior to filtering.
• Routes—Display both the received and advertised routes.
• Rejected-routes—Display the routes rejected from the specified neighbor.
Default Configuration
By default, information about the global VRF is shown.
Command Mode
Privileged Exec mode, Global Configuration mode and all sub-modes
User Guidelines
If the vrf-name argument is specified, information pertaining to that VRF is
displayed.
The following fields are displayed.
Layer 3 Routing Commands 1360
Command History
Introduced in version 6.2.0.1 firmware.
Updated in version 6.3.0.1 firmware.
Example
console #show ip bgp neighbors 172.20.101.100 received-routes
local router ID is 20.1.1.1
Origin codes: i - IGP, e - EGP, ? - incomplete
Network Next Hop Metric Local Pref Path Origin
172.20.1.0/24 172.20.101.1 10 100 20 10 i
20.1.1.0/24 172.20.101.1 100 20 ?
console#show ip bgp neighbors 10.10.10.3 routes
Local router ID is 0.0.0.101
Origin codes: i - IGP, e - EGP, ? - incomplete
Network Next Hop Metric LocPref Path Origin
------------------- ---------------- ---------- ------- ------------- ------
1.1.1.0/24 10.10.10.3 1 65001 i
1.2.0.0/16 10.10.10.3 0 65001 i
1.2.3.0/24 10.10.10.3 0 65001 i
Fields Description
Network Destination prefix
Next Hop The BGP NEXT HOP as advertised by the peer.
Metric The value of the Multi Exit Discriminator, if a MED is
received from the peer.
Local Pref The local preference received from the peer.
Path The AS path as received from the peer
Origin The value of the Origin attribute as received from the
peer follows immediately after the AS PATH.
Layer 3 Routing Commands 1361
show ip bgp neighbors policy
This command displays the inbound and outbound IPv4 policies configured
for a specific peer. The output distinguishes policies that are configured on
the peer itself and policies that the peer inherits from a peer template.
Syntax
show ip bgp [vrf vrf-name] neighbors ip-address policy
•
vrf vrf-name
— Displays the aggregate address information associated
with the named VRF.
• ip-address—The IPv4 address of a neighbor can optionally be specified to
limit the output to a single neighbor.
Default Configuration
By default, information about the global VRF is shown.
Command Mode
Privileged Exec mode, Global Configuration mode and all sub-modes
User Guidelines
If the vrf-name argument is specified, information pertaining to that VRF is
displayed.
The following fields are displayed.
Command History
Introduced in version 6.2.0.1 firmware.
Updated in version 6.3.0.1 firmware.
Fields Description
Neighbor The peer address of a neighbor.
Policy A neighbor-specific BGP policy.
Template If the policy is inherited from a peer template, this field
lists the template name.
Layer 3 Routing Commands 1362
Example
console #show ip bgp neighbors 172.20.101.100 policy
Neighbor Policy Template
--------------- ------------------------------- ------------------------
172.20.101.100 advertisement-interval 600
default-originate
filter-list 500 in
filter-list 500 out
prefix-list barney in
prefix-list wilma out
maximum-prefix unlimited 100 warning-only torPeers
route-map fred in torPeers
route-map dino out torPeers
send-community torPeers
advertisement-interval 600 torPeers
default-originate torPeers
show ip bgp route-reflection
This command displays all global configuration related to IPv4 route
reflection, including the cluster ID and whether client-to-client route
reflection is enabled, and lists all the neighbors that are configured as route
reflector clients.
Syntax
show ip bgp [vrf vrf-name] route-reflection
•vrf vrf-name — Displays the aggregate address information associated with
the named VRF.
Default Configuration
By default, information about the global VRF is shown.
Command Mode
Privileged Exec mode, Global Configuration mode and all sub-modes
User Guidelines
If a route reflector client is configured with an outbound route map, the
output warns that set statements in the route map are ignored when
reflecting routes to this client.
Layer 3 Routing Commands 1363
If the vrf-name argument is specified, information pertaining to that VRF is
displayed.
The following information is displayed:
Command History
Introduced in version 6.2.0.1 firmware.
Updated in version 6.3.0.1 firmware.
Example
console # show ip bgp route-reflection
Cluster ID........................ 1.1.1.1 (configured)
Client-to-client Reflection....... Enabled
Clients: 172.20.1.2, 172.20.3.2, 172.20.5.2
Non-client Internal Peers: 192.168.1.2, 192.168.2.2
Skipping set statements in outbound route map gandolf when reflecting to
internal peer 172.20.1.2.
show ip bgp statistics
This command displays recent decision process history. Phase 1 of the
decision process reacts to UPDATE messages received from peers,
determining what new routes are accepted and deleting withdrawn routes
from the Adj-RIB-In. Phase 2 determines the best path for each destination,
Fields Description
Cluster ID The cluster ID used by this router. The value is tagged
as configured when the value is configured with the bgp
cluster-id command. When no cluster ID is configured,
the local router ID is shown and tagged as default.
Client-to-client reflection Displayed as Enabled when this router reflects routes
received from its clients to its other clients. Otherwise,
disabled.
Clients A list of this router’s internal peers which have been
configured as route reflector clients.
Non-client Internal Peers A list of this router’s internal peers that are not
configured as route reflector clients. Routes from non-
client peers are reflected to clients and vice-versa.
Layer 3 Routing Commands 1364
updates the BGP route table, and updates the common RIB. Phase 3 is run
independently for each outbound update group and determines which routes
should be advertised to neighbors in each group. Each entry in the table
shows statistics for one phase of the decision process. The table shows the 20
most recent decision process runs, with the most recent information at the
end of the table.
Syntax
show ip bgp [vrf vrf-name] statistics
•
vrf vrf-name
— Displays the aggregate address information associated
with the named VRF.
Default Configuration
By default, information about the global VRF is shown.
Command Mode
User Exec mode, Privileged Exec mode, Global Config mode and all sub-
modes.
User Guidelines
If the vrf-name argument is specified, information pertaining to that VRF is
displayed.
The following information is displayed.
Fields Description
Delta T How long since the decision process was run.
hours:minutes:seconds if the elapsed time is less than 24
hours. Otherwise, days:hours.
Phase The phase of the decision process that was run.
Upd Grp Outbound update group ID. Only applies when phase 3
is run.
GenId Generation ID of BGP routing table when decision
process was run. The generation ID is incremented each
time phase 2 of the decision process is run and when
there is a change to the status of aggregate addresses.
Layer 3 Routing Commands 1365
Command History
Introduced in version 6.2.0.1 firmware.
Updated in version 6.3.0.1 firmware.
Example
console#show ip bgp statistics
Delta T Phase UpdGrp GenId Reason Peer Duration Adds Mods Dels
-------- ----- ------ ----- -------------- ------- -------- ----- ----- -----
02:01:07 2 3 Local route add 0 3 0 0
00:10:38 3 0 3 New update grp 0 3 0 0
00:05:51 2 4 Local route add 0 1 0 0
00:05:51 3 0 4 Phase 2 done 0 1 0 0
00:05:30 2 5 Local route del 0 0 0 1
00:05:20 3 0 5 Phase 2 done 0 0 0 1
show ip bgp summary
This command displays a summary of BGP configuration and status.
Syntax
show ip bgp [vrf vrf-name] summary
Reason The event that triggered the decision process to run.
Peer Phase 1 of the decision process can be triggered for a
specific peer when a peer’s inbound routing policy
changes or the peer is reset. When phase 1 is run for a
single peer, the peer’s IP address is given.
Duration How long the decision process took, in milliseconds.
Adds The number of routes added. For phase 1, this is the
number of prefixes that pass inbound policy and are
added to the Accept-RIB-In. For phase 2, this is the
number of routes added to the BGP routing table. For
phase 3, this is the number of prefixes added to the
update group’s Adj-RIB-Out.
Mods The number of routes modified. Always 0 for phase 1.
Dels The number of routes deleted. Always 0 for phase 1.
Layer 3 Routing Commands 1366
•
vrf vrf-name
— Displays the aggregate address information associated
with the named VRF.
Default Configuration
By default, information about the global VRF is shown.
Command Mode
User Exec mode, Privileged Exec mode, Global Config mode and all sub-
modes.
User Guidelines
If the vrf-name argument is specified, information pertaining to that VRF is
displayed.
The following information is displayed.
Fields Description
Admin Mode Whether BGP is globally enabled.
BGP Router ID The configured router ID
Local AS Number The router’s AS number
Traps Whether BGP traps are enabled.
Maximum Paths The maximum number of next hops in an external BGP
route.
Maximum Paths iBGP The maximum number of next hops in an internal BGP
route.
Default Keep Alive Time The configured keepalive time used by all peers that
have not been configured with a peer-specific keepalive
time.
Default Hold Time The configured hold time used by all peers that have not
been configured with a peer-specific hold time.
Number of Network Entries The number of distinct prefixes in the local RIB.
Number of AS Paths The number of AS paths in the local RIB.
Layer 3 Routing Commands 1367
Command History
Introduced in version 6.2.0.1 firmware.
Updated in version 6.3.0.1 firmware.
Dynamic Neighbors The number of dynamically discovered neighbors
(current number, maximum number discovered, upper
limit allowed).
Default Metric The default value for the MED for redistributed routes.
Default Route Advertise Whether BGP is configured to advertise a default route.
Corresponds to default-information originate.
Redistributing
Source A source of routes that BGP is configured to
redistribute.
Metric The metric configured with the redistribute command.
Match Value For routes redistributed from OSPF, the types of OSPF
routes being redistributed.
Distribute List The name of the prefix list used to filter redistributed
routes, if one is configured with the distribute-list out
command.
Route Map The name of the route map used to filter redistributed
routes.
Neighbor The IP address of a neighbor.
ASN The neighbor’s ASN.
MsgRcvd The number of BGP messages received from this
neighbor.
MsgSent The number of BGP messages sent to this neighbor.
State The adjacency state. One of IDLE, CONNECT,
ACTIVE, OPEN SENT, OPEN CNFRM, EST.
Up/Down Time How long the adjacency has been in the
ESTABLISHED state, or, if the adjacency is down, how
long it has been down. In days:hours:minutes:seconds.
Pfx Rcvd The number of prefixes received from the neighbor.
Layer 3 Routing Commands 1368
Example
console#show ip bgp summary
IPv4 Routing .................................. Enable
BGP Admin Mode ................................ Enable
BGP Router ID ................................. 0.0.0.100
Local AS Number ............................... 65001
Traps ......................................... Disable
Maximum Paths ................................. 1
Maximum Paths iBGP ............................ 1
Default Keep Alive Time ....................... 30
Default Hold Time ............................. 90
Number of Network Entries ..................... 3
Number of AS Paths ............................ 0
Dynamic Neighbors Current/High/Limit .......... 1/1/20
Default Metric ................................ Not Configured
Default Route Advertise ....................... No
Redistributing:
Source Metric Dist List Route Map
--------- ---------- -------------------------------- ----------------------
static
ospf 300
ospf match: int
Neighbor ASN MsgRcvd MsgSent State Up/Down Time Pfx Rcvd
---------------- ----- -------- -------- ------------- -------------- ------
10.10.10.10 65000 2269 4666 ESTABLISHED 0:00:17:15 0
show ip bgp template
The show ip bgp template command lists the routes that are allowed by the
specified community list.
Syntax
show ip bgp template [ template-name ]
• template-name—(Optional) Limits the output to a single template
Default Configuration
There is no default configuration for this command.
Layer 3 Routing Commands 1369
Command Mode
Privileged Exec mode
User Guidelines
The following information is displayed.
Command History
Introduced in version 6.2.0.1 firmware.
Example
console#show ip bgp template
Template Name AF Configuration
------------- ---- -----------------------------
peer-grp1 timers 5 15
password rivendell
IPv4 advertisement-interval 15
peer-grp2 IPv4 prefix-list strider in
IPv4 maximum-prefix 100
IPv6 prefix-list gandolf in
IPv6 maximum-prefix 200
peer-grp3 IPv6 send-community
peer-grp4 update-source loopback 0
IPv4 next-hop-self
show ip bgp traffic
The show ip bgp traffic command list the routes that are allowed by the
specified community list.
Fields Description
Template Name The name of a BGP peer template.
AF The address family to which the configuration
command applies. This field is blank for session
parameters, which apply to all address families.
Configuration Configuration commands that are included in the
template.
Layer 3 Routing Commands 1370
Syntax
show ip bgp [vrf vrf-name] traffic
•
vrf vrf-name
— Displays the aggregate address information associated
with the named VRF.
Default Configuration
By default, information about the global VRF is shown.
Command Mode
User Exec mode, Privileged Exec mode, Global Configuration mode and all
sub-modes.
User Guidelines
If the vrf-name argument is specified, information pertaining to that VRF is
displayed.
The output shows when BGP counters were last cleared (using clear ip bgp
counters). Clearing counters resets all values in this output to 0 except for the
high water mark for the work queues.
The first table lists the number of BGP messages of each type that this router
has sent and received. Following the table is a maximum send and receive
UPDATE message rate. These rates report the busiest one-second interval.
The queue statistics table reports information for BGP work queues. Items
placed on each of these work queues are as follows:
• The Events queue includes most timer events and configuration changes.
• The Keepalive Tx queue includes timer events to send a KEEPALIVE
message to a peer. The Dec Proc queue includes events that cause the
decision process to be run.
• The Rx Data queue holds incoming BGP messages.
• The RTO Notifications queue includes best route change and next hop
resolution change notifications from the routing table.
• The MIB Queries queue includes pending SNMP queries for BGP status.
Command History
Introduced in version 6.2.0.1 firmware.
Layer 3 Routing Commands 1371
Updated in version 6.3.0.1 firmware.
Example
console#show ip bgp traffic
Time Since Counters Cleared: 55223 Seconds
BGP Message Statistics
Open Update Notification Keepalive Refresh Total
Recd: 6 11 0 7888 0 7905
Sent: 8 56 3 8465 0 8532
Max Received UPDATE rate: 1 pps
Max Send UPDATE rate: 5 pps
BGP Queue Statistics
Current Max Drops Limit
Events 0 2 0 800
Keepalive Tx 0 3 0 128
Dec Proc 0 3 0 133
Rx Data 0 3 0 500
RTO Notifications 0 4 0 1222
MIB Queries 0 0 0 5
show ip bgp update-group
This command reports the status of IPv4 outbound update groups and their
members.
Syntax
show ip bgp [vrf vrf-name] update-group [group-index | peer-address ]
•
vrf vrf-name
— Displays the aggregate address information associated
with the named VRF.
• group-index—(Optional) If specified, this option restricts the output to a
single update group.
• peer-address—(Optional) If specified, this option restricts the output to
the update group containing the peer with the given IPv4 address.
Default Configuration
By default, information about the global VRF is shown.
Layer 3 Routing Commands 1372
Command Mode
Privileged Exec mode, Global Configuration mode and all sub-modes
User Guidelines
If the vrf-name argument is specified, information pertaining to that VRF is
displayed.
The update send history table show statistics on as many as the fifteen most
recent executions of the update send process for the update group. Items in
the history table are as follows:
The following information is displayed.
Fields Description
Version The update version.
Delta T The amount of time elapsed since the update send
process executed. hours::minutes::seconds.
Duration How long the update send process took, in milliseconds
UPD Built The number of UPDATE messages built.
UPD Sent The number of UPDATE messages successfully
transmitted to group members. Normally a copy of each
UPDATE message built is sent to each group member.
Paths Sent The number of paths advertised.
Pfxs Adv The number of prefixes advertised.
Pfxs Wd The number of prefixes withdrawn.
Fields Description
Update Group ID Unique identifier for outbound update group.
Peer Type Whether peers in this update group are internal or
external.
Minimum Advertisement
Interval
The minimum time, in seconds, between sets of
UPDATE messages sent to the group.
Send Community Whether BGP communities are included in route
advertisements to members of the group. Yes or No.
Layer 3 Routing Commands 1373
Command History
Introduced in version 6.2.0.1 firmware.
Updated in version 6.3.0.1 firmware.
Neighbor AS Path Access
List Out
The AS path access list used to filter UPDATE messages
sent to peers in the update group.
Neighbor Prefix List Out Name of the prefix list used to filter prefixes advertised
to the peers in the update group.
Neighbor Route Map Out Name of the route map used to filter and modify routes
advertised to the peers in the update group.
Members Added The number of peers added to the group since the group
was formed.
Members Removed The number of peers removed from the group.
Update Version The number of times phase 3 of the BGP decision
process has run for this group to determine which routes
should be advertised to the group.
Number of UPDATEs Sent The number of UPDATE messages that have been sent
to this group. Incremented once for each UPDATE
regardless of the number of group members.
Time Since Last UPDATE Time since an UPDATE message was last sent to the
group. If no UPDATE has been sent to the group, the
status is “Never.”
Current Prefixes The number of prefixes currently advertised to the
group.
Current Paths The number of paths currently advertised to the group.
Prefixes Advertised The total number of prefixes advertised to the group
since the group was formed.
Prefixes Withdrawn The total number of prefixes included in the
Withdrawn Routes field of UPDATE messages sent to
the group since the group was formed.
UPDATE Send Failures The number of UPDATE messages that failed to be
delivered to all members of the group.
Current Members The IPv4 address of all current members of the group.
Layer 3 Routing Commands 1374
Example
console# show ip bgp update-group
Update Group ID............................ 0
Peer Type.................................. External
Minimum Advertisement Interval............. 30 seconds
Send Community............................. Yes
Neighbor AS Path Access List Out........... 1
Neighbor Prefix List Out................... pfxList1
Neighbor Route Map Out..................... None
Members Added.............................. 48
Members Removed............................ 0
Update Version............................. 19
Number of UPDATEs Sent..................... 512
Time Since Last Update..................... 5 hrs 3 min 2 sec
Current Prefixes........................... 5500
Current Paths.............................. 22
Prefixes Advertised........................ 191250
Prefixes Withdrawn......................... 186000
UPDATE Send Failures....................... 0
Current Members: 172.20.1.100, 172.20.2.100
Version Delta T Duration UPD Built UPD Sent Paths Sent Pfxs Adv Pfxs Wd
10 00:33:49 100 6 288 5 1250 750
11 00:33:49 0 4 192 3 750 250
12 00:33:49 0 2 96 1 250 1000
13 00:33:49 0 2 96 1 250 1018
14 00:33:49 0 1 48 0 0 482
15 00:33:49 100 8 384 7 1750 750
16 00:33:49 0 3 144 2 500 250
17 00:31:49 0 4 192 3 750 750
18 00:23:49 100 4 192 3 750 1000
19 00:03:49 100 6 288 5 1250 500
Update Group ID............................ 1
Peer Type.................................. Internal
Minimum Advertisement Interval............. 5 seconds
Send Community............................. Yes
Neighbor AS Path Access List Out........... none
Neighbor Prefix List Out................... none
Members Added.............................. 3
Members Removed............................ 0
Update Version............................. 4
Number of UPDATEs Sent..................... 8
Time Since Last UPDATE..................... 3 hrs 13 min 22 sec
Current Prefixes........................... 84
Current Paths.............................. 2
Prefixes Advertised........................ 100
Prefixes Withdrawn......................... 16
Layer 3 Routing Commands 1375
UPDATE Send Failures....................... 0
Current Members: 172.24.3.1, 172.25.8.56, 172.28.9.1
Version Delta T Duration UPD Built UPD Sent Paths Sent Pfxs Adv Pfxs Wd
10 00:00:49 100 6 288 5 1250 750
show ip bgp vpn4
Use the show ip bgp vpn4 command to display the VPNv4 address
information from the BGP table. If the vrf argument is specified, the address
information pertaining to that VRF is displayed.
Syntax
show ip bgp vpnv4 {all | rd route-distinguisher [ipprefix/length]| vrf vrf-
name [ip-prefix/length] | statistics }
•all— Displays the complete VPNv4 database.
•rd route-distinguisher—Displays the NLRI prefixes that match the named
route distinguisher.
•vrf vrf-name—Displays the NLRI prefixes associated with the named VRF
instance.
• ip-prefix/length — IP address of a network in the routing table and the
length of the mask (0 to 32). The slash mark must be included.
•statistics — Displays BGP VPNv4 statistics
Default Configuration
There is no default configuration.
Command Mode
Privileged Exec and Global Configuration modes
User Guidelines
The format and field descriptions are the same as for show ip bgp neighbors
with the following exceptions:
• If the peer address (“Remote Address”) is a link local address, the next line
of output indicates the scope of the address.
Layer 3 Routing Commands 1376
• No “IPv4 Outbound Update Group” is listed.
• No IPv4 prefix statistics are shown, since this implementation does not
support advertisement of IPv4 prefixes over IPv6 transport.
• “RFC 5549 Support” is displayed only if the BGP neighbor is peered over
IPv6 network.
• If the peer is configured as “autodetect”, the “Remote Address” shows
detected IPv6 address or “Unresolved” if the peer is not detected by the
autodetect feature.
• The “Autodetect Status” field is displayed only if the peer is configured as
“autodetect”. The field shows one of the following status’: “Peer is
detected”, “Peer is not detected” or “Multiple peers are detected”.
The command output provides the following information.
Term Description
BGP table version Each time phase 2 of the BGP decision process runs to select
new BGP routes, this number is incremented
Status codes One of the following:
• s: The route is aggregated into an aggregate address configured
with the summary-only option.
• *: BGP never displays invalid routes; so this code is always
displayed (to maintain consistency with the industry
standard).
• >: Indicates that BGP has selected this path as the best path
to the destination.
• i: If the route is learned from an internal peer.
Route Distinguisher The RD associated with the VRF.
Network The destination prefix.
Next Hop The route’s BGP NEXT HOP.
Metric BGP metric.
LocPrf The local preference.
Path The AS path per route.
Prefix/Prefix Length The destination prefix and prefix length.
Layer 3 Routing Commands 1377
Command History
Introduced in version 6.3.0.1 firmware.
Generation ID The version of the BGP routing table when this route last
changed.
Forwarding If this BGP route is used for forwarding.
Advertised To
Update Groups
The outbound update groups to which this route is advertised.
Local Preference The local preference, either as received from the peer or as set
according to local policy.
AS Path The AS Path. This form of show ip bgp displays AS Paths as
long as allowed by bgp maxas-limit.
Origin Value of the ORIGIN attribute.
Metric Value of the MED attribute, if included.
Type Whether the path is received from an internal or external peer.
IGP Cost The interior gateway cost (e.g., OSPF cost) to the BGP NEXT
HOP.
Peer (Peer ID) The IP address of the peer that sent this route, and its router
ID.
BGP Next Hop The BGP NEXT HOP attribute.
Atomic Aggregate If the ATOMIC AGGEGATE attribute is attached to the path.
Aggregator The AS number and router ID of the speaker that aggregated
the route.
Communities The BGP communities attached to the path.
Originator If the ORIGINATOR attribute is attached to the path, the
value of this attribute.
Cluster List If the CLUSTER_LIST attribute is attached to the path, the
sequence of cluster IDs in the cluster list.
Extended
Community
Route target value associated with the specified route
Term Description
Layer 3 Routing Commands 1378
Example
The following example shows all available VPNv4 information in a BGP
routing table:
console#show ip bgp vpnv4 all
BGP table version is 5, local router ID is 20.1.1.1
Status codes: s suppressed, * valid, > best, i - internal
Origin codes: i - IGP, e - EGP, ? - incomplete
Network Next Hop Metric LocPrf Path
Route Distinguisher : 1:10 (for VRF red)
*> 172.20.1.0/24 100.10.1.1 10 100 20 10 i
*> 24.95.16.0/24 100.10.1.1 10 100 20 10 i
*> 24.14.8.0/24 100.10.1.1 10 100 20 10 i
Route Distinguisher : 2:20 (for VRF blue)
*> 173.20.1.0/24 120.10.1.1 10 100 20 10 i
*> 25.95.16.0/24 120.10.1.1 10 100 20 10 i
*> 25.14.8.0/24 120.10.1.1 10 100 20 10 i
Route Distinguisher : 3:30 (for VRF yellow)
*> 174.20.1.0/24 130.10.1.1 10 100 20 10 i
*> 26.95.16.0/24 130.10.1.1 10 100 20 10 i
*> 26.14.8.0/24 130.10.1.1 10 100 20 10 i
The following example shows VPNv4 routing entries for VRF named red:
(R1) # show ip bgp vpnv4 vrf red
BGP table version is 5, local router ID is 20.1.1.1
Status codes: s suppressed, * valid, > best, i - internal
Origin codes: i - IGP, e - EGP, ? - incomplete
Network Next Hop Metric LocPrf Path
Route Distinguisher : 1:10 (for VRF red)
*> 172.20.1.0/24 100.10.1.1 10 100 20 10 i
*> 24.95.16.0/24 100.10.1.1 10 100 20 10 i
*> 24.14.8.0/24 100.10.1.1 10 100 20 10 i
The following example shows the attributes for network 172.20.1.0 that
include multi-paths and best path (Use like any of the below formats):
(R1) # show ip bgp vpnv4 vrf red 172.20.1.0/24
Prefix/Prefix Length....................... 1:100:172.20.1.0/24
Generation ID.............................. 2056
Forwarding................................. Yes
Advertised to Update Groups................ 1, 5
Layer 3 Routing Commands 1379
Best Path:
Imported from.............................. 2:200:100.10.1.1
Local Preference........................... 100
AS Path.................................... 20 10
Origin..................................... IGP
Metric..................................... 10
Type....................................... External
IGP Cost................................... 30
Peer (Peer ID)............................. 100.10.1.1 (32.4.1.1)
BGP Next Hop............................... 100.10.1.1
Atomic Aggregate........................... Included
Aggregator (AS, Router ID)................. 300, 14.1.1.1
Communities................................ no-export
Extended Community......................... RT:1:100
RT:2:200
Originator................................ 10.1.1.1
Non-best Paths:
Local Preference........................... 200
AS Path.................................... 18 50 27
Origin..................................... Incomplete
Type....................................... External
IGP Cost................................... 10
Peer (Peer ID)............................. 200.1.1.1 (18.24.1.3)
BGP Next Hop............................... 200.1.1.1
Extended Community......................... RT:3:300
show router-capability
Use this command to display the router capabilities of the loaded firmware
image.
Syntax
show router-capability
Default Configuration
For the N3000_N2000v6.3.x.x builds, ACCESS ROUTER capabilities are
supplied. MP-BGP capability is not available with this firmware.
For the N3000BGPv6.3.x.x builds, AGGREGATION ROUTER capabilities
are supplied. iSCSI, MLAG, DVLAN, MVR, GARP, Auto-VoIP, and Web
capabilities are unavailable.
Command Mode
Privileged Exec mode, Global Configuration mode and all sub-modes.
Layer 3 Routing Commands 1380
User Guidelines
The capabilities in the switch firmware are determined during the build
process.
Command History
Introduced in version 6.3.0.1 firmware.
Examples
This example displays the capabilities of an N3000_N2000v6.3.x.x firmware
build.
console# show router-capability
Switch is capable of operating as an ACCESS ROUTER utilizing OSPF and RIP.
MP-BGP capability is unavailable.
This example displays the capabilities of an N3000BGPv6.3.x.x firmware
build.
console#show router-capability
Switch is capable of operating as an AGGREGATION ROUTER utilizing MP-BGP,
OSPF and RIP.
iSCSI, MLAG, DVLAN, MVR, GARP, Auto-VoIP, and Web capabilities are
unavailable.
template peer
Use the template peer command in router configuration mode to create a
BGP peer template and enter peer template configuration mode. To delete a
peer template, use the no form of this command.
Syntax
template peer name
no template peer name
• name—The name of the template. The name may be no more than 32
characters.
Layer 3 Routing Commands 1381
Default Configuration
No peer templates are configured by default.
Command Mode
BGP Router Configuration mode
User Guidelines
A peer template can be configured with parameters that apply to many peers.
Neighbors can then be configured to inherit parameters from the peer
template. A peer template can include both session parameters and peer
policies. Peer policies are configured within an address family configuration
mode and apply only to that address family. You can configure up to 32 peer
templates. When changing a template, the change is immediately applied to
all neighbors that inherit from the template (though policy changes are
subject to a three-minute delay.)
The following commands can be issued in peer template configuration mode
and thus added to a peer template:
•address-family
• allowas-in
• connect-retry-interval
• description
• ebgp-multihop
• fall-over
• local-as
• password
• remote-as
• rfc5549-support
• shutdown
• timers
• update-source
Layer 3 Routing Commands 1382
See the associated neighbor commands for a description of parameters and
keywords. Note that Dell EMC Networking does not support a remote-as as-
number command in this mode. The neighbor’s AS number must be
specified when the neighbor is created.
Command History
Introduced in version 6.2.0.1 firmware. Additional command options added
in 6.3.0.1 firmware.
Example
console(config)# router bgp 65000
console(config-router)# neighbor 172.20.1.2 remote-as 65001
console(config-router)# neighbor 172.20.2.2 remote-as 65001
console(config-router)# template peer AGGR
console(config-rtr-tmplt)# timers 3 9
console(config-rtr-tmplt)# address-family ipv4
console(config-rtr-tmplt-af)# send-community
console(config-rtr-tmplt-af)# route-map RM4-IN in
console(config-rtr-tmplt-af)# route-map RM4-OUT out
console(config-rtr-tmplt-af)# exit
console(config-rtr-tmplt)# address-family ipv6
console(config-rtr-tmplt-af)# send-community
console(config-rtr-tmplt-af)# route-map RM6-IN in
console(config-rtr-tmplt-af)# route-map RM6-OUT out
console(config-rtr-tmplt-af)# exit
console(config-rtr-tmplt)# exit
console(config-router)# neighbor 172.20.1.2 inherit peer AGGR
console(config-router)# neighbor 172.20.2.2 inherit peer AGGR
console(config-router)# address-family ipv6
console(config-router)# neighbor 172.20.1.2 activate
console(config-router)# neighbor 172.20.2.2 activate
timers bgp
The timers bgp command configures the default keepalive and hold timers
that BGP uses for all neighbors unless specifically overridden by the neighbor
timers command.
Syntax
timers bgp keepalive holdtime
no timers bgp
Layer 3 Routing Commands 1383
• keepalive—The time, in seconds, between BGP KEEPALIVE packets sent
to a neighbor. The range is 0 to 65,535 seconds. An small internal jitter is
applied to the keepalive interval timer in order to reduce the CPU load
that may occur when multiple timers expire simultaneously.
• holdtime—The time, in seconds, that BGP continues to consider a
neighbor to be alive without receiving a BGP KEEPALIVE or UPDATE
packet from the neighbor. If no KEEPALIVE is received from a neighbor
for longer than the hold time, BGP drops the adjacency. If the hold time is
set to 0, then BGP does not enforce a hold time and BGP does not send
periodic KEEPALIVE messages. The range is 0, 3 to 65,535 seconds.
Default Configuration
The default keepalive time is 30 seconds. The default hold time is 90 seconds.
Command Mode
BGP Router Configuration mode
User Guidelines
When BGP establishes an adjacency, the neighbors agree to use the
minimum hold time configured on either neighbor. BGP sends KEEPALIVE
messages at either 1/3 of the negotiated hold time or the configured keepalive
interval, whichever is more frequent.
The new values are not applied to adjacencies already in the ESTABLISHED
state. A new keepalive or hold time is applied the next time an adjacency is
formed.
Command History
Introduced in version 6.2.0.1 firmware.
Example
console(config-router)#timers bgp 1000 500
Layer 3 Routing Commands 1384
BGP Routing Policy
Dell EMC Networking N3000/N3100/N4000 Series Switches
Exterior routing protocols like BGP use industry-standard routing policy to
filter and modify routing information exchanged with peers. BGP makes use
of the following routing policy constructs:
• AS Path Access Lists
• BGP Community Lists
Use the Routing Policy commands to configure routing policies such as:
• Matching on an AS Path
• Modifying the AS Path
• Setting the local preference
• Setting the route metric
• Setting an IPv6 next hop
• Setting or matching on a BGP community
Commands in this Section
This section explains the following commands:
ip as-path access-list show ip prefix-list
ip bgp-community new-format show ipv6 prefix-list
ip community-list clear ip prefix-list
ip prefix-list clear ipv6 prefix-list
ip prefix-list description clear ip community-list
ipv6 prefix-list set as-path
match as-path set comm-list delete
match community set community
match ip address prefix-list set ipv6 next-hop (BGP)
match ipv6 address prefix-list set local-preference
show ip as-path-access-list set metric
Layer 3 Routing Commands 1385
ip as-path access-list
To create an AS path access list, use the ip as-path access-list. An AS path
access list filters BGP routes on the AS path attribute of a BGP route. To
delete an AS path access list, use the no form of this command
Syntax
ip as-path access-list as-path-list-number { permit | deny } regexp
no ip as-path access-list as-path-list-number
• as-path-list-number—A number from 1 to 500 uniquely identifying the
list. All AS path access list commands with the same as-path-list-number
are considered part of the same list.
•permit—(Optional) Permit routes whose AS Path attribute matches the
regular expression.
•deny—(Optional) Deny routes whose AS Path attribute matches the
regular expression.
• regexp—A regular expression used to match the AS path attribute of a
BGP path where the AS path is treated as an ASCII string.
Default Configuration
No AS path lists are configured by default. There are no default values for any
of the parameters of this command.
Command Mode
Global Configuration
User Guidelines
The AS path attribute is a list of the autonomous system numbers along the
path to the destination. An AS path access list is an ordered sequence of
statements. Each statement specifies a regular expression and a permit or
deny action. If the regular expression matches the AS path of the route
expressed as an ASCII string, the route is considered a match and the
show ip community-list
–
Layer 3 Routing Commands 1386
statement’s action is taken. An AS path list has an implicit deny statement at
the end. If a path does not match any of the statements in an AS path list, the
action is considered to be deny.
Once you have created an AS path list, you cannot delete an individual
statement. If you want to remove an individual statement, you must delete
the AS path list and recreate it without the statement to be deleted.
Statements are applied in the order in which they are created. New
statements are added to the end of the list. The statement with the first
matching regular expression is applied.
N3000/N3100/N4000 Series switches allow configuration of up to 128 AS path
access lists, with up to 64 statements each.
To enter the question mark within a regular expression, you must first enter
CTRL-V to prevent the CLI from interpreting the question mark as a request
for help.
Special
Character Symbol Behavior
asterisk * Matches zero or more sequences of the pattern.
brackets [] Designates a range of single-character patterns.
caret ^ Matches the beginning of the input string.
dollar sign $ Matches the end of the input string.
hyphen – Separates the end points of a range.
period . Matches any single character, including white space.
plus sign + Matches 1 or more sequences of the pattern.
question mark ? Matches 0 or 1 occurrences of the pattern.
underscore _ Matches a comma (,), left brace ({), right brace (}),
left parenthesis, right parenthesis, the beginning of
the input string, the end of the input string, or a
space.
Layer 3 Routing Commands 1387
Example
In the following example, the router is configured to reject routes received
from neighbor 172.20.1.1 with an AS path that indicates the route originates
in or passes through AS 100.
console(config)# ip as-path access-list 1 deny _100_
console(config)# ip as-path access-list 1 deny ^100$
console(config)# router bgp 1
console(config-router)# neighbor 172.20.1.1 remote-as 200
console(config-router)# neighbor 172.20.1.1 filter-list 1 in
ip bgp-community new-format
To display BGP standard communities in AA:NN format, use the ip bgp-
community new-format command. To display BGP standard communities as
32-bit integers, use the no form of this command.
Syntax
ip bgp-community new-format
no ip bgp-community new-format
Default Configuration
Standard communities are displayed in AA:NN format.
Command Mode
Global Configuration
User Guidelines
RFC 1997 specifies that the first two bytes of a community number are
considered to be an autonomous system number. The new format displays a
community number as the ASN followed by a 16-bit AS-specific number.
Example
console(config)#ip bgp-community new-format
Layer 3 Routing Commands 1388
ip community-list
To create or configure a BGP community list, use the ip community-list
command in global configuration mode. To delete a community list, use the
no form of this command.
Syntax
ip community-list standard list-name {permit | deny} [community-number]
[no-advertise] [no-export] [no-export-subconfed] [no-peer]
no ip community-list standard list-name
•standard list-name—Identifies a named standard community list. The
name may contain up to 32 characters.
•permit—Indicates that matching routes are permitted.
•deny—Indicates that matching routes are denied.
• community-number—From zero to sixteen community numbers
formatted as a 32-bit integers or in AA:NN format, where AA is a 2-byte
autonomous system number and NN is a 16 bit integer. The range is 1 to
4,294,967,295 (any 32-bit integer other than 0). Communities are
separated by spaces.
•no-advertise—The well-known standard community: NO_ADVERTISE
(0xFFFFFF02), which indicates the community is not to be advertised.
•no-export—The well-known standard community: NO_EXPORT,
(0xFFFFFF01), which indicates the routes are not to be advertised outside
the community.
•no-export-subconfed—The well-know standard community:
NO_EXPORT_SUBCONFED (0xFFFFFF03), which indicates the routes
are not to be advertised to external BGP peers.
Default Configuration
No community lists are configured by default.
Command Mode
Global Configuration
Layer 3 Routing Commands 1389
User Guidelines
A community list statement with no community values is considered a match
for all routes, regardless of their community membership. So the statement
ip community-list bullseye permit is a permit all statement.
A community number may be entered in either format, as a 32-bit integer or a
pair of 16-bit integers separated by a colon, regardless of whether the ip bgp-
community new-format command is active. Up to 16 communities, including
the well-known communities, can be listed in a single command. Up to 32
statements may be configured with a given community list name. Up to 128
unique community list names may be configured.
Example
console(config)#ip community-list test permit
ip prefix-list
To create a prefix list or add a prefix list entry, use the ip prefix-list command
in global configuration mode. To delete a prefix list or a statement in a prefix
list, use the no form of this command.
Syntax
ip prefix-list list-name {[seq number] { permit | deny } network mask
[ge length] [le length] | renumber renumber-interval first-statement-number
}
no ip prefix-list list-name [seq number] { permit | deny } network mask
[ge length] [le length]
• list-name—The text name of the prefix list. Up to 32 characters.
•seq number—(Optional) The sequence number for this prefix list
statement. Prefix list statements are ordered from lowest sequence number
to highest and processed in that order. If a sequence number is not
specified, the system automatically selects a sequence number five larger
than the last sequence number in the list. Two statements may not be
configured with the same sequence number. The value ranges from 1 –
4,294,967,294.
•permit—Permit routes whose destination prefix matches the statement.
•deny—Deny routes whose destination prefix matches the statement.
Layer 3 Routing Commands 1390
• network mask—Specifies the match criteria for routes being compared to
the prefix list statement. The network can be any valid IP prefix. The mask
is any IPv4 prefix in dotted-quad notation.
•ge length—(Optional) If this option is configured, a prefix is only
considered a match if its network mask length is greater than or equal to
this value. This value must be longer than the network length and less
than or equal to 32.
•le length—(Optional) If this option is configured, a prefix is only
considered a match if its network mask length is less than or equal to this
value. This value must be longer than the ge length and less than or equal
to 32.
•renumber—Option to renumber the sequence numbers of the ip prefix
list statements with a given interval starting from a particular sequence
number.
Default Configuration
No prefix lists are configured by default. When neither the ge nor the le
option is configured, the destination prefix must match the network/length
exactly. If the ge option is configured without the le option, any prefix with a
network mask greater than or equal to the ge value is considered a match.
Similarly, if the le option is configured without the ge option, a prefix with a
network mask less than or equal to the le value is considered a match.
Command Mode
Global Configuration
User Guidelines
Prefix lists allow matching of route prefixes with those specified in the prefix
list. Each prefix list includes of a sequence of prefix list entries ordered by
their sequence numbers. A router sequentially examines each prefix list entry
to determine if the route’s prefix matches that of the entry. An empty or non-
existent prefix list permits all prefixes. An implicit deny is assumed if a given
prefix does not match any entries of a prefix list. Once a match or deny occurs
the router does not go through the rest of the list. A prefix list may be used
within a route map to match a route’s prefix using the match ip address
command.
Layer 3 Routing Commands 1391
The command no ip prefix-list list-name deletes the entire prefix list. To
remove an individual statement from a prefix list, you must specify the
statement exactly, with all its options.
Up to 128 prefix lists may be configured. The maximum number of
statements allowed in prefix list is 64.
Command History
Introduced in version 6.2.0.1 firmware.
Example
The following example configures a prefix list that allows routes with one of
two specific destination prefixes, 172.20.0.0 /16 and 192.168.1.0 /24:
console(config)# ip prefix-list apple seq 10 permit 172.20.0.0/16
console(config)# ip prefix-list apple seq 20 permit 192.168.10 0.0.0.255
The following example disallows only the default route.
console(config)# ip prefix-list orange deny 0.0.0.0/0
console(config)# ip prefix-list orange permit 0.0.0.0/0 ge 1
ip prefix-list description
To apply a text description to a prefix list, use the ip prefix-list description
command in global configuration mode. To remove the text description, use
the no form of this command.
Syntax
ip prefix-list list-name description text
no ip prefix-list list-name description
• list-name—The text name of the prefix list.
• text—Text description of the prefix list. Up to 80 characters
Default Configuration
No description is configured by default.
Layer 3 Routing Commands 1392
Command Mode
Global Configuration
User Guidelines
There are no user guidelines for this command.
Command History
Introduced in version 6.2.0.1 firmware.
Example
console(config)#ip prefix-list test description test prefix lists
ipv6 prefix-list
To create an IPv6 prefix list or add an IPv6 prefix list entry, use the ipv6
prefix-list command in global configuration mode. To delete a prefix list or a
statement in a prefix list, use the no form of this command.
Syntax
ipv6 prefix-list list-name { [seq seq-number] {permit|deny} ipv6-
prefix/prefix-length [ge ge-value] [le le-value] | description text | renumber
renumber-interval first-statement-number }
no ipv6 prefix-list list-name
• list-name—The text name of the prefix list. Up to 32 characters.
•seq number—(Optional) The sequence number for this prefix list
statement. Prefix list statements are ordered from lowest sequence number
to highest and applied in that order. If you do not specify a sequence
number, the system automatically selects a sequence number five larger
than the last sequence number in the list. Two statements may not be
configured with the same sequence number. The sequence number ranges
from 1 – 4,294,967,294.
•permit—Permit routes whose destination prefix matches the statement.
•deny—Deny routes whose destination prefix matches the statement.
Layer 3 Routing Commands 1393
• ipv6-prefix—The IPv6 network assigned to the specified prefix list. This
argument must be in the form documented in RFC 2373 where the
address is specified in hexadecimal using 16-bit values between colons.
• prefix-length—The length of the IPv6 prefix given as part of the ipv6-
prefix. Required if a prefix is specified. A decimal value that indicates how
many of the high-order contiguous bits of the address comprise the prefix
(the network portion of the address) in /length format. A slash mark must
precede the decimal value in /length format.
•ge length—(Optional) Specifies a prefix length greater than or equal to the
ipv6-prefix /prefix-length arguments. It is the lowest value of a range of the
length (the “from” portion of the length range).
•le length—(Optional) Specifies a prefix length less than or equal to the
ipv6-prefix /prefix-length arguments. It is the highest value of a range of
the length (the “to” portion of the length range).
•description text—A description of the prefix list that can be up to 80
characters in length.
• renumber-interval—Option to renumber the sequence numbers of the
IPv6 prefix list statements with a given interval. The sequence is
renumbered with the statements separated by the interval value. The
renumber value ranges from 1 – 4,294,967,294.
• first-statement-number—Option to renumber the sequence numbers of
the IPv6 prefix list statements with a given interval starting from the
specified sequence number. The sequence is renumbered with the
statements separated by the interval value beginning with the first entry
with a sequence number greater than or equal to the specified value. The
sequence number ranges from 1 – 4,294,967,294.
Default Configuration
No prefix lists are configured by default.
Command Mode
Global Configuration
Layer 3 Routing Commands 1394
User Guidelines
The ipv6 prefix-list command is used to create IPv6 prefix lists. These are
similar to ip prefix lists except that the lists are IPv6 specific. An IPv6 prefix
list can contain only IPv6 addresses.
Prefix lists allow matching of route prefixes against those specified in the
prefix list. Each prefix list includes of a sequence of prefix list entries ordered
by sequence numbers. A router examines each prefix list entry in sequential
order to determine if the route’s prefix matches that of the entry. For IPv6
routes, only IPv6 prefix lists are matched. An empty or non-existent prefix list
permits all prefixes. An implicit deny is assumed if a given prefix does not
match any entries of a prefix list. Once a match occurs the router does not
perform matching on the rest of the list.
An IPv6 prefix list may be used within a route map to match a route’s prefix
using the match ipv6 address command. A route map may contain both IPv4
and IPv4 prefix lists. If the route being matched is an IPv6 route, only the
IPv6 prefix lists are matched.
When neither the ge nor the le option is configured, the destination prefix
must match the ipv6-prefix/prefix-length exactly. If the ge option is
configured without the le option, any prefix with a ipv6-prefix greater than or
equal to the ge value is considered a match. Similarly, if the le option is
configured without the ge option, a prefix with a network mask less than or
equal to the le value is considered a match. No description is configured by
default for an IPv6 prefix list.
The command no ipv6 prefix-list list-name deletes the entire prefix list. To
remove an individual statement from a prefix list, specify the statement
exactly, with all its options.
Up to 128 prefix lists may be configured. The maximum number of
statements allowed in prefix list is 64. These numbers indicate only IPv6
prefix lists. IPv4 prefix lists may be configured in appropriate numbers
independently.
Command History
Introduced in version 6.2.0.1 firmware.
Layer 3 Routing Commands 1395
Example
The following example configures a prefix list that allows routes with one of
two specific destination prefixes, 2001::/64 and 5F00::/48:
console(config)# ipv6 prefix-list apple seq 10 permit 2001:: /64
console(config)# ipv6 prefix-list apple seq 20 permit 5F00:: FFFF:FFFF:FFFF::
The following example renumbers the apple prefix list beginning at sequence
number 10.
console(config)# ipv6 prefix-list apple renumber 10
match as-path
Use this command to add criteria that matches BGP autonomous system
paths against an AS path access list to a route map. Use the no form of the
command to remove the matching criteria from the route map
Syntax
match as-path as-path-list-number
no match as-path as-path-list-number
•as-path as-path-list-number—An integer from 1 to 500 identifying the AS
path access list to use as match criteria.
Default Configuration
No as-path match criteria are configured by default.
Command Mode
Route Map Configuration
User Guidelines
If a new match as-path statement is entered in a route map statement that
already has a match as-path statement, the AS path list numbers in the new
statement are added to the existing match term, up to the maximum number
of lists in a statement. A route is considered a match if it matches any one or
more of the AS path access lists to which the statement refers.
Layer 3 Routing Commands 1396
Command History
Introduced in version 6.2.0.1 firmware.
Example
console(route-map)#match as-path 250
match community
To configure a route map to match based on a BGP community list, use the
match community command. To delete a match term from a route map, use
the no form of this command.
Syntax
match community community-list [ community-list...] [exact-match]
no match community [ community-list [ community-list...] [exact-match] ]
• community-list—The name of a standard community list. Up to eight
names may be included in a single match term.
•exact-match—(Optional) When this option is given, a route is only
considered a match if the set of communities on the route is an exact
match for the set of communities in one of the statements in the
community list.
Default Configuration
No community match criteria are configured by default.
Command Mode
Route Map Configuration
User Guidelines
If the community list returns a permit action, the route is considered a
match. If the match statement refers to a community list that is not
configured, no routes are considered to match the statement.
no match community list exact-match removes the match statement from
the route map. (It doesn’t simply remove the exact-match option.)
Layer 3 Routing Commands 1397
The command no match community removes the match term and all its
community lists.
Command History
Introduced in version 6.2.0.1 firmware.
Example
console(route-map)#match community test
match ip address prefix-list
Use this command to configure a route map to match based on a destination
prefix. To delete a match statement from a route map, use the no form of this
command.
Syntax
match ip address prefix-list prefix-list-name [prefix-list-name...]
no match ip address prefix-list [ prefix-list-name [prefix-list-name...] ]
•prefix-list prefix-list-name—The name of a prefix list used to identify the
set of matching routes. Up to eight prefix lists may be specified.
Default Configuration
No match criteria are configured by default.
Command Mode
Route Map Configuration
User Guidelines
If multiple prefix lists are specified in one statement, a match occurs if a
prefix matches any one of the prefix lists. If a match ip address statement is
configured within a route map section that already has a match ip address
statement, the new prefix lists are added to the existing set of prefix lists, and
a match occurs if any prefix list in the combined set matches the prefix.
The command no match ip address prefix-list removes the match term and
all its prefix lists.
Layer 3 Routing Commands 1398
Command History
Introduced in version 6.2.0.1 firmware.
Example
console(route-map)#match ip address prefix-list test
match ipv6 address prefix-list
Use this command to configure a route map to match based on an IPv6
destination prefix. To delete a match statement from a route map, use the no
form of this command.
Syntax
match ip address prefix-list prefix-list-name [prefix-list-name...]
no match ip address prefix-list [ prefix-list-name [prefix-list-name...] ]
•prefix-list prefix-list-name—The name of an IPv6 prefix list used to
identify the set of matching routes. Up to eight prefix lists may be
specified.
Default Configuration
No match criteria are configured by default.
Command Mode
Route Map Configuration
User Guidelines
If multiple prefix lists are specified in one statement, a match occurs if a
prefix matches any one of the prefix lists. If a match ipv6 address statement is
configured within a route map section that already has a match ipv6 address
statement, the new prefix lists are added to the existing set of prefix lists, and
a match occurs if any prefix list in the combined set matches the prefix.
The command no match ip address prefix-list removes the match term and
all its prefix lists.
Layer 3 Routing Commands 1399
Command History
Introduced in version 6.2.0.1 firmware.
Example
In the example below, IPv6 addresses specified by the prefix list apple are
matched through the route map abc.
Router(config)# route-map abc
Router(config-route-map)# match ipv6 address prefix-list apple
show ip as-path-access-list
This command displays the contents of AS path access lists.
Syntax
show ip as-path-access-list [ as-path-list-number ]
• as-path-list-number—(Optional) When an AS path list number is
specified, the output is limited to the single AS path list specified. Integer
from 1 to 500.
Default Configuration
No match criteria are configured by default.
Command Mode
Privileged Exec mode, Global Configuration mode and all sub-modes.
User Guidelines
There are no user guidelines for this command.
Command History
Introduced in version 6.2.0.1 firmware.
Example
console#show ip as-path-access-list
AS path access list 1
deny _100_
deny ^100$
Layer 3 Routing Commands 1400
AS path access list 2
deny _200_
deny ^200$
show ip community-list
This command displays the contents of AS path access lists.
Syntax
show ip community-list [community-list-name | detail [community-list-
name]]
• community-list-name—(Optional) A standard community list name. This
option limits the output to a single community.
•detail—Display detailed community list information
Default Configuration
No match criteria are configured by default.
Command Mode
Privileged Exec mode, Global Configuration mode and all sub-modes.
User Guidelines
There are no user guidelines for this command.
Command History
Introduced in version 6.2.0.1 firmware.
Example
console#show ip community-list
Standard community list buzz
permit 100:200
permit 100:300
permit 100:400
Standard community list woody
permit 200:1
permit 200:2
permit 200:3
Layer 3 Routing Commands 1401
show ip prefix-list
This command displays the contents of IPv4 prefix lists.
Syntax
show ip prefix-list [detail [prefix-list-name] | summary [prefix-list-name] |
prefix-list-name [network mask [longer] [first-match] | seq sequence-
number ]] [detail | summary] prefix-list-name [network network-mask ]
[seq sequence-number] [longer] [first-match]
•detail | summary—(Optional) Displays detailed or summarized
information about all prefix lists.
• prefix-list-name—(Optional) The name of a specific prefix list.
• network—(Optional) The network number
• mask—Required if a network is specified. The network mask dotted-quad
notation. In dotted-quad notation, the 1 bits must be contiguous and left
justified.
•seq sequence-number—(Optional) Applies the sequence number to the
prefix list entry. The sequence number of the prefix list entry.
•longer—(Optional) Displays all entries of a prefix list that are more
specific than the given network/length.
•first-match—(Optional) Displays the entry of a prefix list that matches
the given network.
Default Configuration
No prefix lists are configured by default.
Command Mode
Privileged Exec mode, Global Configuration mode and all sub-modes.
User Guidelines
The following combinations of parameters are acceptable:
show ip prefix-list prefix-list-name network /length first-match
show ip prefix-list prefix-list-name network /length longer
show ip prefix-list prefix-list-name network /length
Layer 3 Routing Commands 1402
show ip prefix-list prefix-list-name seq sequence-number
show ip prefix-list prefix-list-name
show ip prefix-list summary
show ip prefix-list summary prefix-list-name
show ip prefix-list detail
show ip prefix-list detail prefix-list-name
show ip prefix-list
The following information is displayed.
Command History
Introduced in version 6.2.0.1 firmware.
Example
console#show ip prefix-list fred
ip prefix-list fred:
count: 3, range entries: 3, sequences: 5 - 15, refcount: 0
seq 5 permit 10.10.1.1/20 ge 22
seq 10 permit 10.10.1.2/20 le 30
seq 15 permit 10.10.1.2/20 ge 29 le 30
console#show ip prefix-list summary fred
ip prefix-list fred:
count: 3, range entries: 3, sequences: 5 - 15, refcount: 0
console#show ip prefix-list detail fred
Fields Description
count Number of entries in the prefix list.
range entries Number of entries that match the input range.
ref count Number of entries referencing the given prefix list.
seq Sequence number of the entry in the list.
permit/deny Actions.
sequences Range of sequence numbers for the entries in the list.
hit count Number of times the prefix was matched in the routing
decision process.
Layer 3 Routing Commands 1403
ip prefix-list fred:
count: 3, range entries: 3, sequences: 5 - 15, refcount: 0
seq 5 permit 10.10.1.1/20 ge 22 (hitcount: 0)
seq 10 permit 10.10.1.2/20 le 30 (hitcount: 0)
seq 15 permit 10.10.1.2/20 ge 29 le 30 (hitcount: 0)
show ipv6 prefix-list
This command displays the contents of IPv6 prefix lists.
Syntax
show ipv6 prefix-list [detail [prefix-list-name] | summary [prefix-list-name]
| prefix-list-name [ipv6-prefix/prefix-length [longer] [first-match] | seq
sequence-number ]]
•detail | summary – (Optional) Displays detailed or summarized
information about all prefix lists.
• prefix-list-name – (Optional) The name of a specific prefix list.
Information is limited to this particular prefix list.
• ipv6-prefix - An IPv6 network assigned to the specified prefix list. This
argument must be in the form documented in RFC 2373 where the address is
specified in hexadecimal using 16-bit values between 0x00 and 0xff and
separated by colons.
• prefix-length - The length of the IPv6 prefix given as part of the ipv6-prefix.
Required if a prefix is specified. A decimal value in the range 0 to 128 that
indicates how many of the high-order contiguous bits of the address comprise
the prefix (the network portion of the address) in /length format. A slash
mark must precede the decimal value in /length format.
•seq – (Optional) Applies the sequence number to the prefix list entry.
• sequence-number – (Optional) The sequence number of the prefix list
entry.
•longer – (Optional) Displays all entries of a prefix list that are more
specific than the given network/length.
•first-match – (Optional) Displays the entry of a prefix list that matches the
given prefix /prefix-length.
Layer 3 Routing Commands 1404
Default Configuration
No prefix lists are configured by default.
Command Mode
Privileged Exec mode, Global Configuration mode and all sub-modes.
User Guidelines
The following information is displayed.
Command History
Introduced in version 6.2.0.1 firmware.
Example
console#show ipv6 prefix-list apple
ipv6 prefix-list apple:
count: 6, range entries: 3, sequences: 5 - 30, refcount: 31
seq 5 deny 5F00::/8 le 128
seq 10 deny ::/0
seq 15 deny ::/1
seq 20 deny ::/2
seq 25 deny ::/3 ge 4
seq 30 permit ::/0 le 128
console#show ipv6 prefix-list summary apple
ipv6 prefix-list apple:
count: 6, range entries: 3, sequences: 5 - 30, refcount: 31
console#show ipv6 prefix-list detail apple
Fields Description
count Number of entries in the prefix list.
range entries Number of entries that match the input range.
ref count Number of entries referencing the given prefix list.
seq Sequence number of the entry in the list.
permit/deny Actions.
sequences Range of sequence numbers for the entries in the list.
hit count Number of times the prefix was matched in the routing
decision process.
Layer 3 Routing Commands 1405
ipv6 prefix-list apple:
count: 6, range entries: 3, sequences: 5 - 30, refcount: 31
seq 5 deny 5F00::/8 le 128 (hit count: 0, refcount: 1)
seq 10 deny ::/0 (hit count: 0, refcount: 1)
seq 15 deny ::/1 (hit count: 0, refcount: 1)
seq 20 deny ::/2 (hit count: 0, refcount: 1)
seq 25 deny ::/3 ge 4 (hit count: 0, refcount: 1)
seq 30 permit ::/0 le 128 (hit count: 240664, refcount: 0)
clear ip prefix-list
To reset the IPv4 prefix-list counters, use the clear ip prefix-list command.
Syntax
clear ip prefix-list [list-name | list-name network mask]
• list-name—(Optional) Name of the prefix list from which the hit count is
to be cleared.
• network— (Optional) Network number. If this option is specified, hit
counters are cleared only for the matching prefixes.
• mask—Required if a network is specified. The network mask in dotted-
quad notation. In dotted-quad notation, the 1 bits must be contiguous
and left justified.
Default Configuration
No prefix lists are configured by default.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration sub-
modes
User Guidelines
This command is used to clear prefix-list hit counters. The hit count is a
value indicating the number of matches to a specific prefix list entry. The
counters are also cleared by the global clear counters command.
Command History
Introduced in version 6.2.0.1 firmware.
Layer 3 Routing Commands 1406
Example
console# clear ip prefix-list orange 20.0.0.0 /8
clear ipv6 prefix-list
To reset the IPv6 prefix-list counters, use the clear ipv6 prefix-list command.
Syntax
clear ipv6 prefix-list [list-name | list-name ipv6-prefix/prefix-length]
• list-name – (Optional) Name of the IPv6 prefix list from which the hit
count is to be cleared.
• ipv6-prefix - An IPv6 network assigned to the specified prefix list. This
argument must be in the form documented in RFC 2373 where the
address is specified in hexadecimal using 16-bit values between 0x00 and
0xff and separated by colons. Counters are cleared only for the matching
prefixes.
•pr efix-length - The length of the IPv6 prefix given as part of the ipv6-prefix.
Required if a prefix is specified. A decimal value in the range 0 to 128 that
indicates how many of the high-order contiguous bits of the address
comprise the prefix (the network portion of the address) in /length format.
A slash mark must precede the decimal value in /length format.
Default Configuration
No prefix lists are configured by default.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration sub-
modes
User Guidelines
This command is used to clear the IPv6 prefix-list hit counters. The hit count
is a value indicating the number of matches to a specific prefix list entry. The
counters are also cleared by the global clear counters command.
Command History
Introduced in version 6.2.0.1 firmware.
Layer 3 Routing Commands 1407
Example
The command below clears the counters only for the matching statement in
the IPv6 prefix list apple.
Router# clear ipv6 prefix-list apple FF05::/35
clear ip community-list
To reset the IPv6 prefix-list counters, use the clear ipv6 prefix-list command.
Syntax
clear ip community-list [list-name]
• list-name—(Optional) Name of the community list for which the hit
count is to be cleared.
Default Configuration
No community lists are configured by default.
Command Mode
Privileged Exec mode
User Guidelines
This command is used to clear the community list hit counters. The hit count
is a value indicating the number of matches to a specific list entry. The
counters are also cleared by the global clear counters command.
Command History
Introduced in version 6.2.0.1 firmware.
Example
The command below clears the counters only for the matching community
apple.
Router# clear ip community-list apple
Layer 3 Routing Commands 1408
set as-path
To prepend one or more AS numbers to the AS path in a BGP route, use the
set as-path command. To remove a set command from a route map, use the
no form of this command.
Syntax
set as-path prepend as-path-string
no set as-path prepend as-path-string
•prepend as-path-string—A list of AS path numbers to insert at the
beginning of the AS_PATH attribute of matching BGP routes. To prepend
more than one AS number, separate the ASNs with a space and enclose the
string in quotes. Up to ten AS numbers may be prepended.
Default Configuration
No AS paths are prepending by default.
Command Mode
Route Configuration
User Guidelines
This command is normally used to insert one or more instances of the local
AS number at the beginning of the AS_PATH attribute of a BGP route.
Doing so increases the AS path length of the route. The AS path length has a
strong influence on BGP route selection. Changing the AS path length can
influence route selection on the local router or on routers to which the route
is advertised.
When prepending an inbound route, if the first segment in the AS_PATH of
the received route is an AS_SEQUENCE, as-path-string is inserted at the
beginning of the sequence. If the first segment is an AS_SET, as-path-string is
added as a new segment with type AS_SEQUENCE at the beginning of the
AS path. When prepending an outbound route to an external peer, as-path-
string follows the local AS number, which is always the first ASN.
Command History
Introduced in version 6.2.0.1 firmware.
Layer 3 Routing Commands 1409
Example
console# config
console(config)#route-map ppAsPath
console(route-map)#set as-path prepend “2 2 2”
console(route-map)#exit
console(config)#router bgp 1
console(config-rtr)#neighbor 172.20.1.2 remote-as 2
console(config-rtr)#neighbor 172.20.1.2 route-map ppAsPath in
set comm-list delete
To remove BGP communities from an inbound or outbound UPDATE
message, use the set comm-list delete command. To delete the set command
from a route map, use the no form of this command.
Syntax
set comm-list community-list-name delete
no set comm-list
• community-list-name—A standard community list name.
Default Configuration
No communities are removed from UPDATE messages by default.
Command Mode
Route Map Configuration
User Guidelines
A route map with this set command can be used to remove selected
communities from inbound and outbound routes. When a community list is
applied to a route for this purpose, each of the route’s communities is
submitted to the community list one at a time. Communities permitted by
the list are removed from the route. Since communities are processed
individually, a community list used to remove communities should not
include the exact-match option on statements with multiple communities.
Such statements can never match an individual community.
Layer 3 Routing Commands 1410
When a route map statement includes both set community and set comm-
list delete terms, the set comm-list delete term is processed first, and then
the set community term (that is, communities are first removed, and then
communities are added).
Command History
Introduced in version 6.2.0.1 firmware.
Example
console(route-map)#set comm-list test delete
set community
To modify the communities attribute of matching routes, use the set
community command in route-map configuration mode. To remove a set
term from a route map, use the no form of this command
Syntax
set community {{community-number | no-export | no-advertise}
no set community
• community-number—One to sixteen community numbers, either as a 32-
bit integers or in AA:NN format. Communities are separated by spaces.
The well-known communities no-advertise and no-export are also
accepted.
•no-advertise—The well-known standard community: NO_ADVERTISE
(0xFFFFFF02) which indicates the community is not to be advertised.
•no-export—The well-known standard community: NO_EXPORT,
(0xFFFFFF01), which indicates the routes are not to be advertised outside
the community.
•additive—(Optional) Communities are added to those already attached to
the route.
•none—(Optional) Removes all communities from matching routes.
Default Configuration
No communities are set by default.
Layer 3 Routing Commands 1411
Command Mode
Route Map Configuration
User Guidelines
The set community command can be used to assign communities to routes
originated through BGP’s network and redistribute commands and to set
communities on routes received from a specific neighbor or advertised to a
specific neighbor. It can also be used to remove all communities from a route.
To remove a subset of the communities on a route, use the set comm-list
delete command.
Command History
Introduced in version 6.2.0.1 firmware.
Example
console(route-map)#set community no-advertise
set ipv6 next-hop (BGP)
To set the IPv6 next hop of a route, use the set ipv6 next-hop command in
route-map configuration mode. To remove a set command from a route map,
use the no form of this command.
Syntax
set ipv6 next-hop ipv6-address
no set ipv6 next-hop
• ipv6-address—The IPv6 address set as the Network Address of Next Hop
field in the MP_NLRI attribute of an UPDATE message. This argument
must be in the form documented in RFC 2373, where the address is
specified in hexadecimal using 16-bit values between colons.
Default Configuration
No next-hops are set by default.
Command Mode
Route Map Configuration
Layer 3 Routing Commands 1412
User Guidelines
When used in a route map applied to UPDATE messages received from a
neighbor, the command sets the next hop address for matching IPv6 routes
received from the neighbor. When used in a route map applied to UPDATE
messages sent to a neighbor, the command sets the next hop address for
matching IPv6 routes sent to the neighbor. If the address is a link local
address, the address is assumed to be on the interface where the UPDATE is
sent or received. If the command specifies a global IPv6 address, the address is
not required to be on a local subnet.
Command History
Introduced in version 6.2.0.1 firmware.
Example
console(route-map)#set ipv6 next-hop FE80::0202:B3FF:FE1E:8329
set local-preference
To set the local preference of specific BGP routes, use the set local-preference
command in route-map configuration mode. To remove a set command from
a route map, use the no form of this command.
Syntax
set local-preference value
no set local-preference value
• value—A local preference value, from 0 to 4,294,967,295 (any 32 bit
integer).
Default Configuration
There is no default configuration for this command.
Command Mode
Route Map Configuration
Layer 3 Routing Commands 1413
User Guidelines
The local preference is the first attribute used to compare BGP routes.
Setting the local preference can influence which route BGP selects as the best
route. When used in conjunction with a match as-path or match ip-address
command, this command can be used to prefer routes that transit certain ASs
or to make the local router a more preferred exit point to certain destinations.
Command History
Introduced in version 6.2.0.1 firmware.
Example
console(route-map)#set local-preference 6432
set metric
To set the metric of a route, use the set metric command. To remove a set
command from a route map, use the no form of this command.
Syntax
set metric value
no set metric value
• value—A local preference value, from 0 to 4,294,967,295 (any 32 bit
integer).
Default Configuration
There is no default configuration for this command.
Command Mode
Route Map Configuration
User Guidelines
This command sets the Multi Exit Discriminator (MED) when used in a BGP
context. When there are multiple peering points between two autonomous
systems (AS), setting the MED on routes advertised by one router can
influence the other AS to send traffic through a specific peer
Layer 3 Routing Commands 1414
Command History
Introduced in version 6.2.0.1 firmware.
Example
console(route-map)#set metric 6432
Layer 3 Routing Commands 1415
DVMRP Commands
Dell EMC Networking N3000/N3100/N4000 Series Switches
Distance Vector Multicast Routing Protocol (DVMRP) is a dense mode
multicast protocol and is most appropriate for use in networks where
bandwidth is relatively plentiful and there is at least one multicast group
member in each subnet. DVMRP assumes that all hosts are part of a
multicast group until it is informed of multicast group changes. When the
dense-mode multicast router is informed of a group membership change, the
multicast delivery tree is pruned. DVMRP uses a distributed routing
algorithm to build per-source-group multicast trees. It is also called Broadcast
and Prune Multicasting protocol. It dynamically generates per-source-group
multicast trees using Reverse Path Multicasting. Trees are calculated and
updated dynamically to track membership of individual groups.
Commands in this Section
This section explains the following commands:
ip dvmrp
Use the ip dvmrp command to set the administrative mode of DVMRP in the
router to active. Enabling DVMRP concurrently enables IGMP/MLD. Using
the no form of the command sets the administrative mode to inactive and
disables IGMP/MLD.
Syntax
ip dvmrp
no ip dvmrp
ip dvmrp show ip dvmrp neighbor
ip dvmrp metric show ip dvmrp nexthop
show ip dvmrp show ip dvmrp prune
show ip dvmrp interface show ip dvmrp route
Layer 3 Routing Commands 1416
Default Configuration
Disabled is the default configuration.
Command Mode
Global Configuration
Interface Configuration (VLAN) mode
User Guidelines
PIM must be disabled before DVMRP can be enabled. This command
enables IGMP/MLD. Disabling IGMP/MLD may operationally disable
multicast routing.
Example
The following example sets VLAN 15’s administrative mode of DVMRP to
active.
console(config)#interface vlan 15
console(config-if-vlan15)#ip dvmrp
ip dvmrp metric
Use the ip dvmrp metric command in Interface Configuration mode to
configure the metric for an interface. This value is used in the DVMRP
messages as the cost to reach this network.
Syntax
ip dvmrp metric metric
no ip dvmrp metric
• metric — Cost to reach the network. (Range: 1-31)
Default Configuration
1 the default value.
Command Mode
Interface Configuration (VLAN) mode
Layer 3 Routing Commands 1417
User Guidelines
This command has no user guidelines.
Example
The following example configures a metric of 5 for VLAN 15.
console(config)#interface vlan 15
console(config-if-vlan15)#ip dvmrp metric 5
show ip dvmrp
Use the show ip dvmrp command to display the system-wide information for
DVMRP.
Syntax
show ip dvmrp
Default Configuration
This command has no default condition.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
This command has no user guidelines.
Example
The following example displays system-wide information for DVMRP.
console(config)#show ip dvmrp
Admin Mode................................. Enabled
Version.................................... 3
Total Number of Routes..................... 0
Reachable Routes........................... 0
DVMRP INTERFACE STATUS
Interface Interface Mode Operational-Status
--------- -------------- ------------------
Layer 3 Routing Commands 1418
show ip dvmrp interface
Use the show ip dvmrp interface command to display the interface
information for DVMRP on the specified interface.
Syntax
show ip dvmrp interface vlan vlan-id
• vlan-id — Valid VLAN ID.
Default Configuration
This command has no default condition.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
This command has no user guidelines.
Example
The following example displays interface information for VLAN 11 DVMRP.
console(config)#show ip dvmrp interface vlan 11
Interface Mode................................. Enabled
Interface Metric............................... 5
Local Address.................................. 10.1.0.2
Received Bad Packets........................... 0
Received Bad Routes............................ 0
Sent Routes.................................... 0
show ip dvmrp neighbor
Use the show ip dvmrp neighbor command to display the neighbor
information for DVMRP.
Syntax
show ip dvmrp neighbor
Layer 3 Routing Commands 1419
Default Configuration
This command has no default condition.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
This command has no user guidelines.
Example
The following example displays the neighbor information for DVMRP.
console(config)#show ip dvmrp neighbor
No neighbors available.
show ip dvmrp nexthop
Use the show ip dvmrp nexthop command to display the next hop
information on outgoing interfaces for routing multicast datagrams.
Syntax
show ip dvmrp nexthop
Default Configuration
This command has no default condition.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
This command has no user guidelines.
Layer 3 Routing Commands 1420
Example
The following example displays the next hop information on outgoing
interfaces for routing multicast datagrams.
console(config)#show ip dvmrp nexthop
Next Hop
Source IP Source Mask Interface Type
-------------- -------------- --------- ------
show ip dvmrp prune
Use the show ip dvmrp prune command to display the table that lists the
router’s upstream prune information.
Syntax
show ip dvmrp prune
Default Configuration
This command has no default condition.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
This command has no user guidelines.
Example
The following example displays the table that lists the router’s upstream
prune information.
console(config)#show ip dvmrp prune
Group IP Source IP Source Mask Expiry Time(secs)
-------------- -------------- -------------- ----------------
239.0.1.43 10.1.0.3 255.255.0.0 237
Layer 3 Routing Commands 1421
show ip dvmrp route
Use the show ip dvmrp route command to display the multicast routing
information for DVMRP.
Syntax
show ip dvmrp route
Default Configuration
This command has no default.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
This command has no user guidelines.
Example
The following example displays the multicast routing information for
DVMRP.
console#show ip dvmrp route
console(config)#show ip dvmrp route
Upstream Expiry
Source Address Source Mask Neighbor Intf Metric Time
UpTime
Layer 3 Routing Commands 1422
IGMP Commands
Dell EMC Networking N3000/N3100/N4000 Series Switches
The Dell Network N1500/N2000/N2100-ON Series switches support limited routing
and multicast capabilities. See the Users Configuration Guide section “Feature
Limitations and Platform Constants” for supported capabilities.
Internet Group Management Protocol (IGMP) is the multicast group
membership discovery protocol used for IPv4 multicast groups. Three
versions of IGMP exist. Versions one and two are widely deployed. Since
IGMP is used between end systems (often desktops) and the multicast router,
the version of IGMP required depends on the end-user operating system
being supported. Any implementation of IGMP must support all earlier
versions.
The following list describes the basic operation of IGMP, common to all
versions. A multicast router can act as both an IGMP host and an IGMP
router and as a result can respond to its own IGMP messages. The Dell EMC
Networking implementation of IGMPv3 supports the multicast router
portion of the protocol (that is, not the host portion). It is backward
compatible with IGMPv1 and IGMPv2.
• One router periodically broadcasts IGMP Query messages onto the
network.
• Hosts respond to the Query messages by sending IGMP Report messages
indicating their group memberships.
• All routers receive the Report messages and note the memberships of hosts
on the network.
• If a router does not receive a Report message for a particular group for a
period of time, the router assumes there are no more members of the
group on the network.
All IGMP messages are raw IP data grams and are sent to multicast group
addresses, with a time to leave (TTL) of 1. Since raw IP does not provide
reliable transport, some messages are sent multiple times to aid reliability.
IGMPv3 is a major revision of the protocol and provides improved group
membership latency. When a host joins a new multicast group on an
interface, it immediately sends an unsolicited IGMP Report message for that
group.
Layer 3 Routing Commands 1423
IGMPv2 introduced a Leave Group message, which is sent by a host when it
leaves a multicast group for which it was the last host to send an IGMP
Report message. Receipt of this message causes the Querier possibly to
reduce the remaining lifetime of its state for the group, and to send a group-
specific IGMP Query message to the multicast group.The Leave Group
message is not used with IGMPv3, since the source address filtering
mechanism provides the same functionality.
IGMPv3 also allows hosts to specify the list of hosts from which they want to
receive traffic. Traffic from other hosts is blocked inside the network. It also
allows hosts to block packets for all sources sending unwanted traffic.
IGMPv3 adds the capability for a multicast router to learn which sources are
of interest to neighboring systems for packets sent to any particular multicast
address. This information gathered by IGMP is provided to the multicast
routing protocol (that is, DVMRP, PIM-DM, and PIM-SM) that is currently
active on the router in order to ensure multicast packets are delivered to all
networks where there are interested receivers.
IGMP mode is automatically enabled when PIM, DVMRP, or IGMP Proxy is
enabled.
Commands in this Section
This section explains the following commands:
ip igmp last-member-query-count
Use the ip igmp last-member-query-count command in Interface
Configuration mode to set the number of Group-Specific Queries sent before
the router assumes that there are no local members on the interface.
ip igmp last-member-query-count ip igmp startup-query-interval
ip igmp last-member-query-interval ip igmp version
ip igmp mroute-proxy show ip igmp
ip igmp query-interval show ip igmp groups
ip igmp query-max-response-time show ip igmp interface
ip igmp robustness show ip igmp membership
ip igmp startup-query-count show ip igmp interface stats
Layer 3 Routing Commands 1424
Syntax
ip igmp last-member-query-count Imqc
no ip igmp last-member-query-count
• Imqc — Query count. (Range: 1-20)
Default Configuration
The default last member query count is 2.
Command Mode
Interface Configuration (VLAN) mode
User Guidelines
This command has no user guidelines.
Example
The following example sets 10 as the number of VLAN 2 Group-Specific
Queries.
console#configure
console(config)#interface vlan 2
console(config-if-vlan2)#ip igmp last-member-query-count 10
console(config-if-vlan2)#no ip igmp last-member-query-count
ip igmp last-member-query-interval
Use the ip igmp last-member-query-interval command in Interface
Configuration mode to configure the Maximum Response Time inserted in
Group-Specific Queries which are sent in response to Leave Group messages.
Syntax
ip igmp last-member-query-interval tenthsofseconds
no ip igmp last-member-query-interval
• tenthsofseconds — Maximum Response Time in tenths of a second
(Range: 0-255)
Layer 3 Routing Commands 1425
Default Configuration
The default Maximum Response Time value is ten (in tenths of a second).
Command Mode
Interface Configuration (VLAN) mode
User Guidelines
This command has no user guidelines.
Example
The following example configures 2 seconds as the Maximum Response Time
inserted in VLAN 15’s Group-Specific Queries.
console(config)#interface vlan 15
console(config-if-vlan15)#ip igmp last-member-query-interval 20
ip igmp mroute-proxy
This command configures downstream IGMP proxy on the selected VLAN
interface associated with multicast hosts. Use this command to enable the
proxying of IGMP messages received on the local interface to the multicast
router connected interface enabled with the ip igmp proxy-service command.
PIM and DVMRP are not compatible with IGMP proxy. Disable
PIM/DVMRP before enabling IGMP proxy.
Multicast routing must be enabled for the IGMP proxy service to become
operationally enabled.
IGMP is enabled when ip pim sparse-mode, ip pim dense-mode, ip dvmrp,
or ip igmp-proxy are enabled. IP multicast routing must be globally enabled
and an upstream interfaces must be configured using the the ip igmp proxy-
service command. If ip pim or ip dvmrp is enabled, this command is not
displayed in the running-config.
Syntax
ip igmp mroute-proxy
no ip igmp mroute-proxy
Layer 3 Routing Commands 1426
Default Configuration
Disabled is the default state.
Command Mode
Interface VLAN Configuration mode
User Guidelines
IGMP is enabled when ip pim sparse-mode, ip pim dense-mode, ip dvmrp,
or ip igmp-proxy are enabled.
A multicast routing protocol (e.g. PIM) should be enabled whenever IGMP is
enabled.
L3 IP multicast must be enabled for IGMP to operate.
Example
The following example globally enables IGMP the IGMP proxy service on
VLAN 1.
console(config)#ip multicast-routing
console(config)#interface vlan 1
console(config-if-vlan1)#ip igmp mroute-proxy
ip igmp query-interval
Use the ip igmp query-interval command in Interface Configuration mode to
configure the query interval for the specified interface. The query interval
determines how fast IGMP Host-Query packets are transmitted on this
interface.
Syntax
ip igmp query-interval seconds
no ip igmp query-interval
• seconds — Query interval. (Range: 1-3600)
Default Configuration
The default query interval value is 125 seconds.
Layer 3 Routing Commands 1427
Command Mode
Interface Configuration (VLAN) mode
User Guidelines
This command has no user guidelines.
Example
The following example configures a 10-second query interval for VLAN 15.
console(config)#interface vlan 15
console(config-if-vlan15)#ip igmp query-interval 10
ip igmp query-max-response-time
Use the ip igmp query-max-response-time command in Internet
Configuration mode to configure the maximum response time interval for
the specified interface. It is the maximum query response time advertised in
IGMPv2 queries on this interface. The time interval is specified in seconds.
Syntax
ip igmp query-max-response-time seconds
no ip igmp query-max-response-time
• seconds — Maximum response time. (Range: 0-25 seconds)
Default Configuration
The default maximum response time value is 10 seconds.
Command Mode
Interface Configuration (VLAN) mode
User Guidelines
This command has no user guidelines.
Example
The following example configures a maximum response time interval of one
second for VLAN 15.
Layer 3 Routing Commands 1428
console(config)#interface vlan 15
console(config-if-vlan15)#ip igmp query-max-response-time 10
ip igmp robustness
Use the ip igmp robustness command in Interface VLAN Configuration
mode to configure the robustness that allows tuning of the interface, that is,
tuning for the expected packet loss on a subnet. If a subnet is expected to
have significant loss, the robustness variable may be increased for the
interface.
Syntax
ip igmp robustness robustness
no ip igmp robustness
• robustness — Robustness variable. (Range: 1-255)
Default Configuration
The default robustness value is 2.
Command Mode
Interface Configuration (VLAN) mode
User Guidelines
This command has no user guidelines.
Example
The following example configures a robustness value of 10 for VLAN 15.
console(config)#interface vlan 15
console(config-if-vlan15)#ip igmp robustness 10
ip igmp startup-query-count
Use the ip igmp startup-query-count command in Interface VLAN
Configuration mode to set the number of queries sent out on startup — at
intervals equal to the startup query interval for the interface.
Layer 3 Routing Commands 1429
Syntax
ip igmp startup-query-count count
no ip igmp startup-query-count
• count — The number of startup queries. (Range: 1-20)
Default Configuration
The default count value is 2.
Command Mode
Interface Configuration (VLAN) mode
User Guidelines
This command has no user guidelines.
Example
The following example sets for VLAN 15 the number of queries sent out on
startup at 10.
console(config)#interface vlan 15
console(config-if-vlan15)#ip igmp startup-query-count 10
ip igmp startup-query-interval
Use the ip igmp startup-query-interval command in Interface Configuration
mode to set the interval between general queries sent at startup on the
interface.
Syntax
ip igmp startup-query-interval seconds
no ip igmp startup-query-interval
• seconds — Startup query interval. (Range: 1-300 seconds)
Default Configuration
The default interval value is 31 seconds.
Layer 3 Routing Commands 1430
Command Mode
Interface Configuration (VLAN) mode
User Guidelines
This command has no user guidelines.
Example
The following example sets at 10 seconds the interval between general queries
sent at startup for VLAN 15.
console(config)#interface vlan 15
console(config-if-vlan15)#ip igmp startup-query-interval 10
ip igmp version
Use the ip igmp version command in Interface Configuration mode to
configure the version of IGMP for an interface.
Syntax
ip igmp version version
• version — IGMP version. (Range: 1-3)
Default Configuration
The default version is 3.
Command Mode
Interface Configuration (VLAN) mode
User Guidelines
This command has no user guidelines.
Example
The following example configures version 2 of IGMP for VLAN 15.
console#interface vlan 15
console(config-if-vlan15)#ip igmp version 2
Layer 3 Routing Commands 1431
show ip igmp
Use the show ip igmp command to display system-wide IGMP information.
Syntax
show ip igmp
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
This command has no user guidelines.
Example
The following example displays system-wide IGMP information.
console#show ip igmp
IGMP Admin Mode............................. Enabled
IGMP Router-Alert check..................... Disabled
IGMP INTERFACE STATUS
Interface Interface-Mode Operational-Status
--------- -------------- ----------------
vlan 3 Enabled Non-Operational
show ip igmp groups
Use the show ip igmp groups command in User Exec or Privileged Exec
modes to display the registered multicast groups on the interface. If detail is
specified, this command displays the registered multicast groups on the
interface in detail.
Syntax
show ip igmp groups [interface-type interface-number] [detail]
Layer 3 Routing Commands 1432
•
interface-type interface-number
—Interface type of VLAN and a valid VLAN
ID
Default Configuration
This command has no default configuration.
Command Mode
User Exec, Privileged Exec mode, Global Configuration mode and all
Configuration submodes
User Guidelines
This command has no user guidelines.
Example
The following example displays the registered multicast groups for VLAN 3.
console#show ip igmp groups vlan 3 detail
REGISTERED MULTICAST GROUP DETAILS
Version1 Version2 Group
Multicast Last Up Expiry Host Host Compat
IP Address Reporter Time Time Timer Timer Mode
--------------- ------------ ---------- --------- ------- -------- -----
225.0.0.5 1.1.1.5 00:00:05 00:04:15 ------ 00:04:15 v2
show ip igmp interface
Use the show ip igmp interface command to display the IGMP information
for the specified interface.
Syntax
show ip igmp interface [stats][interface-type interface-number]
•
interface-type interface-number
—Interface type of VLAN and a valid
VLAN ID
•stats—Displays IGMP statistics for the specified VLAN.
Default Configuration
This command has no default configuration.
Layer 3 Routing Commands 1433
Command Mode
User Exec, Privileged Exec mode, Global Configuration mode and all
Configuration submodes
User Guidelines
This command has no user guidelines.
Example
The following example displays IGMP information for VLAN 11.
console#show ip igmp interface vlan 11
Interface..................................... 11
IGMP Admin Mode............................... Enable
Interface Mode................................ Enable
IGMP Version.................................. 3
Query Interval (secs)......................... 125
Query Max Response Time (1/10 of a second).... 100
Robustness..................................... 2
Startup Query Interval (secs)................. 31
Startup Query Count............................ 2
Last Member Query Interval (1/10 of a second). 10
Last Member Query Count........................ 2
show ip igmp membership
Use the show ip igmp membership command to display the list of interfaces
that have registered in the multicast group. If detail is specified, this
command displays detailed information about the listed interfaces.
Syntax
show ip igmp membership [
groupaddr
]
[detail]
• groupaddr — Group IP address
Default Configuration
This command has no default configuration.
Command Mode
User Exec, Privileged Exec mode, Global Configuration mode and all
Configuration submodes
Layer 3 Routing Commands 1434
User Guidelines
This command has no user guidelines.
Examples
The following examples display the list of interfaces that have registered in
the multicast group at IP address 224.5.5.5, the latter in detail mode.
console#show ip igmp interface membership 224.5.5.5
console(config)#show ip igmp membership 224.5.5.5 detail
show ip igmp interface stats
Use the show ip igmp interface stats command in User Exec mode to display
the IGMP statistical information for the interface. The statistics are only
displayed when the interface is enabled for IGMP.
Syntax
show ip igmp interface stats vlan vlan-id
• vlan-id — Valid VLAN ID
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec, Global Configuration mode and all Configuration submodes
User Guidelines
This command has no user guidelines.
Examples
The following example displays the IGMP statistical information for VLAN 7.
console#show ip igmp interface stats vlan 7
Querier Status............................... Querier
Querier IP Address........................... 7.7.7.7
Querier Up Time (secs)...................... 55372
Querier Expiry Time (secs).................. 0
Wrong Version Queries........................ 0
Layer 3 Routing Commands 1435
Number of Joins.............................. 7
Number of Groups............................. 1
Layer 3 Routing Commands 1436
IGMP Proxy Commands
Dell EMC Networking N3000/N3100/N4000 Series Switches
IGMP Proxy is used by the router on IPv4 systems to enable the system to
issue IGMP host messages on behalf of hosts that the system discovered
through standard IGMP router interfaces, thus acting as proxy to all its hosts
residing on its router interfaces.
Dell EMC Networking supports IGMP Version 3, Version 2 and Version 1.
Version 3 adds support for source filtering [SSM] is interoperable with
Versions 1 and 2. Version 2 enhances group membership terminations to be
quickly reported to overcome leave latency and is interoperable with IGMP
Version 1.
Commands in this Section
This section explains the following commands:
ip igmp proxy-service
Use the ip igmp proxy-service command in Interface Configuration mode to
enable the IGMP Proxy on the VLAN interface. Use this command to enable
the sending of IGMP messages received on interfaces configured with the ip
igmp mroute-proxy command to an attached multicast router.
IGMP is enabled with IGMP proxy. Only one interface can be configured with
the IGMP proxy service. This interface forwards IGMP reports to a multicast
router on behalf of IGMP clients configured with the ip igmp mroute-proxy
command.
Syntax
ip igmp proxy-service
arp show ip igmp proxy-service interface
ip igmp proxy-service reset-status show ip igmp-proxy groups
ip igmp proxy-service unsolicit-rprt-
interval
show ip igmp proxy-service groups detail
show ip igmp proxy-service
–
Layer 3 Routing Commands 1437
no ip igmp proxy-service
Default Configuration
Disabled is the default configuration.
Command Mode
Interface Configuration (VLAN) mode
User Guidelines
This command enables IGMP proxy on the VLAN interface. Use this
command to enable sending of IGMP messages received on interfaces
configured with the ip igmp mroute-proxy command to an attached
multicast router.
PIM and DVMRP are not compatible with IGMP proxy. Disable
PIM/DVMRP before enabling IGMP proxy.
Multicast routing must be enabled for the IGMP proxy service to become
operationally enabled. This command enables IGMP/MLD. Disabling IGMP
Proxy may operationally disable multicast routing.
Example
The following example enables the IGMP Proxy on the VLAN 15 router.
console(config)#interface vlan 15
console(config-if-vlan15)#ip igmp-proxy
ip igmp proxy-service reset-status
Use the ip igmp proxy-service reset-status command in Interface
Configuration mode to reset the host interface status parameters of the
IGMP Proxy router. This command is valid only when IGMP Proxy is enabled
on the interface.
Syntax
ip igmp proxy-service reset-status
Default Configuration
This command has no default configuration.
Layer 3 Routing Commands 1438
Command Mode
Interface Configuration (VLAN) mode
User Guidelines
This command has no user guidelines.
Example
The following example resets the host interface status parameters of the
IGMP Proxy router.
console(config)#interface vlan 15
console(config-if-vlan15)#ip igmp proxy-service reset-status
ip igmp proxy-service unsolicit-rprt-interval
Use the ip igmp proxy-service unsolicit-rprt-interval command in Interface
Configuration mode to set the unsolicited report interval for the IGMP Proxy
router. This command is valid only if IGMP Proxy on the interface is enabled.
Syntax
ip igmp proxy-service unsolicit-rprt-interval seconds
• seconds — Unsolicited report interval. (Range: 1-260 seconds)
Default Configuration
The default configuration is 1 second.
Command Mode
Interface Configuration (VLAN) mode
User Guidelines
This command has no user guidelines.
Example
The following example sets 10 seconds as the unsolicited report interval for
the IGMP Proxy router.
console(config)#interface vlan 15
Layer 3 Routing Commands 1439
console(config-if-vlan15)#ip igmp proxy-service unsolicit-rpt-interval 10
show ip igmp proxy-service
Use the show ip igmp proxy-service command to display a summary of the
host interface status parameters. It displays status parameters only when
IGMP Proxy is enabled.
Syntax
show ip igmp proxy-service
Default Configuration
This command has no default configuration.
Command Mode
User Exec, Privileged Exec mode, Global Configuration mode and all
Configuration submodes
User Guidelines
This command has no user guidelines.
Example
The following example displays a summary of the host interface status
parameters.
console#show ip igmp proxy-service
Interface Index............................... vlan13
Admin Mode.................................... Enable
Operational Mode.............................. Enable
Version....................................... 3
Number of Multicast Groups.................... 0
Unsolicited Report Interval................... 1
Querier IP Address on Proxy Interface......... 0.0.0.0
Older Version 1 Querier Timeout............... 0
Older Version 2 Querier Timeout............... 0
Proxy Start Frequency........................ 1
Layer 3 Routing Commands 1440
show ip igmp proxy-service interface
Use the show ip igmp proxy-service interface command to display a detailed
list of the host interface status parameters. It displays status parameters only
when IGMP Proxy is enabled.
Syntax
show ip igmp proxy-service interface
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
This command has no user guidelines.
Example
The following example fails to display status parameters because IGMP Proxy
is not enabled.
console#show ip igmp proxy-service interface
Interface Index................................ vlan13
Ver Query Rcvd Report Rcvd Report Sent Leave Rcvd Leave Sent
-----------------------------------------------------------------
1 0 0 0 ----- -----
2 0 0 0 0 0
3 0 0 0 ----- -----
show ip igmp-proxy groups
Use the show ip igmp proxy-service groups command to display a table of
information about multicast groups that IGMP Proxy reported. It displays
status parameters only when IGMP Proxy is enabled.
Syntax
show ip igmp proxy-service groups
Layer 3 Routing Commands 1441
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
This command has no user guidelines.
Example
The following example attempts to display a table of information about
multicast groups that IGMP Proxy reported.
console#show ip igmp proxy-service groups
Interface Index................................ vlan13
Group Address Last Reporter Up Time Member State Filter Mode Sources
------------- --------------- ------- ------------ ----------- ------
225.0.1.1 13.13.13.1 7 DELAY-MEMBER Exclude 0
225.0.1.2 13.13.13.1 48 DELAY-MEMBER Exclude 0
show ip igmp proxy-service groups detail
Use the show ip igmp proxy-service groups detail command to display
complete information about multicast groups that IGMP Proxy has reported.
Syntax
show ip igmp proxy-service groups detail
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
Layer 3 Routing Commands 1442
User Guidelines
This command has no user guidelines.
Example
The following example displays complete information about multicast groups
that IGMP Proxy has reported.
console#show ip igmp proxy-service groups detail
Interface Index................................ vlan13
Group Address Last Reporter Up Time Member State Filter Mode Sources
------------- --------------- ------- ------------ ----------- -------
225.0.1.1 13.13.13.1 26 DELAY-MEMBER Exclude 0
225.0.1.2 13.13.13.1 67 DELAY-MEMBER Exclude 0
Layer 3 Routing Commands 1443
IP Helper/DHCP Relay Commands
Dell EMC Networking N1500/N2000/N2100-ON/N3000/N3100-
ON/N4000 Series Switches
The IP Helper feature provides the ability for a router to forward configured
UDP broadcast packets to a particular IP address over a routed interface. This
allows applications to reach servers on non-local subnets. This is possible even
when the application is designed to assume a server is always on a local subnet
or when the application uses broadcast packets to reach the server (using the
broadcast MAC address FF:FF:FF:FF:FF:FF and with the IP broadcast
address 255.255.255.255 or a network directed broadcast IP address on the
receiving switch interface). IP routing must be enabled for IP Helper to
forward properly.
Network administrators can configure relay entries globally and on routing
interfaces. Each relay entry maps an ingress interface and destination UDP
port number to a single IPv4 address (the helper address). Multiple relay
entries may be configured for the same interface and UDP port, in which case
the relay agent unicasts matching packets to each server address. Interface
configuration takes priority over global configuration. If the destination UDP
port for a packet matches any entry on the ingress interface, the packet is
handled according to the interface configuration. If the packet does not
match any entry on the ingress interface, the packet is handled according to
the global IP helper configuration.
Network administrators can configure discard relay entries. Discard entries are
used to discard packets received on a specific interface when those packets
would otherwise be relayed according to a global relay entry. Discard relay
entries may be configured on interfaces, but are not configured globally.
Additionally, administrators can configure which UDP ports are forwarded.
Certain UDP port numbers can be specified by name in the UI, but network
administrators can configure a relay entry with any UDP port number.
Administrators may configure relay entries that do not specify a destination
UDP port. The relay agent assumes that these entries match packets with the
UDP destination ports listed in Table 7-1.
Layer 3 Routing Commands 1444
Table 7-1. UDP Destination Ports
Certain pre-existing DHCP relay options do not apply to relay of other
protocols. The administrator may optionally set a DHCP maximum hop
count or minimum wait time.
The relay agent relays DHCP packets in both directions. It relays broadcast
packets from the client to one or more DHCP servers (as a unicast packet),
and relays packets to the client that the DHCP server unicasts back to the
relay agent. For other protocols, the relay agent only relays broadcast packets
from the client to the server. Packets from the server back to the client are
assumed to be unicast directly to the client. Because there is no relay in the
return direction for protocols other than DHCP, the relay agent retains the
source IP address from the original client packet. The relay agent uses a local
IP address as the source IP address of relayed DHCP client packets.
When a switch receives a broadcast UDP packet on a routing interface, the
relay agent verifies that the interface is configured to relay to the destination
UDP port. If so, the relay agent unicasts the packet to the configured server IP
addresses. Otherwise, the relay agent verifies that there is a global
Protocol UDP Port Number
IEN-116 Name Service 42
DNS 53
NetBIOS Name Server 137
NetBIOS Datagram Server 138
TACACS Server 49
Time Service 37
DHCP 67
Trivial File Transfer Protocol 69
ISAKAMP 500
Mobile IP 434
NTP 123
PIM Auto RP 496
RIP 520
Layer 3 Routing Commands 1445
configuration for the destination UDP port. If so, the relay agent unicasts the
packet to the configured server IP addresses. Otherwise the packet is not
relayed.
The relay agent only relays packets that meet the following conditions:
• The destination MAC address must be the all-ones broadcast address
(FF:FF:FF:FF:FF:FF).
• The destination IP address must be the IPv4 broadcast address
(255.255.255.255) or a directed broadcast address for the receiving
interface.
• The IP time-to-live (TTL) must be greater than 1.
• The protocol field in the IP header must be UDP (17).
• The destination UDP port must match a configured relay entry or an entry
in Table 7-1.
DHCP relay cannot be independently enabled or disabled globally. Only IP
helper can be enabled or disabled globally. Enabling IP helper enables DHCP
relay.
Commands in this Section
This section explains the following commands:
bootpdhcprelay maxhopcount ip helper-address (global configuration)
bootpdhcprelay minwaittime ip helper-address (interface configuration)
clear ip helper statistics ip helper enable
ip dhcp relay information check show ip helper-address
ip dhcp relay information check-reply show ip dhcp relay
ip dhcp relay information option show ip helper statistics
ip dhcp relay information option-insert
–
Layer 3 Routing Commands 1446
bootpdhcprelay maxhopcount
Use the bootpdhcprelay maxhopcount command in Global Configuration
mode to configure the maximum allowable relay agent hops for BootP/DHCP
Relay on the system. Use the no form of the command to set the maximum
hop count to the default value.
Syntax
bootpdhcprelay maxhopcount integer
no bootpdhcprelay maxhopcount
• integer — Maximum allowable relay agent hops for BootP/DHCP Relay on
the system. (Range: 1-16)
Default Configuration
The default integer configuration is 4.
Command Mode
Global Configuration mode, Virtual Router Configuration mode.
User Guidelines
Enable DHCP Relay using the
ip helper enable
command.
When in Virtual Router Configuration mode, this command operates within
the context of the virtual router instance. When in Global Configuration
mode, the command operates on the global router instance.
Virtual Router Configuration mode is only available on the
N3000/N3100/N4000 switches.
Example
The following example defines a maximum hopcount of 6.
console(config)#bootpdhcprelay maxhopcount 6
Layer 3 Routing Commands 1447
bootpdhcprelay minwaittime
Use the bootpdhcprelay minwaittime command in Global Configuration
mode to configure the minimum wait time in seconds for BootP/DHCP Relay
on the system. When the BOOTP relay agent receives a BOOTREQUEST
message, it might use the seconds-since-client- began-booting field of the
request as a factor in deciding whether to relay the request or not. Use the no
form of the command to set the minimum wait time to the default value.
Syntax
bootpdhcprelay minwaittime integer
no bootpdhcprelay minwaittime
• integer — Minimum wait time for BootP/DHCP Relay on the system.
(Range: 0-100 seconds)
Default Configuration
0 is the default integer configuration.
Command Mode
Global Configuration mode, Virtual Router Configuration mode
User Guidelines
Enable DHCP Relay using the ip helper enable command.
When in Virtual Router Configuration mode, this command operates within
the context of the virtual router instance. When in Global Configuration
mode, the command operates on the global router instance.
Virtual Router Configuration mode is only available on the
N3000/N3100/N4000 switches.
Example
The following example defines a minimum wait time of 10 seconds.
console(config)#bootpdhcprelay minwaittime 10
Layer 3 Routing Commands 1448
clear ip helper statistics
Use the clear ip helper statistics command to reset to 0 the statistics
displayed in show ip helper statistics.
Syntax
clear ip helper statistics [vrf vrf-name]
• vrf-name—The name of the VRF instance on which the command
operates. If no VRF parameter is given, counters for the default (global)
router instance is cleared.
Default Configuration
There is no default configuration for this command.
Command Mode
Privileged Exec mode
User Guidelines
The VRF identified in the parameter must have been previously created or an
error is returned.
Example
console#clear ip helper statistics
ip dhcp relay information check
Use the ip dhcp relay information check command to enable DHCP Relay to
check that the relay agent information option in forwarded BOOTREPLY
messages is valid. If an invalid message is received, the relay agent drops it.
This information check will take effect, though enabled, only when the relay
agent interface is enabled to insert the suboptions.
Syntax
ip dhcp relay information check
no ip dhcp relay information check
Layer 3 Routing Commands 1449
Default Configuration
This is enabled by default for a DHCP relay agent.
Command Mode
Global Configuration mode, Virtual Router Configuration mode
User Guidelines
Enable DHCP Relay using the ip helper enable command. Interface
configuration takes precedence over global configuration. However if there is
no interface configuration then global configuration is followed.
This check is enabled by default. The administrator has to ensure that the
relay should be configured such that only it should insert option-82 fields and
no other device near the client has the facility to insert options.
When in Virtual Router Configuration mode, this command operates within
the context of the virtual router instance. When in Global Configuration
mode, the command operates on the global router instance.
Virtual Router Configuration mode is only available on the
N3000/N3100/N4000 switches.
Example
The following example enables relay information check globally:
console(config)#ip dhcp relay information check
ip dhcp relay information check-reply
Use the ip dhcp relay information check-reply command to enable DHCP
Relay to check that the relay agent information option in forwarded
BOOTREPLY messages is valid. If an invalid message is received, the relay
agent drops it. This information check will take effect, though enabled, only
when the relay agent interface is enabled to insert the suboptions.
Syntax
ip dhcp relay information check-reply [none]
no ip dhcp relay information check-reply
•none—(Optional) Disables the command function.
Layer 3 Routing Commands 1450
Default Configuration
This check is enabled by default.
Command Mode
Interface Configuration (VLAN) mode
User Guidelines
Enable DHCP Relay using the ip helper enable command. Use the global
configuration command ip dhcp relay information option command to
enable processing of DHCP circuit ID and remote agent ID options. DHCP
replies are checked by default. The network administrator should ensure that
only one switch in the path between the DHCP client and server processes
DHCP information options.
Example
The following example enables relay information check on the interface:
console(config)#interface vlan 10
console(config-if-vlan10)#ip dhcp relay information check-reply
ip dhcp relay information option
Use the ip dhcp relay information option command in Global Configuration
mode to globally enable insertion of the circuit ID option and remote agent
ID mode for BootP/DHCP Relay on the system (also called option 82). Use
the no form of the command to globally disable the circuit ID option and
remote agent ID mode for BootP/DHCP Relay.
Syntax
ip dhcp relay information option
no ip dhcp relay information option
Default Configuration
Disabled is the default configuration.
Command Mode
Global Configuration mode, Virtual Router Configuration mode
Layer 3 Routing Commands 1451
User Guidelines
This command globally enables inclusion of DHCP option 82 in DHCP
requests forwarded to the DHCP server. This information may also be relayed
on a per interface basis using the ip dhcp relay information option-insert
command.
Enable DHCP Relay using the ip helper enable command.
When in Virtual Router Configuration mode, this command operates within
the context of the virtual router instance. When in Global Configuration
mode, the command operates on the global router instance.
Virtual Router Configuration mode is only available on the
N3000/N3100/N4000 switches.
Example
The following example enables the circuit ID and remote agent ID options.
console(config)#ip dhcp relay information option
ip dhcp relay information option-insert
Use the ip dhcp relay information option-insert command in Interface
Configuration mode to enable the circuit ID option and remote agent ID
mode for BootP/DHCP Relay on the interface (also called option 82). Use the
no form of the command to return the configuration to the default.
Syntax
ip dhcp relay information option-insert [none]
no ip dhcp relay information option-insert
•none—Use to disable insertion of circuit id and remote agent id options
into DHCP requests forwarded to the DHCP server.
Default Configuration
Disabled is the default configuration.
Command Mode
Interface (VLAN) Configuration mode
Layer 3 Routing Commands 1452
User Guidelines
Enable DHCP Relay using the ip helper enable command. The interface
configuration always takes precedence over global configuration. However, if
there is no interface configuration, then global configuration is followed. Use
the ip dhcp relay information option command to globally enable inclusion
of Option 82 information in DHCP requests forwarded to a DHCP server.
Example
The following example enables the circuit ID and remote agent ID options on
VLAN 10.
console(config)#interface vlan 10
console(config-if-vlan10)#ip dhcp relay information option-insert
ip helper-address (global configuration)
Use the ip helper-address (global configuration) command to configure the
relay of certain UDP broadcast packets received on any interface. To delete an
IP helper entry, use the no form of this command.
Syntax
ip helper-address server-address [dest-udp-port | dhcp | domain | isakmp |
mobile-ip | nameserver | netbios-dgm | netbios-ns | ntp | pim-auto-rp | rip
| tacacs | tftp | time]
no ip helper-address [server-address] [dest-udp-port | dhcp | domain |
isakmp | mobile-ip | nameserver | netbios-dgm | netbios-ns | ntp | pim-
auto-rp | rip | tacacs | tftp | time]
• server-address — The IPv4 unicast or directed broadcast address to which
relayed UDP broadcast packets are sent. The server address cannot be an
IP address configured on any interface of the local router.
• dest-udp-port — A destination UDP port number from 1 to 65535. This
parameter need not be configured for DHCP. It must be configured for all
other protocols which are to be relayed.
• port-name — The destination UDP port may be optionally specified by its
name. Whether a port is specified by its number or its name has no effect
on behavior. The names recognized are as follows: dhcp (port 67), domain
(port 53), isakmp (port 500), mobile-ip (port 434), nameserver (port 42),
Layer 3 Routing Commands 1453
netbios-dgm (port 138), netbios-ns (port 137), ntp (port 123), pim-auto-
rp (port 496), rip (port 520), tacacs (port 49), tftp (port 69), and time
(port 37). Other ports must be specified by number.
Default Configuration
No helper addresses are configured.
Command Mode
Global Configuration mode, Virtual Router Configuration mode
User Guidelines
This command can be invoked multiple times, either to specify multiple
server addresses for a given port number or to specify multiple port numbers
handled by a specific server. Broadcast packets other than DHCP require
configuration of a destination UDP port number for IP helper if they are not
already listed in Table 7-1. The switch is able to supply the appropriate UDP
destination port numbers by examining the DHCP message, so configuration
of a UDP destination port is not required for unicast forwarding of DHCP.
The command no ip helper-address with no arguments clears all global IP
helper addresses.
When in Virtual Router Configuration mode, this command operates within
the context of the virtual router instance. When in Global Configuration
mode, the command operates on the global router instance.
Virtual Router Configuration mode is only available on the
N3000/N3100/N4000 switches.
Example
To relay DHCP packets received on any interface to two DHCP servers,
10.1.1.1 and 10.1.2.1, use the following commands:
console#config
console(config)#ip helper-address 10.1.1.1 dhcp
console(config)#ip helper-address 10.1.2.1 dhcp
To relay UDP packets received on any interface for all default ports (see
Table 7-1) to the server at 20.1.1.1, use the following commands:
console#config
console(config)#ip helper-address 20.1.1.1
Layer 3 Routing Commands 1454
Command History
Description revised in 6.3.5 release.
ip helper-address (interface configuration)
Use the ip helper-address (interface configuration) command to configure
the relay of certain UDP broadcast packets received on a specific interface. To
delete a relay entry on an interface, use the no form of this command.
Syntax
ip helper-address {server-address | discard} [dest-udp-port | dhcp | domain
| isakmp | mobile ip | nameserver | netbios-dgm | netbios-ns | ntp | pim-
auto-rp | rip | tacacs | tftp | time]
no ip helper-address [server-address | discard] [dest-udp-port | dhcp |
domain | isakmp | mobile-ip | nameserver | netbios-dgm | netbios-ns | ntp
| pim-auto-rp | rip | tacacs | tftp | time]
• server-address — The IPv4 unicast or directed broadcast address to which
relayed UDP broadcast packets are sent. The server address cannot be an
IP address configured on any interface of the local router.
•discard — Matching packets should be discarded rather than relayed, even
if a global ip helper-address configuration matches the packet.
• dest-udp-port — A destination UDP port number from 1 to 65535.
• port-name — The destination UDP port may be optionally specified by its
name. Whether a port is specified by its number or its name has no effect
on behavior. The names recognized are as follows: dhcp (port 67), domain
(port 53), isakmp (port 500), mobile-ip (port 434), nameserver (port 42),
netbios-dgm (port 138), netbios-ns (port 137), ntp (port 123), pim-auto-
rp (port 496), rip (port 520), tacacs (port 49), tftp (port 69), and time
(port 37). Other ports must be specified by number.
Default Configuration
No helper addresses are configured.
Command Mode
Interface Configuration (VLAN) mode.
Layer 3 Routing Commands 1455
User Guidelines
This command can be invoked multiple times on routing interface, either to
specify multiple server addresses for a given port number or to specify
multiple port numbers handled by a specific server. Broadcast packets other
than DHCP require configuration of a destination UDP port number for IP
helper if not listed in Table 7-1. The switch is able to supply the appropriate
UDP destination port numbers by examining the DHCP message, so
configuration of a UDP destination port is not required for unicast forwarding
of DHCP.
The command no ip helper-address with no arguments clears all helper
addresses on the interface.
Example
To relay DHCP packets received on vlan 5 to two DHCP servers, 192.168.10.1
and 192.168.20.1, use the following commands:
console#config
console(config)#interface vlan 5
console(config-if-vlan5)#ip helper-address 192.168.10.1 dhcp
console(config-if-vlan5)#ip helper-address 192.168.20.1 dhcp
To relay both DHCP and DNS packets to 192.168.30.1, use the following
commands:
console#config
console(config)#interface vlan 5
console(config-if-vlan5)#ip helper-address 192.168.30.1 dhcp
console(config-if-vlan5)#ip helper-address 192.168.30.1 domain
This command takes precedence over an ip helper-address command given in
global configuration mode. With the following configuration, the relay agent
relays DHCP packets received on any interface other than VLAN 5 and VLAN
6 to 192.168.40.1, relays DHCP and DNS packets received on VLAN 5 to
192.168.40.2, relays SNMP traps (port 162) received on interface VLAN 6 to
192.168.23.1, and drops DHCP packets received on VLAN 6:
console#config
console(config)#ip helper-address 192.168.40.1 dhcp
console(config)#interface vlan 5
console(config-if-vlan5)#ip helper-address 192.168.40.2 dhcp
console(config-if-vlan5)#ip helper-address 192.168.40.2 domain
console(config-if-vlan5)#exit
console(config)#interface vlan 6
console(config-if-vlan6)#ip helper-address 192.168.23.1 162
console(config-if-vlan6)#ip helper-address discard dhcp
Layer 3 Routing Commands 1456
Command History
Description revised in 6.3.5 release.
ip helper enable
Use the ip helper enable command to enable relay of UDP packets. To
disable relay of all UDP packets, use the “no” form of this command.
Syntax
ip helper enable
no ip helper enable
Default Configuration
IP helper is enabled by default.
Command Mode
Global Configuration mode
User Guidelines
This command can be used to temporarily disable IP helper without deleting
all IP helper addresses.
This command replaces the bootpdhcprelay enable command, but affects not
only relay of DHCP packets, but also relay of any other protocols for which an
IP helper address has been configured.
When in Virtual Router Configuration mode, this command operates within
the context of the virtual router instance. When in Global Configuration
mode, the command operates on the global router instance.
Virtual Router Configuration mode is only available on the
N3000/N3100/N4000 switches.
Example
console(config)#ip helper enable
Layer 3 Routing Commands 1457
show ip helper-address
Use the show ip helper-address command to display the IP helper address
configuration.
Syntax
show ip helper-address [vrf vrf-name] [interface]
• interface — Optionally specify an interface to limit the output to the
configuration of a single interface. The interface is identified as vlan vlan-
id.
• vrf-name—The name of the VRF instance on which the command
operates. If no VRF parameter is given, information for the default
(global) router instance is shown.
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
The VRF identified in the parameter must have been previously created or an
error is returned.
The VRF parameter is only available on the N3000/N3100/N4000 series
switches.
The following output is shown:
Field Description
Interface The relay configuration is applied to packets that arrive on this
interface. This field is set to “any” for global IP helper entries.
UDP Port The relay configuration is applied to packets whose destination
UDP port is this port. Entries whose UDP port is identified as
“any” are applied to packets with the destination UDP ports listed
in Table 7-1.
Layer 3 Routing Commands 1458
Example
show ip helper-address
IP helper is enabled
Interface UDP Port Discard Hit Count Server Address
--------------- ----------- -------- ---------- ---------------
vlan 100 dhcp No 10 10.100.1.254
10.100.2.254
vlan 101 any Yes 2
any dhcp No 0 10.200.1.254
show ip dhcp relay
Use the show ip dhcp relay command in User Exec mode to display the
BootP/DHCP Relay information.
Syntax
show ip dhcp relay [vrf vrf-name] [interface vlan vlan-id]
• vrf-name—The name of the VRF instance on which the command
operates. If no VRF parameter is given, information for the default
(global) router instance is shown.
• vlan-id—A valid VLAN identifier.
Default Configuration
The command has no default configuration.
Command Mode
User Exec and Privileged Exec modes, Global Configuration mode and all
Configuration submodes
Discard If “Yes”, packets arriving on the given interface with the given
destination UDP port are discarded rather than relayed. Discard
entries are used to override global IP helper address entries which
otherwise might apply to a packet.
Hit Count The number of times the IP helper entry has been used to relay or
discard a packet.
Server Address The IPv4 address of the server to which packets are relayed.
Layer 3 Routing Commands 1459
User Guidelines
The VRF identified in the parameter must have been previously created or an
error is returned.
The VRF parameter is only available on the N3000/N3100/N4000 series
switches.
Example
The following example defines the Boot/DHCP Relay information.
console#show ip dhcp relay
Maximum Hop Count.............................. 4
Minimum Wait Time (Seconds).................... 0
Circuit Id Option Mode....................... Disable
Circuit Id Option Check Mode................. Enable
show ip helper statistics
Use the show ip helper statistics command to display the number of DHCP
and other UDP packets processed and relayed by the UDP relay agent.
Syntax
show ip helper statistics [vrf vrf-name]
• vrf-name—The name of the VRF instance on which the command
operates. If no VRF parameter is given, information for the default
(global) router instance is shown.
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
The VRF identified in the parameter must have been previously created or an
error is returned.
Layer 3 Routing Commands 1460
The VRF parameter is only available on the N3000/N3100/N4000 series
switches.
The following information is displayed.
Field Description
DHCP client
messages received
The number of valid messages received from a DHCP client.
The count is only incremented if IP helper is enabled globally,
the ingress routing interface is up, and the packet passes a
number of validity checks, such as having a TTL > 1 and having
valid source and destination IP addresses.
DHCP client
messages relayed
The number of DHCP client messages relayed to a server. If a
message is relayed to multiple servers, the count is incremented
once for each server.
DHCP server
messages received
The number of DHCP responses received from the DHCP
server. This count only includes messages that the DHCP server
unicasts to the relay agent for relay to the client.
DHCP server
messages relayed
The number of DHCP server messages relayed to a client.
UDP client
messages received
The number of valid UDP packets received. This count includes
DHCP messages and all other protocols relayed. Conditions are
similar to those for the first statistic in this table.
UDP client
messages relayed
The number of UDP packets relayed. This count includes
DHCP messages relayed as well as all other protocols. The count
is incremented for each server to which a packet is sent.
DHCP message
hop count
exceeded max
The number of DHCP client messages received whose hop
count is larger than the maximum allowed. The maximum hop
count is a configurable value listed in
show ip dhcp relay
. A log
message is written for each such failure. The DHCP relay agent
does not relay these packets.
DHCP message
with secs field
below min
The number of DHCP client messages received with secs fields
that are less than the minimum value. The minimum secs value
is a configurable value and is displayed in
show ip dhcp relay
. A
log message is written for each such failure. The DHCP relay
agent does not relay these packets.
Layer 3 Routing Commands 1461
Example
console#show ip helper statistics
DHCP client messages received.................. 8
DHCP client messages relayed................... 2
DHCP server messages received.................. 2
DHCP server messages relayed................... 2
UDP client messages received................... 8
UDP client messages relayed.................... 2
DHCP message hop count exceeded max............ 0
DHCP message with secs field below min......... 0
DHCP message with giaddr set to local address.. 0
Packets with expired TTL....................... 0
Packets that matched a discard entry........... 0
DHCP message
with giaddr set to
local address
The number of DHCP client messages received whose gateway
address, giaddr, is already set to an IP address configured on one
of the relay agent's own IP addresses. In this case, another device
is attempting to spoof the relay agent's address. The relay agent
does not relay such packets. A log message gives details for each
occurrence.
Packets with
expired TTL
The number of packets received with TTL of 0 or 1 that might
otherwise have been relayed.
Packets that
matched a discard
entry
The number of packets ignored by the relay agent because they
match a discard relay entry.
Layer 3 Routing Commands 1462
IP Routing Commands
Dell EMC Networking N1500/N2000/N2100-ON/N3000/N3100-
ON/N4000 Series Switches
The Dell Network N1500/N2000/N2100-ON series supports limited routing and
multicast capabilities. See the Users Configuration Guide section “Feature
Limitations and Platform Constants” for supported capabilities.
Dell EMC Networking routing provides the base Layer 3 support for Local
Area Network (LAN) and Wide Area Network (WAN) environments. The
Dell EMC Networking switches allows the network operator to build a
complete Layer 3+ configuration with advanced functionality. As the Dell
EMC Networking defaults to Layer 2 switching functionality, routing must be
explicitly enabled on the Dell EMC Networking to perform Layer 3
forwarding. For Dell EMC Networking switches, routing is only supported on
VLAN and Loopback interfaces for in-band ports. It is not possible to route
packets to or from the out-of-band interface.
Static Routes/ECMP Static Routes
The operator is able to configure static and default routes with multiple next
hops to any given destination. Permitting the additional routes creates several
options for the Dell EMC Networking switch operator.
1
The operator configures multiple next hops to a given destination,
intending for the router to load share across the next hops.
2
The operator configures multiple next hops to a given destination,
intending for the router to use the primary next hops and only use the
other next hops if the primary next hops are unusable.
The operator distinguishes static routes by specifying a route preference
value. A static route with a lower preference value is a more preferred static
route. Next hops with the same preference are grouped into a single ECMP
route. A less preferred static route is used if the more preferred static route is
unusable. (The link is down or the next hop IP address cannot be resolved to a
MAC address.)
In Dell EMC Networking, the operator deletes an individual next hop from a
static route or deletes an entire static route at once. The cost of a static route
is always 1 unless configured otherwise by the operator.
Layer 3 Routing Commands 1463
The addition of a preference option has a side benefit. The preference option
allows the operator to control the preference of individual static routes
relative to routes learned from other sources (such as OSPF). When routes
from different sources have the same preference, Dell EMC Networking
routing prefers a static route over a dynamic route.
Static Reject Routes
To administratively control the traffic destined to a particular network so that
it is not forwarded through the router, Dell EMC Networking enables
configuring a static reject route for that network on the router. Such traffic is
discarded and an ICMP destination unreachable message is sent back to the
source. Static reject routes are typically used to prevent routing loops.
Default Routes
Dell EMC Networking routing provides a preference option for the
configuration of default routes. A configured default route is treated exactly
like a static route. Therefore, default routes and static routes have the same
default preference (1).
Commands in this Section
This section explains the following commands:
encapsulation ip unnumbered show ip brief
ip icmp echo-reply ip unnumbered gratuitous-
arp accept
Maximum Next
Hops.............................. 16
ip icmp echo-reply ip unreachables show ip policy
ip icmp error-interval match ip address show ip protocols
ip netdirbcast match length show ip route
ip policy route-map match mac-list show ip route static
ip redirects route-map show ip route preferences
ip route set interface null0 show ip route summary
ip route default set ip default next-hop show ip traffic
Layer 3 Routing Commands 1464
encapsulation
Use the encapsulation command in Interface Configuration (VLAN) mode
to configure the Link Layer encapsulation type for the packet. Routed frames
are always Ethernet-encapsulated when a frame is routed to a VLAN.
Syntax
encapsulation {ethernet | snap}
•ethernet — Specifies Ethernet encapsulation.
•snap — Specifies SNAP encapsulation.
Default Configuration
Ethernet encapsulation is the default configuration.
Command Mode
Interface Configuration (VLAN) mode
User Guidelines
This command has no user guidelines.
Example
The following example applies SNAP encapsulation for VLAN 15.
console(config)#interface vlan 15
console(config-if-vlan15)#encapsulation snap
ip icmp echo-reply
Use the ip icmp echo-reply command to enable or disable the generation of
ICMP Echo Reply messages. Use the no form of this command to prevent the
generation of ICMP Echo Replies.
ip route distance set ip next-hop show ip vlan
ip routing set ip precedence show route-map
––
show routing heap summary
Layer 3 Routing Commands 1465
Syntax
ip icmp echo-reply
no ip icmp echo-reply
Default Configuration
ICMP Echo Reply messages are enabled by default.
Command Mode
Global Configuration mode, Virtual Router Configuration mode
User Guidelines
When in Virtual Router Configuration mode, this command operates within
the context of the virtual router instance. When in Global Configuration
mode, the command operates on the global router instance.
Virtual Router Configuration mode is only available on the
N3000/N3100/N4000 switches.
Example
console(config)#ip icmp echo-reply
ip icmp error-interval
Use the ip icmp error-interval command to limit the rate at which IPv4
ICMP error messages are sent. The rate limit is configured as a token bucket
with two configurable parameters: Burst-size and burst-interval.
To disable ICMP rate limiting, set burst-interval to zero. Use the no form of
this command to return burst-interval and burst-size to their default values.
Syntax
ip icmp error-interval burst-interval [ burst-size ]
no ip icmp error-interval
• burst-interval — How often the token bucket is initialized (Range: 0–
2147483647 milliseconds).
• burst-size — The maximum number of messages that can be sent during a
burst interval (Range: 1–200).
Layer 3 Routing Commands 1466
Default Configuration
Rate limiting is enabled by default.
The default burst-interval is 1000 milliseconds.
The default burst-size is 100 messages.
Command Mode
Global Configuration mode, Virtual Router Configuration mode
User Guidelines
There are no user guidelines for this command.
When in Virtual Router Configuration mode, this command operates within
the context of the virtual router instance. When in Global Configuration
mode, the command operates on the global router instance.
Virtual Router Configuration mode is only available on the
N3000/N3100/N4000 switches.
Example
console(config)#ip icmp error-interval 1000 20
ip netdirbcast
Use the ip netdirbcast command in Interface Configuration mode to enable
the forwarding of network-directed broadcasts. When enabled, network
directed broadcasts are forwarded. When disabled they are dropped. Use the
no form of the command to disable the broadcasts.
Syntax
ip netdirbcast
no ip netdirbcast
Default Configuration
Disabled is the default configuration.
Command Mode
Interface Configuration (VLAN) mode
Layer 3 Routing Commands 1467
User Guidelines
This command has no user guidelines.
Example
The following example defines the IP address and subnet mask for VLAN 15.
console(config)#interface vlan 15
console(config-if-vlan15)#ip netdirbcast
ip policy route-map
Use this command to apply a route map on an interface. Use the no form of
this command to delete a route map from the interface.
Syntax
ip policy route-map map-tag
no ip policy route-map map-tag
•
map-tag
—Name of the route map to use for policy based routing. It must
match a map tag specified by the route-map command.
Default Configuration
No route maps are configured by default.
Command Mode
Interface Configuration (VLAN) mode
User Guidelines
Policy-based routing must be configured on the VLAN interface that receives
the packets, not on the VLAN interface from which the packets are sent.
Packets matching a deny route map are routed using the routing table. Policy
maps with no set clause are ignored.
When a route-map applied on an interface is changed, i.e. new statements are
added to route-map or match or set terms are added/removed from the route-
map statement, or if any route-map that is applied on an interface is removed,
Layer 3 Routing Commands 1468
the entire sequence of route-maps needs to be removed from the interface
and added back again in order to have changed route-map configuration be
effective.
If the administrator removes match or set terms in route-map intermittently,
the counters corresponding to the removed match term are reset to zero.
A route-map statement must contain eligible match/set conditions for policy
based routing in order to be applied to hardware
Valid match conditions are:
match ip address <acl>, match mac-list, match length
Valid set conditions are:
set ip next-hop, set ip default next-hop, set ip precedence
A route-map statement must contain at least one of the match and one of the
set conditions specified above in order it to be eligible to be applied to
hardware. If not, the route-map is not applied to hardware.
An ACL referenced in a route-map may not be edited. Instead, create a new
ACL with the desired changes and update the route-map with the edited
ACL.
Route-maps and DiffServ cannot operate on the same interface due to
allocation of conflicting resources. An error is thrown to user if when
configuring a route-map on an interface on which DiffServ has been
previously configured.
When a route map is configured on a VLAN interface and a DiffServ policy is
applied on any individual member port of the same VLAN interface, the port
policy (DiffServ) takes priority over the VLAN (route map) policy.
Example
Considering equal-access as a route-map configured earlier, the following
sequence is an example of how a route map is applied to a VLAN.
console(config)#interface vlan 10
console(config-if-vlan10)#ip policy route-map equal-access
Layer 3 Routing Commands 1469
ip redirects
Use the ip redirects command to enable the generation of ICMP Redirect
messages. Use the no form of this command to prevent the sending of ICMP
Redirect Messages. In global configuration mode, this command affects all
interfaces. In interface configuration mode, it only affects that interface.
Syntax
ip redirects
no ip redirects
Default Configuration
ICMP Redirect messages are enabled by default.
Command Mode
Global Configuration mode, Virtual Router Configuration mode, Interface
Configuration (VLAN) mode
User Guidelines
When in virtual router configuration mode, this command operates within
the context of the virtual router instance. When in global config mode, the
command operates on the global router instance.
Virtual Router Configuration mode is only available on the
N3000/N3100/N4000 switches.
Example
console(config-if-vlan10)#ip redirects
ip route
Use the ip route command in Global Configuration mode to configure a
static route. Use the no form of the command to delete the static route.
Syntax
ip route [vrf vrf-name] networkaddr {subnetmask | prefix-length} {Null 0 |
nexthopip | vlan vlan-id [nexthopip]} [preference] [name text]
Layer 3 Routing Commands 1470
no ip route [vrf vrf-name] networkaddr {subnetmask | prefix-length} {Null 0
| nexthopip | vlan vlan-id [nexthopip]}
• vrf-name—The name of the VRF if which the route is to be installed. If no
vrf is specified, the route is created in the global routing table.
•
networkaddr
— IP address of destination interface.
• subnetmask—A 32 bit dotted-quad subnet mask. Enabled bits in the mask
indicate the corresponding bits of the network address are significant.
Enabled bits in the mask must be contiguous.
• prefix-length—A forward slash followed by an integer number ranging
from 1-32 (e.g., /24). The integer number indicates the number of
significant bits in the address beginning with the leftmost (most
significant) bit.
• nexthopip—The next-hop IPv4 address is specified in the argument
nexthopip. Packets matching the destination route are forwarded to the
next hop IP address.
• vlan-id—A configured VLAN routing interface identifier. If a VLAN
routing interface is specified, it imports the associated subnet into the
default routing instance from the VRF associated with the VLAN.
•
Null0
—The optional Null0 keyword indicates that packets matching the
route are dropped. This capability allows the administrator to purposefully
implement a black hole for selected traffic.
• text—A textual name for the route as configured by the administrator.
May be up to 32 characters in length.
Default Configuration
Default value of preference is 1. The router will prefer a route with a smaller
administrative distance that a route with a higher administrative distance.
Command Mode
Global Configuration mode
User Guidelines
The IP route command sets a value for the route preference. Among routes to
the same destination, the route with the lowest preference value is the route
entered into the forwarding database. Specifying the preference of a static
Layer 3 Routing Commands 1471
route controls whether a static route is more or less preferred than routes from
dynamic routing protocols. The preference also controls whether a static
route is more or less preferred than other static routes to the same
destination.
The ip route command optionally configures a route in the selected VRF. The
IP route command can set a value for the route preference. Among routes to
the same destination, the route with the lowest preference value is the route
entered into the forwarding database.
Specifying the preference of a static route controls whether a static route is
more or less preferred than routes from dynamic routing protocols. The
preference also controls whether a static route is more or less preferred than
other static routes to the same destination.
This command creates a static route in a specified virtual router instance
referred to by name ‘vrf-name’ by taking an optional vrf argument. If the next-
hop interface argument is given without specifying a nexthopip, it is added as
a static interface route. If the next-hop interface is in the default routing
domain, they routes are identified as leaked routes in the virtual router table.
The VRF identified in the parameter must have been previously created or an
error is returned.
Route leaking in VRFs is only supported to or from the default routing
instance and only for static routes. Configuring a leaked route from a non-
default VRF to another non-default VRF results in undefined behavior.
Only IPv4 routes are supported with the vrf parameter.
Adding a static route with a Null 0 next hop specified configures a routing
black hole (a static reject route). Packets destined to that prefix are dropped.
If an interface for the next hop is specified, it may be a numbered or
unnumbered interface.
A static route entry is only installed if the next hop IP address matches one of
the local subnets (i.e., the next hop is reachable). In case of unnumbered
interfaces, static routes entries created for an unnumbered-peer do not match
with any of the local subnets. By specifying the interface explicitly in the
static route command along with the next hop IP address, the switch can
correctly install static route entries for unnumbered-peers. It is also possible
to configure ‘unnumbered interface routes’ where the next hop IP address is
not specified and only the unnumbered nexthop interface is configured.
Layer 3 Routing Commands 1472
Examples
Route Leaking Example 1
The following shows the configuration for VRF red-1 configured in VLAN 10.
A static global route for the 172.16.0.0 with a next hop of 172.16.0.2 is
injected into VRF red-1.
configure
vlan 10
exit
ip vrf red-1
ip routing
exit
ip routing
ip route vrf red-1 172.16.0.0 255.240.0.0 172.16.0.2
interface vlan 1
ip address 172.16.0.1 255.240.0.0
exit
interface vlan 10
ip vrf forwarding red-1
ip address 192.168.0.1 255.255.255.0
ip ospf area 0
exit
router ospf vrf “red-1”
router-id 1.1.1.1
network 192.168.0.0 0.0.0.255 area 0
exit
!
interface Gi1/0/1
switchport mode trunk
switchport access vlan 10
exit
!
interface loopback 0
ip vrf forwarding red-1
ip address 1.1.1.1 255.255.255.255
exit
Route Leaking Example 2
Subnetwork 9.0.0.0/24 is a directly connected subnetwork on VLAN 10 in the
default routing table.
Subnet 8.0.0.0/24 is a directly connected subnetwork in VLAN 30 in virtual
router Red.
Subnet 66.6.6.x is reachable via VLAN 30 in vrf Red.
Layer 3 Routing Commands 1473
The first ip route command below leaks the 66.6.6.x subnet from vrf Red into
the default routing table.
The second ip route command configures a gateway for the default routing
table.
The next ip route commands leak the 9.0.0.x route from the default route
table into the virtual router Red.
The last ip route command configures the 66.6.6.x subnet as reachable via
next hop 8.0.0.2 in Vrf Red.
configure
vlan 10,30
exit
ip vrf Red
ip routing
exit
ip routing
interface vlan 10
ip address 9.0.0.1 255.255.255.0
exit
interface vlan 30
ip vrf forwarding Red
ip address 8.0.0.1 255.255.255.0
exit
ip route 66.6.6.0 255.255.255.0 Vl30
ip route 0.0.0.0 0.0.0.0 9.0.0.2 253
ip route vrf Red 9.0.0.0 255.255.255.0 Vl10
ip route vrf Red 66.6.6.0 255.255.255.0 8.0.0.2
!
interface Gi1/0/1
switchport access vlan 10
exit
!
interface Gi1/0/3
switchport access vlan 30
exit
console(config)#show ip route
Route Codes: R - RIP Derived, O - OSPF Derived, C - Connected, S - Static
B - BGP Derived, E - Externally Derived, IA - OSPF Inter Area
E1 - OSPF External Type 1, E2 - OSPF External Type 2
N1 - OSPF NSSA External Type 1, N2 - OSPF NSSA External Type 2
S U - Unnumbered Peer, L - Leaked Route
* Indicates the best (lowest metric) route for the subnet.
Default Gateway is 9.0.0.2
Layer 3 Routing Commands 1474
S *0.0.0.0/0 [253/0] via 9.0.0.2, Vl10
C *9.0.0.0/24 [0/1] directly connected, Vl10
L *66.6.6.0/24 [1/0] via 0.0.0.0, Vl30
console(config)#show ip route vrf Red
Route Codes: R - RIP Derived, O - OSPF Derived, C - Connected, S - Static
B - BGP Derived, E - Externally Derived, IA - OSPF Inter Area
E1 - OSPF External Type 1, E2 - OSPF External Type 2
N1 - OSPF NSSA External Type 1, N2 - OSPF NSSA External Type 2
S U - Unnumbered Peer, L - Leaked Route
* Indicates the best (lowest metric) route for the subnet.
No default gateway is configured.
C *8.0.0.0/24 [0/1] directly connected, Vl30
L *9.0.0.0/24 [1/0] via 0.0.0.0, Vl10
S *66.6.6.0/24 [1/0] via 8.0.0.2, Vl30
ip route default
Use the ip route default command in Global Configuration mode to
configure the next hop address of the default route. Use the no form of the
command to delete the default route.
Use of the optional VRF parameter executes the command within the
context of the VRF specific routing table.
Syntax
ip route default [vrf vrf-name] next-hop-ip [preference]
no ip route default next-hop-ip [preference]
• vrf-name—The name of the VRF associated with the routing table context
used by the command. If no vrf is specified, the global routing table
context is used.
• next-hop-ip — IP address of the next hop router.
• preference — Specifies the preference value, a.k.a administrative distance,
of an individual static route. (Range: 1-255)
Default Configuration
Default value of preference is 1.
Layer 3 Routing Commands 1475
Command Mode
Global Configuration mode
User Guidelines
For routed management traffic:
1
Router entries are checked for applicable destinations.
2
The globally assigned default-gateway is consulted.
If DHCP is enabled on multiple in-band interfaces and the system learns a
different default gateway on each, the system retains the first default gateway
it learns and ignores any others. If the first default gateway is lost, the system
does not revert to an alternate default gateway until it renews its IP address.
Using this command, the administrator may manually configure a single,
global default gateway. The switch installs a default route for a configured
default gateway with a preference of 253, making it more preferred than the
default gateways learned via DHCP, but less preferred than a static default
route. The preference of these routes is not configurable.
The switch installs a default route for the default gateway whether or not
routing is globally enabled. When the user displays the routing table (e.g.
show ip route
), the display identifies the default gateway, if one is known.
Use the show ip route static all command to display the configured static
routes and preferences.
The VRF identified in the parameter must have been previously created or an
error is returned.
Only IPv4 addresses are supported with the vrf parameter.
This command is only available on the N3000/N3100/N4000 switches.
Example
The following example identifies the next-hop-ip and a preference value of
200.
console(config)#ip route default 192.168.10.1.200
Layer 3 Routing Commands 1476
ip route distance
Use the ip route distance command in Global Configuration mode to set the
default distance (preference) for static routes. Lower route preference values
are preferred when determining the best route. The ip route and ip route
default commands allow optional setting of the distance of an individual
static route. The default distance is used when no distance is specified in
these commands. Changing the default distance does not update the
distance of existing static routes, even if they were assigned the original
default distance. The new default distance are applied to static routes created
after invoking the ip route distance command.
Use of the optional vrf parameter executes the command within the context
of the VRF specific routing table.
Syntax
ip route distance [vrf vrf-name]integer
no ip route distance integer
• vrf-name—The name of the VRF associated with the routing table context
used by the command. If no vrf is specified, the global routing table
context is used.
• integer — Specifies the distance (preference) of an individual static route.
(Range 1-255)
Default Configuration
Default value of distance is 1.
Command Mode
Global Configuration mode
User Guidelines
Lower route distance values are preferred when determining the best route.
The VRF identified in the parameter must have been previously created or an
error is returned.
Only IPv4 addresses are supported with the vrf parameter.
This command is only available on the N3000/N3100/N4000 switches.
Layer 3 Routing Commands 1477
Example
The following example sets the default route metric to 80.
console(config)#ip route distance 80
ip routing
Use the ip routing command in Global Configuration mode to globally
enable IPv4 routing on the router. To disable IPv4 routing globally, use the no
form of the command.
Syntax
ip routing
no ip routing
Default Configuration
Disabled is the default configuration.
Command Mode
Global Configuration mode, Virtual Router Configuration mode
User Guidelines
Use the
show ip brief
command to determine if routing is enabled or disabled.
When in virtual router configuration mode, this command operates within
the context of the virtual router instance. When in global config mode, the
command operates on the global router instance.
Enable IPv4 routing on a VLAN by entering interface vlan mode for the
desired VLAN and assigning an IP address to the VLAN. Use the no interface
vlan command to disable routing on an interface. Ensure that statically
assigned addresses do not conflict with any configured subnets. Subnet
overlap is not allowed.
Virtual Router Configuration mode is only available on the
N3000/N3100/N4000 switches.
Example
The following example enables IPv4 routing for VLAN 15
Layer 3 Routing Commands 1478
console(config)#vlan 15
console(config-vlan15)#interface vlan 15
console(config-if-vlan15)#ip address 10.0.3.2 /8
console(config-if-vlan15)#exit
console(config)#ip routing
ip unnumbered
This command is used to identify an interface as an unnumbered interface
and specify the numbered interface providing the borrowed address. The
numbered interface must be a loopback interface. To stop borrowing an
address, use the no form of the command.
Syntax
ip unnumbered loopback loopback-id
no ip unnumbered
• loopback-id—The loopback identifier (Range 0–7)
Default Configuration
The are no ip unnumbered interfaces by default.
Command Mode
Interface (VLAN) Configuration
User Guidelines
IP unnumbered interfaces are supported in the default VRF only.
The interface should be configured as able to borrow an IP address, i.e. a
routing interface with no IP address.
The loopback interface is the numbered interface providing the borrowed
address. The providing loopback interface cannot be unnumbered. The
loopback interface is identified by its loopback interface number.
It is a misconfiguration for two routers, R1 and R2, to be connected by a link
where R1’s interface is unnumbered and R2’s interface is numbered. If a
static route is configured on R2 using R1’s IP address as next hop, the static
route will never be installed in the routing table because the next hop is not
in a local subnet. If a static route is configured on R1 using R2’s IP address as
Layer 3 Routing Commands 1479
next hop, the static route will be installed in the routing table. R1 will ARP for
the next hop address. R2 will ignore the ARP Request because the source IP
address is not in a local subnet.
It is a misconfiguration to enable OSPF on both ends of an unnumbered
interface without setting the OSPF network type to point-to-point. Each
router will reject its neighbor’s HELLOs because the source IP address is not
in a local subnet. Adjacencies never progress beyond the INIT state.
If three or more routers are connected to the same physical Ethernet and all
are configured to treat the Ethernet as a point-to-point link, adjacencies may
not form. The OSPF database description packets intended for a specific
neighbor will be processed by all neighbors, causing errors that reset
adjacencies.
Command History
Introduced in version 6.2.0.1 firmware.
Example
console(config-if-vlan1)#ip unnumbered 10.130.14.55
ip unnumbered gratuitous-arp accept
This command enables installation of a static interface route to the
unnumbered peer upon receiving a gratuitous ARP.
Syntax
ip unnumbered gratuitous-arp accept
no ip unnumbered gratuitous-arp accept
Default Configuration
The default mode is accept.
Command Mode
Interface (VLAN) Configuration
User Guidelines
IP unnumbered interfaces are supported in the default VRF only.
Layer 3 Routing Commands 1480
The interface should be configured as able to borrow an IP address, i.e. a
routing interface with no IP address.
Normally, the static ARP entry is only installed if the IP address matches one
of the local subnets. In case of unnumbered interfaces, static ARP entries
created for the unnumbered-peer do not match any of the local subnets. By
specifying the interface explicitly in the static ARP command, static ARP
entries for unnumbered-peers can be installed in the ARP table.
Command History
Introduced in version 6.2.0.1 firmware.
Example
console(config-if-vlan1)#ip unnumbered gratuitous-arp accept
ip unreachables
Use the ip unreachables command to enable the generation of ICMP
Destination Unreachable messages. Use the no form of this command to
prevent the generation of ICMP Destination Unreachable messages.
Syntax
ip unreachables
no ip unreachables
Default Configuration
ICMP Destination Unreachable messages are enabled.
Command Mode
Interface Configuration (VLAN) mode
User Guidelines
There are no user guidelines for this command.
Example
console(config-if-vlan10)#ip unreachables
Layer 3 Routing Commands 1481
match ip address
Use this command to specify IP address match criteria for a route map. Use
the no form of this command to delete a match statement from a route map.
Syntax
match ip address access-list-name [access-list-name]
no match ip address [access-list-name]
•
access-list-name
—
The access-list name that identifies the named IP ACLs. The
name can be up to 31 characters in length.
Default Configuration
There is no default configuration for this command.
Command Mode
Route Map Configuration mode
User Guidelines
The IP ACL must be configured before it can be linked to a route-map.
Specifying an unconfigured IP ACL causes an error. Actions present in an IP
ACL configuration are applied along with other actions present in route-map.
When IP ACL referenced by a route-map is removed or rules are added or
deleted from that ACL, the configuration is rejected.
Actions in the IP ACL configuration are applied with other actions present in
the route-map. If an IP ACL referenced by a route-map is removed or rules
are added or deleted from the ACL, the configuration is rejected.
If a list of IP access lists is specified in this command and a packet matches at
least one of these access list match criteria, the corresponding set of actions in
the route map are applied to the packet. Duplicate IP access list names are
ignored.
It is strongly recommended that access lists used in a route map not be re-
used for normal access list processing. This is because:
• ACLs inherit the priority of the route map. This overrides the priority of
the including access group.
Layer 3 Routing Commands 1482
• Route maps do not have a implicit deny all at the end of the list. Instead,
non-matching packets for a permit route map use the routing table.
Example
The example below creates two access lists (R1 and R2) and two route-maps
with IP address match clauses and that associate the route-map to an
interface.
In the example, the ip policy route-map equal-access command is applied to
interface VLAN 11. All packets ingressing VLAN 11 are policy-routed.
Route map sequence 10 in route map equal-access is used to match all
packets sourced from any host in subnet 10.1.0.0. If there is a match, and if
the router has no explicit route for the packet’s destination, it is sent to next-
hop address 192.168.6.6.
Route map sequence 20 in route map equal-access is used to match all
packets sourced from any host in subnet 10.2.0.0. If there is a match, and if
the router has no explicit route for the packet’s destination, it is sent to next-
hop address 172.16.7.7.
All other packets are forwarded as per normal L3 destination-based routing.
console(config-if-vlan3)#ip policy route-map equal-access
console(config)#ip access-list R1
console(config-ip-acl)#permit ip 10.1.0.0 0.0.255.255 any
console(config-ip-acl)#exit
console(config)#ip access-list R2
console(config-ip-acl)#permit ip 10.2.0.0 0.0.255.255 any
console(config-ip-acl)#exit
console(config)#route-map equal-access permit 10
console(config-route-map)#match ip address R1
console(config-route-map)#set ip default next-hop 192.168.6.6
console(config-route-map)#exit
console(config)#route-map equal-access permit 20
console(config-route-map)#match ip address R2
console(config-route-map)#set ip default next-hop 172.16.7.7
console(config-route-map)#exit
console(config)#interface vlan 11
console(config-if-vlan11)#ip address 10.1.1.1 255.255.255.0
console(config-if-vlan11)#ip policy route-map equal-access
console(config)#interface vlan 12
console(config-if-vlan12)#ip address 10.1.1.1 255.255.255.0
console(config-if-vlan12)#ip policy route-map equal-access
Layer 3 Routing Commands 1483
console(config)#interface vlan 13
console(config-if-vlan13)#ip address 192.168.6.5 255.255.255.0
console(config)#interface vlan 16
console(config-if-vlan16)#ip address 172.16.7.6 255.255.255.0
This example illustrates the scenario where IP ACL referenced by a route-map
is removed or rules are added or deleted from that ACL, this is how
configuration is rejected:
console#show ip access-lists
Current number of ACLs: 9 Maximum number of ACLs: 100
ACL ID/Name Rules Interface(s) Direction Count
------------------------------- ----- ----------- ---------- ----------
1 1
2 1
3 1
4 1
5 1
madan 1
console#show mac access-lists
Current number of all ACLs: 9 Maximum number of all ACLs: 100
MAC ACL Name Rules Interface(s) Direction Count
------------------------------- ----- ------------ --------- ----------
madan 1
mohan 1
goud 1
console#configure
console(config)#route-map madan
console(route-map)#match ip address 1 2 3 4 5 madan
console(route-map)#match mac-list madan mohan goud
console(route-map)#exit
console(config)#exit
console #show route-map
route-map madan permit 10
Match clauses:
ip address (access-lists) : 1 2 3 4 5 madan
mac-list (access-lists) : madan mohan goud
Set clauses:
console(config)#access-list 2 permit every
Layer 3 Routing Commands 1484
Request denied. Another application using this ACL restricts the number of
rules allowed.
console(config)#ip access-list madan
console(config-ipv4-acl)#permit udp any any
Request denied. Another application using this ACL restricts the number of
rules allowed.
match length
Use this command to configure packet length matching criteria for a route
map. Use the no form of this command to delete a match statement from a
route map.
Syntax
match length min max
no match length
•
min
—
Specifies the minimum Layer 3 length for the packet, inclusive, allowing
for a match.
•
max
—
Specifies the maximum Layer 3 length for the packet, inclusive, allowing
for a match.
Default Configuration
There is no default configuration for this command.
Command Mode
Route Map mode
User Guidelines
The match criteria specified by this command acts on the packet length as it
appears in the IP header and is not necessarily correlated with the frame
length as it appears on the wire.
Example
console(config-route-map)#match length 64 1500
Layer 3 Routing Commands 1485
match mac-list
Use this command to configure MAC ACL match criteria for a route map.
Use the no form of this command to delete the match statement from a route
map.
Syntax
match mac-list mac-list-name [mac-list-name]
no match mac-list [mac-list-name]
•
mac-list-name
—The MAC ACL name that identifies the MAC ACLs. The
name can be between 0 and 31 characters.
Default Configuration
There is no default configuration for this command.
Command Mode
Route Map mode
User Guidelines
The MAC ACL must be configured before it is linked to a route map. Trying
to link to an unconfigured MAC ACL causes an error.
Actions in the MAC ACL configuration are applied with other actions
configured in the route map. When a MAC ACL referenced by a route map is
removed, the route map rule is also removed.
Example
console(config-route-map)#match mac-list mac-test
route-map
Use this command to create a policy based route map. Use the no form of this
command to delete a route map or one of its statements.
Syntax
route-map map-tag [permit | deny] [sequence-number]
no route-map map-tag [permit | deny] [sequence-number]
Layer 3 Routing Commands 1486
•
map-tag
—
Text name of the route map. Route maps with the same name
are grouped together in order of their sequence numbers. A route map
name may be up to 32 characters long and comprised of any printable
character except a question mark. Enclose the map-tag in quotes to
embed blanks in the name.
•
permit
—
(Optional) Permit routes that match all of the match
conditions in the route map.
•
deny
—
(Optional) Deny routes that match all of the match conditions in
the route map. Packets matching deny routes use the routing table.
•
sequence-number
—
(Optional) An integer used to order the set of route
maps. Route maps are ordered from lowest to greatest sequence number,
with lower sequence numbers being considered first. If no sequence
number is specified, the system assigns a value ten greater than the last
statement in the route map. The range is 0 to 65,535.
Default Configuration
No route maps are configured by default. If no permit or deny tag is specified,
permit is the default.
Command Mode
Global Configuration mode
User Guidelines
Apply an ACL rule on the VLAN interface to perform policy based routing
based on the VLAN ID as a matching criteria for incoming packets. Packets
matching a deny rule or a deny route-map are routed using the routing table.
There is no implicit deny all at the end of a route map. Packets not matching
any clause are routed using the routing table.
Route maps with no set clause are ignored. One use of a route map is to limit
the redistribution of routes to a specified range of route prefixes. The
redistribution command specifies a route map which refers to a prefix list.
The prefix list identifies the prefixes that may be redistributed.
Layer 3 Routing Commands 1487
Route maps are ordered from lowest to greatest sequence number, with lower
sequence numbers being considered first. If no sequence number is specified,
the system assigns a value ten greater than the last statement in the route
map. The range is 0 to 65,535.
One use of a route map is to limit the redistribution of routes to a specified
range of route prefixes. The redistribution command specifies a route map
which refers to a prefix list. The prefix list identifies the prefixes that may be
redistributed.
Examples
The following example creates (or edits) the route map equal-access as the
first route map in the system for allowing matching packets into the system.
Route-map mode is also entered.
console(config)#route-map equal-access permit 0
In the following example, BGP is configured to redistribute all prefixes within
172.20.0.0 and reject all others.
console(config)# ip prefix-list redist-pl permit 172.20.0.0/16 le 32
console(config)# route-map redist-rm permit
console(config-route-map)# match ip address prefix-list redist-pl
console(config-route-map)# exit
console(config) router bgp 1
console(Config-router) redistribute ospf route-map redist-rm
set interface null0
Use this command to drop a packet instead of reverting to normal routing for
packets that do not match the route map criteria. This command should be
configured as the last entry in the route-map as no further set clauses will
operate on a dropped packet. Use the no form of this command to remove the
set clause from a route map.
Syntax
set interface null0
no set interface null0
•
null0
—
Specifies the null0 interface used to drop packets.
Layer 3 Routing Commands 1488
Default Configuration
There is no default configuration for this command.
Command Mode
Route Map mode
User Guidelines
A route-map statement used for policy based routing is configured as permit
or deny. If the statement is marked as deny, traditional destination-based
routing is performed on the packet meeting the match criteria. If the
statement is marked as permit and the packet meets all the match criteria,
the set clauses in the route-map statement are applied. If no match is found
in the route-map, the packet is forwarded using the routing decision resulting
from traditional destination-based routing. If the network administrator does
not want to revert to normal forwarding but instead want to drop packets that
do not match the specified criteria, a set clause routing the packets to
interface null0 may be configured as the last (highest numbered) route-map.
Example
console(config-route-map)#set interface null0
set ip default next-hop
Use this route map clause to override default entries in the routing table.
Packets that can routed by an active explicit route in the routing table are not
affected by this clause. Use this command to set a list of default next-hop IP
addresses to be used if no explicit route for the packet’s destination address
appears in the routing table. If more than one IP address is specified, the
reachable address in the list is used. Use the no form of this command to
remove a set command from a route map.
Syntax
set ip default next-hop ip-address [ip-address]
no set ip default next-hop ip-address [ip-address]
ip-address
—
The IP address of the next hop to which packets are routed. It must be
the address of an adjacent router.
• ip-address—A maximum of 16 next-hop IP addresses can be specified.
Layer 3 Routing Commands 1489
Default Configuration
There is no default configuration for this command.
Command Mode
Route Map mode
User Guidelines
A packet is routed to the next hop specified by this command only if there is
no active explicit route for the packet’s destination address in the routing
table. A default route in the routing table is not considered an explicit route
for an unknown destination address.
Only one of set ip next-hop, set ip default next-hop, or set interface null0
may be specified in a route map.
Example
console(config-route-map)#set ip default next-hop 192.0.2.2
set ip next-hop
Use this command to specify an adjacent next-hop router in the path toward
the destination to which the packets should be forwarded. If more than one
IP address is specified, the first IP address associated with a link up interface
is used to route the packets. Use the no form of this command to remove a set
command from a route map.
Syntax
set ip next-hop ip-address [ip-address]
no set ip next-hop ip-address [ip-address]
• ip-address—The IP address of the next hop to which packets are routed. It
must be the address of an adjacent router (i.e., the next hop must be in a
subnet configured on the local router). A maximum of 16 next-hop IP
addresses can be specified.
Default Configuration
There is no default configuration for this command.
Layer 3 Routing Commands 1490
Command Mode
Route Map mode
User Guidelines
Use this route map clause to override active routes in the routing table. This
command affects all matching packet types and is used if an active route for
the next hop exists in the routing table. The next hop IP address must be
associated with a directly connected subnet on the router. If no resolvable
active interface is present in the route table, the packet is routed using the
default routing table.
Only one of set ip next-hop, set ip default next-hop, or set interface null0
may be specified in a route map.
Example
console(config-route-map)#set ip next-hop 192.0.2.1
set ip precedence
Use this command to set the three IP precedence bits in the IP packet header
on ingress. Values 0 through 7 are supported. This precedence value may be
used by other QoS services in the switch such as weighted fair queuing
(WFQ) or weighted random early detection (WRED). Use the no form of
this command to remove a set clause from a route map.
Syntax
set ip precedence 0-7
no set ip precedence
•
0
—
Sets the routine precedence.
•
1
—
Sets the priority precedence.
•
2
—
Sets the immediate precedence.
•
3
—
Sets the Flash precedence.
•
4
—
Sets the Flash override precedence.
•
5
—
Sets the critical precedence.
•
6
—
Sets the internetwork control precedence.
Layer 3 Routing Commands 1491
•
7
—
Sets the network control precedence.
Default Configuration
There is no default configuration for this command.
Command Mode
Route Map mode
User Guidelines
The set ip precedence clause may be combined with set ip next-hop or set ip
default next-hop clause in a route map.
Example
console(config-route-map)#set ip precedence 5
show ip brief
Use the show ip brief command to display all the summary information of
the IP.
Syntax
show ip brief [vrf vrf-name]
• vrf-name—The name of the VRF instance on which the command
operates. If no VRF parameter is given, information for the default
(global) router instance is shown.
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
The VRF identified in the parameter must have been previously created or an
error is returned.
Layer 3 Routing Commands 1492
The VRF parameter is only available on the N3000/N3100/N4000 series
switches.
Example
The following example displays IP summary information.
console#show ip brief
Default Time to Live........................... 64
Routing Mode................................... Enabled
ICMP Rate Limit Interval....................... 1000 msec
ICMP Rate Limit Burst Size..................... 100 messages
ICMP Echo Replies.............................. Enabled
ICMP Redirect Mode............................. Enabled
Maximum Next Hops.............................. 16
show ip interface
Use the show ip interface command to display information about one or
more IP interfaces. The output shows how each IP address was assigned.
Syntax
show ip interface [vrf vrf-name] [type number]
• vrf-name—The name of the VRF instance on which the command
operates. If no VRF parameter is given, information for the default
(global) router instance is shown.
• type—Interface type (loopback, out-of-band, or VLAN)
• number—Interface number. Valid only for loopback and VLAN types.
Default Configuration
This command has no default configuration.
Command Mode
User Exec, Privileged Exec mode, Global Configuration mode and all
Configuration submodes
User Guidelines
The VRF identified in the parameter must have been previously created or an
error is returned.
Layer 3 Routing Commands 1493
The VRF parameter is only available on the N3000/N3100/N4000 series
switches.
The Method field contains one of the following values.
Example
console#show ip interface
Default Gateway................................ 0.0.0.0
L3 MAC Address................................. 001E.C9DE.B546
Routing Interfaces:
Interface State IP Address IP Mask Method
---------- ----- --------------- --------------- -------
Vl1 Down 0.0.0.0 0.0.0.0 None
Vl2 Up unnumbered
-->loopback 2 N/A
console#
console#show ip interface vlan 1
Routing interface status....................... Up
Unnumbered - numbered interface................ Loopback 1
Unnumbered - gratuitous ARP accept............. Enable
Method......................................... None
Routing Mode................................... Enable
Administrative Mode............................ Enable
Forward Net Directed Broadcasts................ Disable
Proxy ARP...................................... Enable
Local Proxy ARP................................ Disable
Active State................................... Inactive
MAC Address.................................... 001E.C9DE.B546
Encapsulation Type............................. Ethernet
IP MTU......................................... 1500
Bandwidth...................................... 10000 Kbps
Destination Unreachables....................... Enabled
ICMP Redirects................................. Enabled
Field Description
DHCP The address is leased from a DHCP server.
Manual The address is manually configured.
Layer 3 Routing Commands 1494
show ip policy
Use the show ip policy command to display the route maps used for policy
based routing on the router interfaces.
Syntax
show ip policy map-name
• map-name—The name of a specific route map.
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
This command has no user guidelines.
Example
console#show ip policy
Interface Route map
Vl10 pbr-map
show ip protocols
Use the show ip protocols command to display a summary of the
configuration and status for each unicast routing protocol. The command
lists all supported routing protocols, regardless of whether they are currently
configured or enabled.
Syntax
show ip protocols [vrf vrf-name]
• vrf-name—The name of the VRF instance on which the command
operates. If no VRF parameter is given, information for the default
(global) router instance is shown.
Layer 3 Routing Commands 1495
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
The VRF identified in the parameter must have been previously created or an
error is returned.
The VRF parameter is only available on the N3000/N3100/N4000 series
switches.
The command displays the following information.
Parameter Description
BGP Section:
Routing Protocol BGP.
Router ID The router ID configured for BGP.
Local AS Number The AS number that the local router is in.
BGP Admin Mode Whether BGP is globally enabled or disabled.
Maximum Paths The maximum number of next hops in an internal or external
BGP route.
Distance The default administrative distance (or route preference) for
external, internal, and locally-originated BGP routes. The table
that follows lists ranges of neighbor addresses that have been
configured to override the default distance with a neighbor-
specific distance. If a neighbor’s address falls within one of
these ranges, routes from that neighbor are assigned the
configured distance. If a prefix list is configured, then the
distance is only assigned to prefixes from the neighbor that are
permitted by the prefix list.
Prefix List In The global prefix list used to filter inbound routes from all
neighbors.
Layer 3 Routing Commands 1496
Prefix List Out The global prefix list used to filter outbound routes to all
neighbors.
Neighbors A list of configured neighbors and the inbound and outbound
policies configured for each.
OSPFv2 Section
Routing Protocol OSPFv2.
Router ID The router ID configured for OSPFv2.
OSPF Admin Mode Whether OSPF is enabled or disabled globally.
Maximum Paths The maximum number of next hops in an OSPF route.
Routing for
Networks
The address ranges configured with an OSPF network
command.
Distance The administrative distance (or “route preference”) for intra-
area, inter-area, and external routes.
Default Route
Advertise
Whether OSPF is configured to originate a default route.
Always Whether default advertisement depends on having a default
route in the common routing table.
Metric The metric configured to be advertised with the default route.
Metric Type The metric type to advertise for redistributed routes of this
type.
Redist Source The type of routes OSPF is redistributing.
Metric The metric to advertise for redistributed routes of this type.
Metric Type The metric type to advertise for redistributed routes of this
type.
Subnets Whether OSPF redistributes subnets of classful addresses, or
only classful prefixes.
Dist List A distribute list used to filter routes of this type. Only routes
that pass the distribute list are redistributed.
Number of Active
Areas
The number of OSPF areas with at least one interface running
on this router. Also broken down by area type.
Parameter Description
Layer 3 Routing Commands 1497
Example
The following shows example CLI display output for the command.
console# show ip protocols
Routing Protocol.......................... BGP
Router ID................................. 6.6.6.6
Local AS Number........................... 65001
BGP Admin Mode............................ Enable
Maximum Paths............................. Internal 32, External 32
Distance.................................. Ext 20 Int 200 Local 200
Address Wildcard Distance Pfx List
------- -------- -------- --------
172.20.0.0 0.0.255.255 40 None
172.21.0.0 0.0.255.255 45 1
Prefix List In............................ PfxList1
Prefix List Out........................... None
Neighbors:
172.20.1.100
Filter List In........................ 1
Filter List Out....................... 2
Prefix List In........................ PfxList2
ABR Status The number of OSPF areas with at least one interface running
on this router. Also broken down by area type.
ASBR Status Whether the router is an autonomous system boundary router.
The router is an ASBR if it is redistributing any routes or
originating a default route.
RIP Section
RIP Admin Mode Whether RIP is globally enabled.
Split Horizon Mode Whether RIP advertises routes on the interface where they were
received.
Default Metric The metric assigned to redistributed routes.
Default Route
Advertise
Whether this router is originating a default route.
Distance The administrative distance for RIP routes.
Interface The interfaces where RIP is enabled and the version sent and
accepted on each interface.
Parameter Description
Layer 3 Routing Commands 1498
Prefix List Out....................... PfxList3
Route Map In.......................... rmapUp
Route Map Out......................... rmapDown
172.20.5.1
Prefix List Out....................... PfxList12
Routing Protocol.......................... OSPFv2
Router ID................................. 6.6.6.6
OSPF Admin Mode........................... Enable
Maximum Paths............................. 32
Routing for Networks...................... 172.24.0.0 0.0.255.255 area 0
10.0.0.0 0.255.255.255 area 1
192.168.75.0 0.0.0.255 area 2
Distance.................................. Intra 110 Inter 110 Ext 110
Default Route Advertise................... Disabled
Always.................................... FALSE
Metric.................................... Not configured
Metric Type............................... External Type 2
Redist
Source Metric Metric Type Subnets Dist List
--------- ------- ----------- ------- ---------
static default 2 Yes None
connected 10 2 Yes 1
Number of Active Areas.................... 3 (3 normal, 0 stub, 0 nssa)
ABR Status................................ Yes
ASBR Status............................... Yes
Routing Protocol.......................... RIP
RIP Admin Mode............................ Enable
Split Horizon Mode........................ Simple
Default Metric............................ Not configured
Default Route Advertise................... Disable
Distance.................................. 120
Interface Send Recv
--------- ---- ----
0/25 RIPv2 RIPv2
show ip route
Use the show ip route command to display the current state of the routing
table. The output of the command also displays the IPv4 address of the
default gateway and the default route associated with the gateway.
This command deprecates the show ip route connected command.
Layer 3 Routing Commands 1499
Syntax
show ip route [[ip-address [mask | prefix-length] [longer-prefixes] [vrf vrf-
name] [static]
•ip-address—Specifies the network for which the route is to be displayed
and displays the best matching route for the address.
•mask—Subnet mask of the IPv4 address in dotted quad notation.
• prefix-length—Length of prefix, in bits. Must be preceded with a forward
slash (/). (Range: 0-32 bits.)
•longer-prefixes—Indicates that the ip-address and subnet-mask pair
becomes the prefix, and the command displays the routes to the addresses
that match that prefix.
• vrf-name—The name of the VRF instance on which the command
operates. If no VRF parameter is given, information for the default
(global) router instance is shown.
•static—Display statically configured routes.
Default Configuration
This command has no default configuration.
Command Mode
User Exec, Privileged Exec modes, Global Configuration mode and all
Configuration submodes
User Guidelines
The VRF identified in the parameter must have been previously created or an
error is returned.
The VRF parameter is only available on the N3000/N3100/N4000 series
switches.
If the subnet mask is specified, then only routes with an exact match are
displayed. For example:
show ip route 192.168.2.0 /24
If only an IP address is specified, the best route for the IP address is displayed.
For example:
show ip route 192.168.2.0
Layer 3 Routing Commands 1500
If the longer-prefixes option is specified, then the subnets within an
aggregate are displayed. For example:
show ip route 192.168.2.0 /23 longer-prefixes
The numbers in the brackets indicate the route preference (administrative
distance) and metric respectively. The metric is specific to the originating
protocol. Connected routes have a preference of 0 and static routes have a
preference of 1.
Example
The following example displays the IPv4 address of the default gateway and
the default route associated with the gateway.
console#show ip route
Route Codes: R - RIP Derived, O - OSPF Derived, C - Connected, S - Static
B - BGP Derived, E - Externally Derived, IA - OSPF Inter Area
E1 - OSPF External Type 1, E2 - OSPF External Type 2
N1 - OSPF NSSA External Type 1, N2 - OSPF NSSA External Type 2
S U - Unnumbered Peer, L - Leaked Route, T - Truncated ECMP Route
* Indicates the best (lowest metric) route for the subnet.
C 3.0.0.0/24 [0/0] directly connected, Vl10
S U 6.1.0.6/32 [0/0] via Vl20
S U 6.2.0.6/32 [0/0] via Vl20
The following example shows an ECMP route with only one path.
console#show ip route summary
Connected Routes............................... 4
Static Routes.................................. 0
Kernel Routes.................................. 0
Unnumbered Peer Routes......................... 0
RIP Routes..................................... 0
BGP Routes..................................... 0
External..................................... 0
Internal..................................... 0
Local........................................ 0
OSPF Routes.................................... 320
Intra Area Routes............................ 0
Inter Area Routes............................ 320
External Type-1 Routes....................... 0
External Type-2 Routes....................... 0
Reject Routes.................................. 0
Total routes................................... 324
Best Routes (High)............................. 324 (644)
Alternate Routes............................... 0
Layer 3 Routing Commands 1501
Leaked Routes.................................. 0
RFC5549 Routes - IPv4 with IPv6 nexthop........ 0
Route Adds..................................... 1629
Route Modifies................................. 1144
Route Deletes.................................. 1305
Unresolved Route Adds.......................... 0
Invalid Route Adds............................. 0
Failed Route Adds.............................. 0
Failed Kernel Route Adds....................... 0
Hardware Failed Route Adds..................... 0
Reserved Locals................................ 0
Unique Next Hops (High)........................ 68 (132)
Next Hop Groups (High)......................... 299 (599)
ECMP Groups (High)............................. 290 (585)
ECMP Routes.................................... 256
Truncated ECMP Routes.......................... 34
ECMP Retries................................... 26400
Routes with 1 Next Hop......................... 34
Routes with 2 Next Hops........................ 285
Routes with 3 Next Hops........................ 5
show ip route static
Use the show ip route static command to display the statically configured
routes, whether they are reachable or not.
Syntax
show ip route static [name]
Default Configuration
This command has no default configuration.
Command Mode
User Exec, Privileged Exec modes, Global Configuration mode and all
Configuration submodes
User Guidelines
Use the optional name parameter to display the route name in addition to the
other information displayed
Layer 3 Routing Commands 1502
Example
console#show ip route static
Route Codes: R - RIP Derived, O - OSPF Derived, C - Connected, S - Static
B - BGP Derived, E - Externally Derived, IA - OSPF Inter Area
E1 - OSPF External Type 1, E2 - OSPF External Type 2
N1 - OSPF NSSA External Type 1, N2 - OSPF NSSA External Type 2
S U - Unnumbered Peer, L - Leaked Route
No default gateway is configured.
S 10.0.0.0/8 [1/0] via Vl10
S U 6.1.0.6/32 [0/0] via Vl20
S U 6.2.0.6/32 [0/0] via Vl20
show ip route preferences
Use the show ip route preferences command to display the default route
preference value for each origin.
Syntax
show ip route preferences
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
Route preferences are used in determining the best route. Lower router
preference values are preferred over higher router preference values. This
command displays the route preferences for each possible route origin.
Example
The following example displays IP route preferences.
console#show ip route preferences
Local.......................................... 0
Static......................................... 1
OSPF Intra-area routes......................... 110
OSPF Inter-area routes......................... 110
OSPF External routes........................... 110
Layer 3 Routing Commands 1503
RIP............................................ 120
BGP External................................... 20
BGP Internal................................... 200
BGP Local...................................... 200
Configured Default Gateway..................... 253
DHCP Default Gateway........................... 254
show ip route summary
Use the show ip route summary command to display the routing table
summary, including best and non-best routes.
Syntax
show ip route summary [best]
•
best
—
Shows the number of best routes. To include the count of all routes, do
not use this optional parameter.
Default Configuration
This command has no default configuration.
Command Mode
User Exec, Privileged Exec modes, Global Configuration mode and all
Configuration submodes
User Guidelines
This command has no user guidelines.
Example
The following example displays the IP route summary.
console#show ip route summary
Connected Routes............................... 4
Static Routes.................................. 0
Kernel Routes.................................. 0
Unnumbered Peer Routes......................... 0
RIP Routes..................................... 0
BGP Routes..................................... 0
External..................................... 0
Internal..................................... 0
Local........................................ 0
Layer 3 Routing Commands 1504
OSPF Routes.................................... 320
Intra Area Routes............................ 0
Inter Area Routes............................ 320
External Type-1 Routes....................... 0
External Type-2 Routes....................... 0
Reject Routes.................................. 0
Total routes................................... 324
Best Routes (High)............................. 324 (644)
Alternate Routes............................... 0
Leaked Routes.................................. 0
RFC5549 Routes - IPv4 with IPv6 nexthop........ 0
Route Adds..................................... 1629
Route Modifies................................. 1144
Route Deletes.................................. 1305
Unresolved Route Adds.......................... 0
Invalid Route Adds............................. 0
Failed Route Adds.............................. 0
Failed Kernel Route Adds....................... 0
Hardware Failed Route Adds..................... 0
Reserved Locals................................ 0
Unique Next Hops (High)........................ 68 (132)
Next Hop Groups (High)......................... 299 (599)
ECMP Groups (High)............................. 290 (585)
ECMP Routes.................................... 256
Truncated ECMP Routes.......................... 34
ECMP Retries................................... 26400
Routes with 1 Next Hop......................... 34
Routes with 2 Next Hops........................ 285
Routes with 3 Next Hops........................ 5
show ip traffic
Use the show ip traffic command to display IP statistical information of the
software IP stack. Refer to RFC 1213 for more information about the fields
that are displayed.
Syntax
show ip traffic [vrf vrf-name]
• vrf-name—The name of the VRF instance on which the command
operates. If no VRF parameter is given, information for the default
(global) router instance is shown.
Layer 3 Routing Commands 1505
Default Configuration
This command has no default configuration.
Command Mode
User Exec, Privileged Exec modes, Global Configuration mode and all
Configuration submodes
User Guidelines
This command displays statistics for the software IP stack, not the hardware
routing information.
The VRF identified in the parameter must have been previously created or an
error is returned.
The VRF parameter is only available on the N3000/N3100/N4000 series
switches.
Example
The following example displays IP route preferences.
console>show ip traffic
IpInReceives................................... 24002
IpInHdrErrors.................................. 1
IpInAddrErrors................................. 925
IpForwDatagrams................................ 0
IpInUnknownProtos.............................. 0
IpInDiscards................................... 0
IpInDelivers................................... 18467
IpOutRequests.................................. 295
IpOutDiscards.................................. 0
IpOutNoRoutes.................................. 0
IpReasmTimeout................................. 0
IpReasmReqds................................... 0
IpReasmOKs..................................... 0
IpReasmFails................................... 0
IpFragOKs...................................... 0
IpFragFails.................................... 0
IpFragCreates.................................. 0
IpRoutingDiscards.............................. 0
IcmpInMsgs..................................... 3
IcmpInErrors................................... 0
IcmpInDestUnreachs............................. 0
IcmpInTimeExcds................................ 0
IcmpInParmProbs................................ 0
IcmpInSrcQuenchs............................... 0
Layer 3 Routing Commands 1506
IcmpInRedirects................................ 0
IcmpInEchos.................................... 3
IcmpInEchoReps................................. 0
IcmpInTimestamps............................... 0
IcmpInTimestampReps............................ 0
IcmpInAddrMasks................................ 0
IcmpInAddrMaskReps............................. 0
IcmpOutMsgs.................................... 3
IcmpOutErrors.................................. 0
IcmpOutDestUnreachs............................ 0
IcmpOutTimeExcds............................... 0
IcmpOutParmProbs............................... 0
IcmpOutSrcQuenchs.............................. 0
IcmpOutRedirects............................... 0
IcmpOutEchos................................... 3
IcmpOutEchoReps................................ 3
IcmpOutTimestamps.............................. 0
IcmpOutTimestampReps........................... 0
IcmpOutAddrMasks............................... 0
show ip vlan
Use the show ip vlan command to display the VLAN routing information for
all VLANs with routing enabled.
Syntax
show ip vlan
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
This command has no user guidelines.
Example
The following example displays VLAN routing information.
console#show ip vlan
MAC Address used by Routing VLANs: 00:00:00:01:00:02
Layer 3 Routing Commands 1507
VLAN ID IP Address Subnet Mask
------- --------------- ---------------
10 0.0.0.0 0.0.0.0
20 0.0.0.0 0.0.0.0
show route-map
Use this command to display the route maps.
Syntax
show route-map map-name
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
This command has no user guidelines.
Example
For each route map, the match count is shown in terms of number of packets
and number of bytes. This counter displays the match count in packets and
bytes when a route map is applied. When a route map is created/removed
from interface, this count is shown as zero. The following is an example of the
behavior of counters as well as how they are displayed when a route-map is
applied and removed from interface:
console# show route-map test
route-map test, permit, sequence 10
Match clauses:
ip address prefix-lists: orange
Set clauses:
set metric 50
console #show ip policy
Interface Route-Map
------------ -----------------------------------------
Layer 3 Routing Commands 1508
console #show route-map simplest
route-map simplest permit 10
Match clauses:
ip address (access-lists) : 1
Set clauses:
ip next-hop 3.3.3.3
ip precedence 3
Policy routing matches: 0 packets, 0 bytes
route-map simplest permit 20
Match clauses:
ip address (access-lists) : 1
Set clauses:
ip default next-hop 4.4.4.4
ip precedence 4
Policy routing matches: 0 packets, 0 bytes
route-map simplest permit 30
Match clauses:
Set clauses:
interface null0
Policy routing matches: 0 packets, 0 bytes
console #configure
console (Config)#interface Te1/0/2
console (config-if-Te1/0/2)#ip policy simplest
console (config-if-Te1/0/2)#show route-map simplest
route-map simplest permit 10
Match clauses:
ip address (access-lists) : 1
Set clauses:
ip next-hop 3.3.3.3
ip precedence 3
Policy routing matches: 5387983 packets, 344831232 bytes
route-map simplest permit 20
Match clauses:
ip address (access-lists) : 1
Set clauses:
ip default next-hop 4.4.4.4
ip precedence 4
Policy routing matches: 0 packets, 0 bytes
route-map simplest permit 30
Match clauses:
Set clauses:
interface null0
Policy routing matches: 0 packets, 0 bytes
console (config-if-Te1/0/2)# no ip policy simplest
console (config-if-Te1/0/2)# exit
console (config)# exit
console # show route-map simplest
route-map simplest permit 10
Match clauses:
ip address (access-lists) : 1
Set clauses:
ip next-hop 3.3.3.3
ip precedence 3
Layer 3 Routing Commands 1509
Policy routing matches: 0 packets, 0 bytes
route-map simplest permit 20
Match clauses:
ip address (access-lists) : 1
Set clauses:
ip default next-hop 4.4.4.4
ip precedence 4
Policy routing matches: 0 packets, 0 bytes
route-map simplest permit 30
Match clauses:
Set clauses:
interface null0
Policy routing matches: 0 packets, 0 bytes
console #show ip policy
Interface Route-Map
------------ -----------------------------------------
console #
console(route-map)#show route-map
route-map “d3” permit 10
Match clauses:
ip address prefix-list a1
as-path 1
community s1 exact-match
Set clauses:
metric 23
local-preference 34
as-path prepend 2 3 4 5 6
comm-list d1 delete
community no-export
ipv6 next-hop aa::bb
Policy routed: 0 packets, 0 bytes
The following example shows a route map test1 that is configured with
extended community attributes:
console# show route-map test
route-map test1, permit, sequence 10
Match clauses:
extended community list1
Set clauses:
extended community RT:1:100 RT:2:200
show routing heap summary
Use the show routing heap summary command to display a summary of the
memory allocation from the routing heap. The routing heap is a section of
memory set aside when the system boots for use by the routing applications.
Layer 3 Routing Commands 1510
Syntax
show routing heap summary
Default Configuration
This command has no default setting.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
The command displays the following information.
Examples
The following shows example CLI display output for the command.
console# show routing heap summary
Heap Size....................... 92594000 bytes
Memory In Use................... 149598 bytes (0%)
Memory on Free List............. 78721 bytes (0%)
Memory Available in Heap........ 92365249 bytes (99%)
In Use High Water Mark.......... 210788 bytes (0%)
Parameter Description
Heap Size The amount of memory, in bytes, allocated at startup for the
routing heap.
Memory In Use The number of bytes currently allocated.
Memory on Free
List
The number of bytes currently on the free list. When a chunk
of memory from the routing heap is freed, it is placed on a free
list for future reuse.
Memory Available in
Heap
The number of bytes in the original heap that have never been
allocated.
In Use High Water
Mark
The maximum memory in use since the system last rebooted.
Layer 3 Routing Commands 1511
IPv6 Routing Commands
Dell EMC Networking N1500/N2000/N2100-ON/N3000/N3100-
ON/N4000 Series Switches
The Dell Network N1500/N2000/N2100-ON series supports limited routing and
multicast capabilities. See the Users Configuration Guide section “Feature
Limitations and Platform Constants” for supported capabilities.
The IPv6 version of the routing table manager provides a repository for IPv6
routes learned by dynamic routing protocols or static configuration. RTO6
manages dynamic and static IPv6 routes, redistributes routes to registered
protocols, supports ECMP routes, and supports multiple routes to the same
destination, sorted by preference. IPv6 routing only operates over VLAN
interfaces.
IPv6 Limitations & Restrictions
The following limitations apply:
• IPSec support is not available.
• The DHCPv6 server does not support stateful address configuration.
• Automated router renumbering is not supported.
Commands in this Section
This section explains the following commands:
arp ipv6 nd dad
attempts
–
show ipv6 mld host-
proxy groups
clear ipv6 statistics ipv6 nd ra hop-limit
unspecified
ipv6 nd suppress-ra show ipv6 mld host-
proxy groups detail
ipv6 address ipv6 nd managed-
config-flag
ipv6 route show ipv6 mld host-
proxy interface
ipv6 enable ipv6 nd ns-interval ip route distance show ipv6 mld traffic
ipv6 hop-limit ipv6 nd nud max-
multicast-solicits
ipv6 unicast-
routing
show ipv6 nd raguard
policy
Layer 3 Routing Commands 1512
clear ipv6 neighbors
Use the clear ipv6 neighbors command to clear all entries in the IPv6
neighbor table or an entry on a specific interface.
Syntax
clear ipv6 neighbors [vlan vlan-id]
• vlan-id — Valid VLAN ID.
Default Configuration
This command has no default configuration.
ipv6 host ipv6 nd nud max-
unicast-solicits
ipv6 unreachables show ipv6 neighbors
ipv6 icmp error-
interval
ipv6 nd nud retry show ipv6 protocols
ipv6 mld last-
member-query-
count
ipv6 nd other-
config-flag
show ipv6 brief show ipv6 route
ipv6 mld last-
member-query-
interval
ipv6 nd prefix show ipv6 interface show ipv6 route
preferences
ipv6 mld host-proxy ipv6 nd raguard
attach-policy
–
show ipv6 route
summary
ipv6 mld host-proxy
reset-status
ipv6 nd ra-interval show ipv6 mld
groups
show ipv6 snooping
counters
ipv6 mld host-proxy
unsolicit-rprt-
interval
ipv6 nd ra-lifetime show ipv6 mld host-
proxy
show ipv6 traffic
ipv6 mld query-
interval
ipv6 nd reachable-
time
show ipv6 mld
interface
show ipv6 vlan
ipv6 mld query-
max-response-time
––
traceroute ipv6
Layer 3 Routing Commands 1513
Command Mode
Privileged Exec mode.
User Guidelines
This command has no user guidelines.
Example
The following example clears all entries in the IPv6 neighbor table.
console(config)#clear ipv6 neighbors
clear ipv6 statistics
Use the clear ipv6 statistics command to clear IPv6 statistics for all interfaces
or for a specific interface, including loopback and tunnel interfaces. IPv6
statistics display in the output of the show ipv6 traffic command.
Syntax
clear ipv6 statistics [vlan vlan-id | tunnel tunnel-id | loopback loopback-id]
• vlan-id — Valid VLAN ID.
• tunnel-id — Tunnel identifier. (Range: 0-7)
• loopback-id — Loopback identifier. (Range: 0-7)
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode.
User Guidelines
This command has no user guidelines.
Example
The following example clears IPv6 statistics for VLAN 11.
console(config)#clear ipv6 statistics vlan 11
Layer 3 Routing Commands 1514
ipv6 address
Use the ipv6 address command in Interface Configuration mode to configure
an IPv6 address on an interface (including VLAN, tunnel and loopback
interfaces) and to enable IPv6 processing on this interface. Multiple globally
reachable addresses can be assigned to an interface by using this command.
There is no need to assign a link-local address by using this command since
one is automatically created. IPv6 addresses can be expressed in eight blocks.
Also of note is that instead of a period, a colon separates each block. For
simplification, leading zeros of each 16-bit block can be omitted. One
sequence of 16-bit blocks containing only zeros can be replaced with a double
colon “::”, but not more than one at a time (otherwise it is no longer a unique
representation).
Dropping zeros: 3ffe:ffff:100:f101:0:0:0:1 becomes 3ffe:ffff:100:f101::1
Local host: 0000:0000:0000:0000:0000:0000:0000:0001 becomes ::1
Any host: 0000:0000:0000:0000:0000:0000:0000:0000 becomes ::
The hexadecimal letters in the IPv6 addresses are not case-sensitive. An
example of an IPv6 prefix and prefix length is 3ffe:1::1234/64.
Syntax
ipv6 address prefix/prefix-length [eui64]
no ipv6 address [prefix/prefix-length] [eui64]
• prefix — Consists of the bits of the address to be configured.
• prefix-length — Designates how many of the high-order contiguous bits of
the address make up the prefix.
•eui64 — The optional eui-64 field designates that IPv6 processing on the
interfaces is enabled using an EUI-64 interface ID in the low order 64 bits
of the address. If this option is used, the value of prefix_length must be 64
bits.
Default Configuration
This command has no default configuration.
Command Mode
Interface Configuration (VLAN, Tunnel, Loopback) mode.
Layer 3 Routing Commands 1515
User Guidelines
This command has no user guidelines.
Example
The following example configures an IPv6 address and enables IPv6
processing.
console(config)#interface vlan 15
console(config-if-vlan15)#ipv6 address 2020:1::1/64
ipv6 enable
Use the ipv6 enable command in VLAN Interface Configuration mode to
enable IPv6 routing on an interface (including tunnel and loopback
interfaces) that has not been configured with an explicit IPv6 address.
Command execution automatically configures the interface with a link-local
address. The command is not required if an IPv6 global address is configured
on the interface.
Syntax
ipv6 enable
no ipv6 enable
Default Configuration
Disabled is the default configuration.
Command Mode
Interface Configuration (VLAN, Tunnel, Loopback) mode.
User Guidelines
This command has no user guidelines.
Example
The following example enables IPv6 routing, which has not been configured
with an explicit IPv6 address.
console(config)#vlan 15
console(config-vlan)#interface vlan 15
Layer 3 Routing Commands 1516
console(config-if-vlan15)#ipv6 enable
ipv6 hop-limit
Use the ipv6 hop-limit command to configure the hop limit used in IPv6
PDUs originated by the router. Use the no form of the command to return
the hop limit to the default setting.
Syntax
ipv6 hop-limit count
no ipv6 hop-limit
• count—The number of hops before the PDU expires (Range 1-255).
Default Configuration
The default count is “not configured.”
Command Mode
Global Configuration
User Guidelines
The default “not configured” sends a value of 0 in router advertisements and
a value of 64 in packets originated by the router. This is not the same as
configuring a hop limit of 64.
ipv6 host
The ipv6 host command is used to define static host name-to- ipv6 address
mapping in the host cache.
Syntax
ipv6 host name ipv6-address
no ipv6 host name
• name — Host name.
• ipv6-address — IPv6 address of the host.
Layer 3 Routing Commands 1517
Default Configuration
No IPv6 hosts are defined.
Command Mode
Global Configuration mode.
User Guidelines
This command has no user guidelines.
Example
console(config)#ipv6 host Dell 2001::DB8:0
ipv6 icmp error-interval
Use the icmp error-interval command to limit the rate at which ICMP error
messages are sent. The rate limit is configured as a token bucket with two
configurable parameters: Burst-size and burst interval. Use the no form of this
command to return burst-interval and burst-size to their default values. To
disable ICMP rate limiting, set burst-interval to zero.
Syntax
ipv6 icmp error-interval burst-interval [ burst-size ]
no ipv6 icmp error-interval
• burst-interval — How often the token bucket is initialized (Range: 0–
2147483647 milliseconds).
• burst-size — The maximum number of messages that can be sent during a
burst interval (Range: 1–200).
Default Configuration
Rate limiting is enabled by default.
The default burst-interval is 1000 milliseconds.
The default burst-size is 100 messages.
Command Mode
Global Configuration mode
Layer 3 Routing Commands 1518
User Guidelines
There are no user guidelines for this command.
Example
console(config)#ipv6 icmp error-interval 2000 20
ipv6 mld last-member-query-count
The ipv6 mld last-member-query-count command sets the number of
listener-specific queries sent before the router assumes that there are no local
members on the interface. Use the “no” form of this command to set the last
member query count to the default.
Syntax
ipv6 mld last-member-query-count last-member-query-count
no ipv6 mld last-member-query-count
• last-member-query-count — Query count (Range: 1–20).
Default Configuration
The default last member query count is 2.
Command Mode
Interface Configuration (VLAN) mode.
User Guidelines
There are no user guidelines for this command.
Example
console(config-if-vlan3)#ipv6 mld last-member-query-count 5
Layer 3 Routing Commands 1519
ipv6 mld last-member-query-interval
The ipv6 mld last-member-query-interval command sets the last member
query interval for the MLD interface, which is the value of the maximum
response time parameter in the group-specific queries sent out of this
interface. Use the “no” form of this command to set the last member query
interval to the default.
Syntax
ipv6 mld last-member-query-interval last-member-query-interval
no ipv6 mld last-member-query-interval
• last-member-query-interval — The last member query interval (Range: 0–
65535 milliseconds).
Default Configuration
The default last member query interval is 1 second.
Command Mode
Interface Configuration (VLAN) mode.
User Guidelines
There are no user guidelines for this command.
Example
console(config-if-vlan3)#ipv6 mld last-member-query-interval 5000
ipv6 mld host-proxy
This command enables MLD and MLD Proxy on the specified interface.
PIM and DVMRP are not compatible with MLD proxy. Disable PIM/DVMRP
before enabling MLD proxy.
Multicast routing must be enabled for the MLD proxy service to become
operationally enabled
Also, ensure that there are no other multicast routing protocols enabled on
the router and that IP multicast routing is globally enabled. Use the “no”
form of this command to disable MLD Proxy globally.
Layer 3 Routing Commands 1520
Syntax
ipv6 mld host-proxy [interface vlan-id]
no ipv6 mld host-proxy [interface vlan-id]
Default Configuration
MLD Proxy is disabled by default.
Command Mode
Interface Configuration (VLAN) mode.
User Guidelines
There are no user guidelines for this command.
Example
console(config-if-vlan3)#ipv6 mld host-proxy
ipv6 mld host-proxy reset-status
Use the ipv6 mld host-proxy reset-status command to reset the host interface
status parameters of the MLD Proxy router. This command is only valid when
MLD Proxy is enabled on the interface.
Syntax
ipv6 mld host-proxy reset-status
Command Mode
Interface Configuration (VLAN) mode.
Default Configuration
There is no default configuration for this command.
User Guidelines
There are no user guidelines for this command.
Layer 3 Routing Commands 1521
Example
console(config-if-vlan3)#ipv6 mld host-proxy reset-status
ipv6 mld host-proxy unsolicit-rprt-interval
Use the ipv6 mld host-proxy unsolicit-rprt-interval command to set the
unsolicited report interval for the MLD Proxy router. This command is only
valid when MLD Proxy is enabled on the interface. Use the “no” form of this
command to reset the MLD Proxy router's unsolicited report interval to the
default value.
Syntax
ipv6 mld host-proxy unsolicited-report-interval interval
no ipv6 mld host-proxy unsolicited-report-interval
• interval — The interval between unsolicited reports (Range: 1–260
seconds).
Default Configuration
The unsolicited report interval is 1 second by default.
Command Mode
Interface Configuration (VLAN) mode.
User Guidelines
This command has no user guidelines
Example
console(config-if-vlan3)#ipv6 mld host-proxy unsolicit-rprt-interval 10
ipv6 mld query-interval
The ipv6 mld query-interval command sets the MLD router's query interval
for the interface. The query-interval is the amount of time between the
general queries sent when the router is querying on that interface. Use the
“no” form of this command to set the query interval to the default.
Layer 3 Routing Commands 1522
Syntax
ipv6 mld query-interval query-interval
no ipv6 mld query-interval
• query-interval — Query interval (Range: 1–3600).
Default Configuration
The default query interval is 125 seconds.
Command Mode
Interface Configuration (VLAN) mode.
User Guidelines
There are no user guidelines for this command.
Example
console(config-if-vlan3)#ipv6 mld query-interval 130
ipv6 mld query-max-response-time
The ipv6 mld query-max-response-time command sets MLD query
maximum response time for the interface. This value is used in assigning the
maximum response time in the query messages that are sent on that
interface. Use the “no” form of this command to set the maximum query
response time to the default.
Syntax
ipv6 mld query-max-response-time query-max-response-time
no ipv6 mld query-max-response-time
• query-max-response-time — Maximum query response time (Range: 1–
65535 milliseconds).
Default Configuration
The default query maximum response time is 10 seconds.
Layer 3 Routing Commands 1523
Command Mode
Interface Configuration (VLAN) mode
User Guidelines
There are no user guidelines for this command.
Example
console(config-if-vlan3)#ipv6 mld query-max-response-time 4500
ipv6 nd dad attempts
Use the ipv6 nd dad attempts command in Interface Configuration mode to
set the number of duplicate address detection probes transmitted while doing
neighbor discovery. Duplicate address detection verifies that an IPv6 address
on an interface is unique.
Syntax
ipv6 nd dad attempts value
no ipv6 nd dad attempts
• value—Probes transmitted. (Range: 0-600)
Default Configuration
The default value for attempts is 1.
Command Mode
Interface Configuration (VLAN, Tunnel, Loopback) mode
User Guidelines
This command has no user guidelines.
Example
The following example sets at 10 the number of duplicate address detection
probes transmitted while doing neighbor discovery.
console(config)#interface vlan 15
console(config-if-vlan15)#ipv6 nd dad attempts 10
Layer 3 Routing Commands 1524
ipv6 nd ra hop-limit unspecified
Use the ipv6 nd ra hop-limit unspecified command to configure the hop
limit sent in router alert messages. Use the no form of the command to send
the default hop limit of 64.
Syntax
ipv6 nd ra hop-limit unspecified
no ipv6 nd ra hop-limit unspecified
Default Configuration
The default TTL is 64.
Command Mode
Interface (VLAN) Configuration
User Guidelines
The TTL sent in router advertisements and neighbor discovery packets may
be configured using the Global Configuration command ipv6 hop-limit.
Command History
Introduced in version 6.2.0.1 firmware.
Example
console(config)#interface vlan 15
console(config-if-vlan15)#ipv6 nd ra hop-limit unspecified
ipv6 nd managed-config-flag
Use the ipv6 nd managed-config-flag command in Interface Configuration
mode to set the “managed address configuration” flag in router
advertisements. When the value is true,
end nodes use DHCPv6. When the value is false, end nodes automatically
configure addresses.
Layer 3 Routing Commands 1525
Syntax
ipv6 nd managed-config-flag
no ipv6 nd managed-config-flag
Default Configuration
False is the default configuration.
Command Mode
Interface Configuration (VLAN, Tunnel, Loopback) mode
User Guidelines
This command has no user guidelines.
Example
In the following example, the end node uses DHCPv6.
console(config)#interface vlan 15
console(config-if-vlan15)#ipv6 nd managed-config-flag
ipv6 nd ns-interval
Use the ipv6 nd ns-interval command in Interface Configuration mode to set
the interval between router advertisements for advertised neighbor
solicitations. An advertised value of 0 means the interval is unspecified.
Syntax
ipv6 nd ns-interval milliseconds
no ipv6 nd ns-interval
• milliseconds — Interval duration. (Range: 0, 1000–4294967295)
Default Configuration
0 is the default value for milliseconds.
Command Mode
Interface Configuration (VLAN, Tunnel, Loopback) mode
Layer 3 Routing Commands 1526
User Guidelines
This command has no user guidelines.
Example
The following example sets the interval between router advertisements for
advertised neighbor solicitations at 5000 ms.
console(config)#interface vlan 15
console(config-if-vlan15)#ipv6 nd ns-interval 5000
ipv6 nd nud max-multicast-solicits
Configures the maximum number of multicast neighbor solicitations sent
during neighbor resolution or during NUD (neighbor unreachability
detection). Use the no form of the command to reset the value to the default.
Syntax
ipv6 nd nud max-multicast-solicits num-solicits
no ipv6 nd nud max-multicast-solicits
• num-solicits—The maximum number of multicast Neighbor Solicitations
sent during neighbor resolution or during NUD (neighbor unreachability
detection). The value ranges from 3 to 255. The default value is 3.
Default Configuration
The default number of multicast solicits is 3.
Command Mode
Global Configuration
User Guidelines
Increase this value when neighbors are not being discovered or large numbers
of neighbors are present.
Command History
Introduced in version 6.2.0.1 firmware.
Layer 3 Routing Commands 1527
Example
console (config)#ipv6 nd nud max-multicast-solicits 5
ipv6 nd nud max-unicast-solicits
Configures the maximum number of unicast neighbor solicitations sent
during neighbor resolution or during NUD (neighbor unreachability
detection). Use the no form of the command to reset the value to the default.
Syntax
ipv6 nd nud max-unicast-solicits num-solicits
no ipv6 nd nud max-unicast-solicits
num-solicits—The maximum number of unicast Neighbor Solicitations sent
during neighbor resolution or during NUD (neighbor unreachability
detection). The value ranges from 3 to 10. The default value is 3.
Default Configuration
The default number of solicits is 3.
Command Mode
Global Configuration
User Guidelines
Increase this value when neighbors are not being discovered or large numbers
of neighbors are present.
Command History
Introduced in version 6.2.0.1 firmware.
Example
console (config)#ipv6 nd nud max-unicast-solicits 5
Layer 3 Routing Commands 1528
ipv6 nd nud retry
This command configures the exponential backoff multiple to be used in the
calculation of the next timeout value for Neighbor Solicitation transmission
during NUD (neighbor unreachability detection) following the exponential
backoff algorithm. Use the no form of the command to return the backoff
multiple to the default.
Syntax
ipv6 nd nud retry backoff-multiple
no ipv6 nd nud retry
• backoff-multiple—The value ranges from 1 to 5. The next timeout value is
clamped at a maximum value of 60 seconds if the result of the exponential
back-off calculation is greater than 60 seconds.
Default Configuration
The default exponent is 1.
Command Mode
Global Configuration
User Guidelines
Once the neighbor is resolved and added in the hardware, traffic is
continuously forwarded by the router using neighbor entry. The neighbor
entry in the cache transitions to the STALE state after the effective STALE
timeout value (a random value between 15 and 45 seconds per RFC 2461).
To bridge the gap between the neighbor discovery state and the neighbor
cache state, the application periodically iterates through the STALE entries
and triggers NUD on those entries to detect any address/station movements
or MAC address changes.
When NUD is triggered, neighbor solicitation PROBE packets (unicast and
multicast) are sent periodically, separated by exponential binary values
instead of the normal 1 second interval. This ensures that when the network
(not just our router but more routers in the network) is congested, the NUD
process for the existing STALE entries takes enough time before ultimately
removing the cache entry through garbage collection. Without the
Layer 3 Routing Commands 1529
exponential backoff timing for retransmissions, there is a higher probability
that the cache entry is removed resulting in the disruption of the existing
traffic.
Another significant benefit of delayed neighbor solicitation retransmission is
higher robustness against transient failures, such as spanning tree re-
convergence and other layer 2 issues that can take many seconds to resolve.
The exponential back-off calculation is
next retransmission timer =
(BACKOFF_MULTIPLE^solicit_attempt_num) *$RETRANS_TIMER +
jittered value.
The exponential backoff algorithm complies with draft-ietf-6man-impatient-
nud-02.
Increase this value when large numbers of neighbors are present or when
neighbors are not being discovered due to network events like spanning-tree
re-convergence.
Command History
Introduced in version 6.2.0.1 firmware.
Example
console (config)#ipv6 nd nud retry 5
ipv6 nd other-config-flag
Use the ipv6 nd other-config-flag command in Interface Configuration mode
to set the “other stateful configuration” flag in router advertisements sent
from the interface.
Syntax
ipv6 nd other-config-flag
no ipv6 nd other-config-flag
Default Configuration
False is the default configuration.
Layer 3 Routing Commands 1530
Command Mode
Interface Configuration (VLAN, Tunnel, Loopback) mode
User Guidelines
This command has no user guidelines.
Example
The following example sets to true the “other stateful configuration” flag in
router advertisements
console(config)#interface vlan 15
console(config-if-vlan15)#ipv6 nd other-config-flag
ipv6 nd prefix
Use the ipv6 nd prefix command to configure parameters associated with
prefixes that the router advertises in its router advertisements.
Syntax
ipv6 nd prefix ipv6-prefix/prefix-length [{valid-lifetime | infinite}
{preferred-lifetime | infinite}] [no-autoconfig] [off-link]
no ipv6 nd prefix ipv6-prefix/prefix-length
• ipv6-prefix—IPv6 prefix.
• prefix-length—IPv6 prefix length.
•valid-lifetime—Valid lifetime of the router in seconds. (Range: 0–
4294967295 seconds.)
•infinite—Indicates lifetime value is infinite.
•preferred-lifetime—Preferred-lifetime of the router in seconds. (Range: 0–
4294967295 seconds.)
•no-autoconfig—Do not use Prefix for autoconfiguration.
•off-link—Do not use Prefix for onlink determination.
Default Configuration
604800 seconds is the default value for valid-lifetime, 2592000 seconds for
preferred lifetime.
Layer 3 Routing Commands 1531
Command Mode
Interface Configuration (VLAN, Tunnel, Loopback) mode
User Guidelines
The router advertises its global IPv6 prefixes in its router advertisements
(RAs). An RA only includes the prefixes of the IPv6 addresses configured on
the interface where the RA is transmitted. Addresses are configured using the
ipv6 address interface configuration command. Each prefix advertisement
includes information about the prefix, such as its lifetime values and whether
hosts should use the prefix for on-link determination or address auto-
configuration. Use the ipv6 nd prefix command to configure these values.
The ipv6 nd prefix command will allow you to preconfigure RA prefix values
before you configure the associated interface address. In order for the prefix
to be included in RAs, you must configure an address that matches the prefix
using the ipv6 address command. Prefixes specified using ipv6 nd prefix
without an associated interface address will not be included in RAs and will
not be committed to the device configuration.
Example
The following example sets the IPv6 prefixes to include in the router
advertisement.
console(config)#interface vlan 11
console(config-if-vlan11)#ipv6 nd prefix 2020:1::1/64
ipv6 nd raguard attach-policy
Use this command to enable RA Guard policy on an interface. Use the no
form of the command to disable RA-Guard.
Syntax
ipv6 nd raguard attach-policy
no ipv6 nd raguard attach-policy
Default Configuration
By default, no RA guard policies are applied to any interface.
Layer 3 Routing Commands 1532
Command Mode
Interface Configuration (physical, port-channel)
User Guidelines
RA Guard drops all incoming IPv6 router advertisement and router redirect
messages.
RA Guard may be configured on L2 or L3 interfaces.
Command History
Introduced in version 6.2.0.1 firmware.
Example
The following example configures an unnamed RA Guard policy to drop all
RA advertisements and router redirect messages on IPv6 routing enabled
interface Gi1/0/1 (VLAN 10).
console(config)#vlan 10
console(config-vlan10)#exit
console(config)#interface vlan 10
console(config-if-vlan10)#ipv6 enable
console(config-if-vlan10)#exit
console(config)#ipv6 unicast-routing
console(config)#interface gi1/0/1
console(config-if-Gi1/0/1)#switchport access vlan 10
console(config-if-Gi1/0/1)#exit
console(config)#interface gi1/0/1
console(config-if-Gi1/0/1)#ipv6 nd raguard attach-policy
ipv6 nd ra-interval
Use the ipv6 nd ra-interval command in Interface Configuration mode to set
the transmission interval between router advertisements.
Syntax
ipv6 nd ra-interval maximum minimum
no ipv6 nd ra-interval
• maximum — The maximum interval duration (Range: 4–1800 seconds).
• minimum — The minimum interval duration (Range: 3 – (0.75 *
maximum) seconds).
Layer 3 Routing Commands 1533
Default Configuration
600 is the default value for seconds.
Command Mode
Interface Configuration (VLAN, Tunnel, Loopback) mode
User Guidelines
The minimum interval cannot be larger than 75% of the maximum interval.
Example
The following example sets the transmission interval between router
advertisements at 1000 seconds.
console(config)#interface vlan 15
console(config-if-vlan15)#ipv6 nd ra-interval 1000
ipv6 nd ra-lifetime
Use the ipv6 nd ra-lifetime command in Interface Configuration mode to set
the value that is placed in the Router Lifetime field of the router
advertisements sent from the interface.
Syntax
ipv6 nd ra-lifetime seconds
no ipv6 nd ra-lifetime
• seconds — Lifetime duration. The value must be zero, or it must be an
integer between the value of the router advertisement transmission
interval and 9000 seconds. A value of zero means this router is not to be
used as the default router. (Range: 0-9000)
Default Configuration
1800 is the default value for seconds.
Command Mode
Interface Configuration (VLAN, Tunnel, Loopback) mode
Layer 3 Routing Commands 1534
User Guidelines
This command has no user guidelines.
Example
The following example sets at 1000 seconds the value that is placed in the
Router Lifetime field of the router advertisements.
console(config)#interface vlan 15
console(config-if-vlan15)#ipv6 nd ra-lifetime 1000
ipv6 nd reachable-time
Use the ipv6 nd reachable-time command in Interface Configuration mode
to set the router advertisement time to consider a neighbor reachable after
neighbor discovery confirmation.
Syntax
ipv6 nd reachable-time milliseconds
no ipv6 nd reachable-time
• milliseconds — Reachable-time duration. A value of zero means the time
is unspecified by the router. (Range: 0-3600000 milliseconds)
Default Configuration
The default value for neighbor discovery reachable times is 0 milliseconds.
Command Mode
Interface Configuration (VLAN, Tunnel, Loopback) mode
User Guidelines
This command has no user guidelines.
Example
The following example sets the router advertisement time at 5000
milliseconds to consider a neighbor reachable after neighbor discovery
confirmation.
console(config)#interface vlan 15
Layer 3 Routing Commands 1535
console(config-if-vlan15)#ipv6 nd reachable-time 5000
ipv6 nd suppress-ra
Use the ipv6 nd suppress-ra command in Interface Configuration mode to
suppress router advertisement transmission on an interface.
Syntax
ipv6 nd suppress-ra
no ipv6 nd suppress-ra
Default Configuration
Disabled is the default configuration.
Command Mode
Interface Configuration (VLAN, Tunnel, Loopback) mode
User Guidelines
This command has no user guidelines.
Example
The following example suppresses router advertisement transmission.
console(config)#interface vlan 15
console(config-if-vlan15)#ipv6 nd suppress-ra
ipv6 route
Use the ipv6 route command in Global Configuration mode to configure an
IPv6 static route. Use the no form of the command to remove a preference,
an individual next hop, or all next hops for a route. Using the no ipv6 route
distance form causes the system to use the system default administrative
distance.
Syntax
ipv6 route distance
Layer 3 Routing Commands 1536
ipv6 route ipv6-prefix/prefix-length {ipv6-address | interface-type ipv6-
address} [preference]
no ipv6 route ipv6-prefix/prefix-length ipv6-address preference
no ipv6 route ipv6-prefix/prefix-length interface-type ipv6-address
no ipv6 route ipv6-prefix/prefix-length interface
• distance—The default administrative distance for static routes. (Range 1-
255)
• ipv6-prefix—An IPv6 prefix representing the subnet that can be reached
via the next-hop neighbor.
• prefix-length—The length of the IPv6 prefix — a decimal value (usually 0-
64) that shows how many of the high-order contiguous bits of the address
comprise the prefix (the network portion of the address). A slash mark
must separate the prefix from the prefix-length with no spaces on either
side of the slash mark.
• interface-type—Distinguishes direct static routes from point-to-point and
broadcast interfaces, and must be specified when using a link-local address
as the next hop. Interface-type can be Null 0 or vlan plus vlan-id or tunnel
plus tunnel-id.
• ipv6-address—The IPv6 address of the next hop neighbor.
• preference—The administrative distance the router uses to compare this
route with routes from other route sources that have the same destination.
(Range: 1-255)
Default Configuration
1 is the default value for preference.
Command Mode
Global Configuration mode
User Guidelines
This command has no user guidelines.
Example
The following example configure an IPv6 static route.
Layer 3 Routing Commands 1537
console(config)#ipv6 route 2020:1::1/64 2030:1::2
ipv6 route distance
Use the ipv6 route distance command in Global Configuration mode to set
the default distance (preference) for static routes. Lower route preference
values are preferred when determining the best route. The ipv6 route and
ipv6 route default commands allow optional setting of the distance of an
individual static route. The default distance is used when no distance is
specified in these commands. Changing the default distance does not update
the distance of existing static routes, even if they were assigned the original
default distance. The new default distance is applied to static routes created
after invoking the ipv6 route distance command.
Syntax
ipv6 route distance integer
no ipv6 route distance integer
• integer — Specifies the distance (preference) of an individual static route.
(Range 1-255)
Default Configuration
Default value of integer is 1.
Command Mode
Global Configuration mode
User Guidelines
Lower route distance values are preferred when determining the best route.
Example
The following example sets the default distance to 80.
console(config)#ipv6 route distance 80
Layer 3 Routing Commands 1538
ipv6 unicast-routing
Use the ipv6 unicast-routing command in Global Configuration mode to
enable forwarding of IPv6 unicast datagrams.
Syntax
ipv6 unicast-routing
no ipv6 unicast-routing
Default Configuration
Disabled is the default configuration.
Command Mode
Global Configuration mode
User Guidelines
This command has no user guidelines.
Example
The following example globally enables Ipv6 unicast datagram forwarding.
console(config)#ipv6 unicast-routing
console(config)#no ipv6 unicast-routing
ipv6 unreachables
Use the ipv6 unreachables command to enable the generation of ICMPv6
Destination Unreachable messages. Use the no form of this command to
prevent the generation of ICMPv6 Destination Unreachable messages.
Syntax
ipv6 unreachables
no ipv6 unreachables
Default Configuration
ICMPv6 Destination Unreachable messages are enabled by default.
Layer 3 Routing Commands 1539
Command Mode
Interface Configuration (VLAN) mode
User Guidelines
There are no user guidelines for this command.
Example
console(config-if-vlan10)#ipv6 unreachables
show ipv6 brief
Use the show ipv6 brief command to display the IPv6 status of forwarding
mode and IPv6 unicast routing mode.
Syntax
show ipv6 brief
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
This command has no user guidelines.
Example
The following example displays the IPv6 status of forwarding mode and IPv6
unicast routing mode.
console#show ipv6 brief
IPv6 Unicast Routing Mode.................... Enable
IPv6 Hop Limit............................... Unconfigured
ICMPv6 Rate Limit Error Interval............. 1000 msec
ICMPv6 Rate Limit Burst Size................. 100 messages
Layer 3 Routing Commands 1540
show ipv6 interface
Use the show ipv6 interface command to show the usability status of IPv6
interfaces. The output of the command includes the method of assignment
for each IPv6 address that is either autoconfigured or leased from a DHCP
server. Global addresses with no annotation are assumed to be manually
configured.
Syntax
show ipv6 interface [brief] [loopback loopback-id | tunnel tunnel-id | vlan
vlan-id [prefix]]
• loopback-id—Valid loopback interface ID
• tunnel-id—Valid tunnel interface ID
• vlan-id—Valid VLAN ID
•prefix—Display IPv6 Interface Prefix Information.
Default Configuration
Displays all IPv6 interfaces.
Command Mode
User Exec, Privileged Exec modes, Global Configuration mode and all
Configuration submodes
User Guidelines
The Method field contains one of the following values.
Field Description
Auto The IPv6 address is automatically generated using IPv6 auto
address configuration (RFC 2462).
Config The IPv6 address is manually configured.
DHCP The IPv6 address is leased from a DHCP server.
TENT Tentative address.
Layer 3 Routing Commands 1541
The long form of the command includes the same annotations and shows
whether address autoconfiguration or DHCP client are enabled on the
interface. When the interface acts as a host interface, the output also shows
the default gateway on the interface, if one exists.
Examples
The following example shows the method of assignment for each IPv6 address
that is either autoconfigured or leased from a DHCP server.
console#show ipv6 interface
Oper.
Interface Mode IPv6 Address/Length
---------- -------- ---------------------------------
Vl3 Enabled FE80::211:88FF:FE2A:3E3C/128
2033::211:88FF:FE2A:3E3C/64
Vl5 Enabled FE80::211:88FF:FE2A:3E3C/128
2017::A42A:26DB:1049:43DD/128 [DHCP]
Vl7 Enabled FE80::211:88FF:FE2A:3E3C/128
2001::211:88FF:FE2A:3E3C/64 [AUTO]
Vl9 Disabled FE80::211:88FF:FE2A:3E3C/128 [TENT]
The Method column shows one of the following values:
• Auto – The IPv6 address was automatically generated using IPv6 auto
address configuration (RFC 2462)
• Config – The IPv6 address was manually configured.
• DHCP – The IPv6 address was leased from a DHCP server.
• TENT – Tentative address.
The following example displays the long form of the command, and indicates
whether address autoconfiguration or DHCP client are enabled on the
interface. When the interface acts as a host interface, the output also shows
the default gateway on the interface, if one exists.
console#show ipv6 interface vlan2
IPv6 is enabled
IPv6 Prefix is ................................ FE80::211:88FF:FE2A:3E3C/128
2017::A42A:26DB:1049:43DD/128
[DHCP]
Routing Mode................................... Enabled
Administrative Mode............................ Enabled
IPv6 Routing Operational Mode.................. Enabled
Bandwidth...................................... 100000 Kbps
Interface Maximum Transmit Unit................ 1500
Router Duplicate Address Detection Transmits... 1
Address Autoconfigure Mode..................... Disabled
Layer 3 Routing Commands 1542
Address DHCP Mode.............................. Enabled
Router Advertisement NS Interval............... 0
Router Advertisement Lifetime.................. 1800
Router Advertisement Reachable Time............ 0
Router Advertisement Interval.................. 600
Router Advertisement Managed Config Flag....... Disabled
Router Advertisement Other Config Flag......... Disabled
Router Advertisement Router Preference......... medium
Router Advertisement Suppress Flag............. Disabled
IPv6 Destination Unreachables.................. Enabled
IPv6 Default Router............................ fe80::213:c4ff:fedb:6c42
show ipv6 mld groups
The show ipv6 mld groups command is used to display information about
multicast groups that MLD reported. The information is displayed only when
MLD is enabled on at least one interface. If MLD was not enabled on any
interfaces, there is no group information to be displayed.
Syntax
show ipv6 mld groups {group-address | vlan vlan-id}
• group-address — The group address to display.
• vlan-id — A valid VLAN id.
Default Configuration
There is no default configuration for this command.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
The following fields are displayed as a table when vlan vlan-id is specified:
Field Description
Number of (*, G)
entries
Displays the number of groups present in the MLD Table.
Layer 3 Routing Commands 1543
If vlan vlan-id is not specified, the following fields are displayed for each
multicast group and each interface:
The following table is displayed to indicate all the sources associated with this
group:
Number of (S, G)
entries
Displays the number of include and exclude mode sources
present in the MLD Table.
Group Address The address of the multicast group.
Interface Interface through which the multicast group is reachable.
Uptime Time elapsed in seconds since the multicast group has been
known.
Expiry Time Time left in seconds before the entry is removed from the
MLD membership table.
Field Description
Group Address The address of the multicast group.
Interface Interface through which the multicast group is reachable.
Uptime Time elapsed in seconds since the multicast group has been
known.
Expiry Time Time left in seconds before the entry is removed from the MLD
membership table of this interface.
Last Reporter The IP Address of the source of the last membership report
received for this multicast group address on that interface.
Filter Mode The filter mode of the multicast group on this interface. The
values it can take are INCLUDE and EXCLUDE.
Compatibility
Mode
The compatibility mode of the multicast group on this interface.
The values it can take are MLDv1 and MLDv2.
Version 1 Host
Timer
The time remaining until the router assumes there are no longer
any MLD version-1 Hosts on the specified interface.
Field Description
Source Address The IP address of the source.
Uptime Time elapsed in seconds since the source has been known.
Layer 3 Routing Commands 1544
Example
console#show ipv6 mld groups ff1e::5
Interface..................................... vlan 6
Group Address................................ FF1E::5
Last Reporter................... FE80::200:FF:FE00:22
Up Time (hh:mm:ss).......................... 00:03:43
Expiry Time (hh:mm:ss)......................... -----
Filter Mode..........................................Include
Version1 Host Timer............................ -----
Group compat mode.............................. v2
Source Address ExpiryTime
----------------- -----------
4001::6 00:03:15
4001::7 00:03:15
4001::8 00:03:15
console#show ipv6 mld groups vlan 6
Group Address................................ FF1E::1
Interface..................................... vlan 6
Up Time (hh:mm:ss).......................... 00:04:23
Expiry Time (hh:mm:ss)........................ ------
Group Address................................ FF1E::2
Interface..................................... vlan 6
Up Time (hh:mm:ss).......................... 00:04:23
Expiry Time (hh:mm:ss)........................ ------
Group Address................................ FF1E::3
Interface..................................... vlan 6
Up Time (hh:mm:ss).......................... 00:04:23
Expiry Time (hh:mm:ss)........................ ------
Group Address................................ FF1E::4
Interface..................................... vlan 6
Up Time (hh:mm:ss).......................... 00:04:23
Expiry Time (hh:mm:ss)........................ ------
show ipv6 mld interface
The show ipv6 mld interface command is used to display MLD related
information for an interface.
Expiry Time Time left in seconds before the entry is removed.
Layer 3 Routing Commands 1545
Syntax
show ipv6 mld interface { vlan vlan-id | all}
• vlan-id — A valid VLAN id.
Default Configuration
There is no default configuration for this command.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
The following information is displayed for the specified interface:
Field Description
Interface The interface number in unit/slot/port format.
MLD Global
Admin Mode
This field displays the configured global administrative status of
MLD.
MLD Interface
Admin Mode
This field displays the configured interface administrative status
of MLD.
MLD Operational
Mode
The operational status of MLD on the interface.
MLD Version This field indicates the version of MLD configured on the
interface.
Query Interval This field indicates the configured query interval for the
interface.
Query Max
Response Time
This field indicates the configured maximum query response
time (in seconds) advertised in MLD queries on this interface.
Robustness This field displays the configured value for the tuning for the
expected packet loss on a subnet attached to the interface.
Startup Query
Interval
This value indicates the configured interval between General
Queries sent by a Querier on startup.
Startup Query
Count
This value indicates the configured number of Queries sent out
on startup, separated by the Startup Query Interval.
Layer 3 Routing Commands 1546
The following information is displayed if the operational mode of the MLD
interface is enabled:
Example
console#show ipv6 mld interface vlan 2
Interface................................... vlan 2
MLD Global Admin Mode....................... Enabled
MLD Interface Admin Mode.................... Disabled
MLD Operational Mode........................ Disabled
MLD Version................................. 2
Query Interval (secs)....................... 100
Query Max Response Time(milli-secs)........ 1111
Robustness.................................. 2
Startup Query Interval (secs).............. 31
Last Member
Query Interval
This value indicates the configured Maximum Response Time
inserted into Group-Specific Queries sent in response to Leave
Group messages.
Last Member
Query Count
This value indicates the configured number of Group-Specific
Queries sent before the router assumes that there are no local
members.
Field Description
Querier Status This value indicates whether the interface is a MLD querier or
non-querier on the subnet with which it is associated.
Querier Address The IP address of the MLD querier on the subnet the interface
with which it is associated.
Querier Up Time Time elapsed in seconds since the querier state has been
updated.
Querier Expiry
Time
Time left in seconds before the Querier losses its title as querier.
Wrong Version
Queries
Indicates the number of queries received whose MLD version
does not match the MLD version of the interface.
Number of Joins The number of times a group membership has been added on
this interface.
Number of Leaves The number of times a group membership has been removed on
this interface.
Number of Groups The current number of membership entries for this interface.
Layer 3 Routing Commands 1547
Startup Query Count......................... 2
Last Member Query Interval (milli-secs)..... 1111
Last Member Query Count..................... 2
show ipv6 mld host-proxy
Use the show ipv6 mld host-proxy command to display a summary of the host
interface status parameters.
Syntax
show ipv6 mld host-proxy
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
Default Configuration
There is no default configuration for this command.
User Guidelines
The command displays the following parameters only when you enable MLD
Proxy:
Field Description
Interface Index The interface number of the MLD Proxy interface.
Admin Mode Indicates whether MLD Proxy is enabled or disabled. This is a
configured value.
Operational Mode Indicates whether MLD Proxy is operationally enabled or
disabled. This is a status parameter.
Version The present MLD host version that is operational on the proxy
interface.
Number of
Multicast Groups
The number of multicast groups that are associated with the
MLD-Proxy interface.
Unsolicited Report
Interval
The time interval at which the MLD-Proxy interface sends
unsolicited group membership reports.
Layer 3 Routing Commands 1548
Example
console#show ipv6 mld host-proxy
Interface Index.............................. vlan 10
Admin Mode................................... Enabled
Operational Mode............................. Enabled
Version............................................ 3
Num of Multicast Groups............................ 0
Unsolicited Report Interval........................ 1
Querier IP Address on Proxy Interface..... fe80::1:2:5
Older Version 1 Querier Timeout............. 00:00:00
Proxy Start Frequency...............................1
show ipv6 mld host-proxy groups
Use the show ipv6 mld host-proxy groups command to display information
about multicast groups that the MLD Proxy reported.
Syntax
show ipv6 mld host-proxy groups
Default Configuration
There is no default configuration for this command.
Command Mode
Privileged Exec, Global Configuration mode and all Configuration submodes
User Guidelines
The following parameters are displayed by this command:
Querier IP Address
on Proxy Interface
The IP address of the Querier, if any, in the network attached to
the upstream interface (MLD-Proxy interface).
Older Version 1
Querier Timeout
The interval used to timeout the older version 1 queriers.
Proxy Start
Frequency
The number of times the MLD-Proxy has been stopped and
started.
Field Description
Interface The MLD Proxy interface.
Layer 3 Routing Commands 1549
Example
console#show ipv6 mld host-proxy groups
Interface................................ vlan 10
Group Address Last Reporter Up Time Member State Filter Mode Sources
------------- -------------- ---------- ----------------- ------------ -----
--
FF1E::1 FE80::100:2.3 00:01:40 DELAY_MEMBER Exclude 2
FF1E::2 FE80::100:2.3 00:02:40 DELAY_MEMBER Include 1
FF1E::3 FE80::100:2.3 00:01:40 DELAY_MEMBER Exclude 0
FF1E::4 FE80::100:2.3 00:02:44 DELAY_MEMBER Include 4
show ipv6 mld host-proxy groups detail
Use the show ipv6 mld host-proxy groups detail command to display
information about multicast groups that MLD Proxy reported.
Syntax
show ipv6 mld host-proxy groups detail
Default Configuration
There is no default configuration for this command.
Group Address The IP address of the multicast group.
Last Reporter The IP address of the host that last sent a membership report for the
current group on the network attached to the MLD-Proxy interface
(upstream interface).
Up Time (in
secs)
The time elapsed in seconds since last created.
Member State Possible values are:
• Idle_Member — The interface has responded to the latest group
membership query for this group.
• Delay_Member — The interface is going to send a group
membership report to respond to a group membership query for
this group.
Filter Mode Possible values are Include or Exclude.
Sources The number of sources attached to the multicast group.
Layer 3 Routing Commands 1550
Command Mode
Privileged Exec, Global Configuration mode and all Configuration submodes
User Guidelines
The following parameters are displayed by this command:
Example
console#show ipv6 mld host-proxy groups
Interface................................ vlan 10
Group Address Last Reporter Up Time Member State Filter Mode
Sources
------------- ---------------- --------- ----------------- ------------- ---
FF1E::1 FE80::100:2.3 244 DELAY_MEMBER Exclude 2
Group Source List Expiry Time
------------------ ---------------
Field Description
Interface The interface number of the MLD-Proxy.
Group Address The IP address of the multicast group.
Last Reporter The IP address of the host that last sent a membership report for
the current group on the network attached to the MLD Proxy
interface (upstream interface).
Up Time (in
secs)
The time elapsed in seconds since last created.
Member State Possible values are:
• Idle_Member — The interface has responded to the latest group
membership query for this group.
• Delay_Member — The interface is going to send a group
membership report to respond to a group membership query for
this group.
Filter Mode Possible values are Include or Exclude.
Sources The number of sources attached to the multicast group.
Group Source
List
The list of IP addresses of the sources attached to the multicast
group.
Expiry Time The time left for a source to get deleted.
Layer 3 Routing Commands 1551
2001::1 00:02:40
2001::2 --------
FF1E::2 FE80::100:2.3 243 DELAY_MEMBER Include 1
Group Source List Expiry Time
------------------ ---------------
3001::1 00:03:32
3002::2 00:03:32
FF1E::3 FE80::100:2.3 328 DELAY_MEMBER Exclude 0
FF1E::4 FE80::100:2.3 255 DELAY_MEMBER Include 4
Group Source List Expiry Time
------------------ ---------------
4001::1 00:03:40
5002::2 00:03:40
4001::2 00:03:40
5002::2 00:03:40
show ipv6 mld host-proxy interface
Use the show ipv6 mld-proxy interface command to display a detailed list of
the host interface status parameters.
Syntax
show ipv6 mld host-proxy interface
Default Configuration
There is no default configuration for this command.
Command Mode
Privileged Exec, Global Configuration mode and all Configuration submodes
User Guidelines
The following parameters are displayed only when MLD Proxy is enabled:
The column headings of the table associated with the interface are as follows:
Parameter Description
Interface The MLD Proxy interface.
Layer 3 Routing Commands 1552
Example
console#show ipv6 mld host-proxy interface
Interface................................ vlan 10
Ver Query Rcvd Report Rcvd Report Sent Leave Rcvd Leave Sent
-----------------------------------------------------------
1 2 0 0 0 2
2 3 0 4 ----- -----
show ipv6 mld traffic
The show ipv6 mld traffic command is used to display MLD statistical
information for the router.
Syntax
show ipv6 mld traffic
Default Configuration
There is no default configuration for this command.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
The following fields are displayed:
Parameter Description
Ver The MLD version.
Query Rcvd Number of MLD queries received.
Report Rcvd Number of MLD reports received.
Report Sent Number of MLD reports sent.
Leaves Rcvd Number of MLD leaves received. Valid for version 2 only.
Leaves Sent Number of MLD leaves sent on the Proxy interface. Valid for version 2
only.
Layer 3 Routing Commands 1553
Example
console#show ipv6 mld traffic
Valid MLD Packets Received..................... 52
Valid MLD Packets Sent......................... 7
Queries Received............................... 0
Queries Sent................................... 7
Reports Received............................... 52
Reports Sent................................... 0
Leaves Received................................ 0
Leaves Sent.................................... 0
Bad Checksum MLD Packets....................... 0
Malformed MLD Packets.......................... 0
show ipv6 nd raguard policy
Use this command to display the RA Guard policy on all interfaces for which
it is enabled.
Field Description
Valid MLD Packets
Received
The number of valid MLD packets received by the
router.
Valid MLD Packets Sent The number of valid MLD packets sent by the router.
Queries Received The number of valid MLD queries received by the
router.
Queries Sent The number of valid MLD queries sent by the router.
Reports Received The number of valid MLD reports received by the
router.
Reports Sent The number of valid MLD reports sent by the router.
Leaves Received The number of valid MLD leaves received by the router.
Leaves Sent The number of valid MLD leaves sent by the router.
Bad Checksum MLD
Packets
The number of bad checksum MLD packets received by
the router.
Malformed MLD Packets The number of malformed MLD packets received by the
router.
Layer 3 Routing Commands 1554
Syntax
show ipv6 nd raguard policy
Default Configuration
By default, no RA guard policies are applied to any interface.
Command Mode
Privileged Exec, Global Configuration
User Guidelines
This command has no user guidelines.
Command History
Introduced in version 6.2.0.1 firmware.
Example
The following example configures an unnamed RA Guard policy to drop all
RA advertisements and router redirect messages on interface Gi1/0/1 (VLAN
10). The configured interfaces are shown.
console(config)#vlan 10
console(config-vlan101)#exit
console(config)#interface vlan 10
console(config-if-vlan10)#ipv6 enable
console(config-if-vlan10)#exit
console(config)#ipv6 unicast-routing
console(config)#interface gi1/0/1
console(config-if-Gi1/0/1)#switchport access vlan 10
console(config-if-Gi1/0/1)#exit
console(config)#interface gi1/0/1
console(config-if-Gi1/0/1)#ipv6 nd raguard attach-policy
console(config-if-Gi1/0/1)#show ipv6 nd raguard policy
Ipv6 RA-Guard Configured Interfaces
Interface Role
--------------- -------
Gi1/0/1 Host
Layer 3 Routing Commands 1555
show ipv6 neighbors
Use the show ipv6 neighbors command to display information about the IPv6
neighbors.
Syntax
show ipv6 neighbors
Default Configuration
This command has no default configuration.
Command Mode
User Exec, Privileged Exec modes, Global Configuration mode and all
Configuration submodes
User Guidelines
This command has no user guidelines.
Example
The following example displays information about the IPv6 neighbors.
console(config)#show ipv6 neighbors
Neighbor Last
IPv6 Address MAC Address isRtr State Updated
Interface
-------------------- ----------------- ----- ------- ---------
show ipv6 protocols
Use the show ipv6 protocols command to display information about the
configured IPv6 routing protocols
Syntax
show ipv6 protocols
Default Configuration
There is no default configuration for this command.
Layer 3 Routing Commands 1556
Command Mode
Privileged Exec mode, Global Configuration mode, all Configuration
submodes.
User Guidelines
There are no user guidelines for this command.
Example
console#show ipv6 protocols
Routing Protocol .............................. BGP
BGP Router ID ................................. 255.255.255.255
Local AS Number ............................... 1
BGP Admin Mode ................................ Enable
Maximum Paths ................................. Internal 3, External 2
Always compare MED ............................ TRUE
Maximum AS Path Length ........................ 100
Fast Internal Failover ........................ Disable
Fast External Failover ........................ Disable
Distance ...................................... Ext 126, Int 127, Local 126
Prefix List In ................................ none
Prefix List Out ............................... none
Redistributing:
Source Metric Dist List Route Map
--------- ---------- -------------------------------- ----------------------
----------
connected
Networks Originated:
Neighbors:
2001::1
Filter List In ............................ 1
Filter List Out ........................... 1
Routing Protocol .............................. OSPFv3
Router ID ..................................... 0.0.0.0
OSPF Admin Mode ............................... Disable
Maximum Paths ................................. 4
Routing for networks .......................... Not Configured
Distance ...................................... Intra 110 Inter 110 Ext 110
Default Route Advertise ....................... Disabled
Always ........................................ False
Metric ........................................ Not configured
Metric Type ................................... External Type 2
Layer 3 Routing Commands 1557
Number of Active Areas ........................ None
show ipv6 route
Use the show ipv6 route command in User Exec or Privileged Exec mode to
display the IPv6 routing table. The output of the command also displays the
IPv6 address of the default gateway and the default route associated with the
gateway.
Syntax
show ipv6 route [ipv6-address | ipv6-prefix/prefix-length | protocol |
interface-type interface-number] [best]
•ipv6-address—Specifies an IPv6 address for which the best-matching
route would be displayed.
•protocol—Specifies the protocol that installed the routes. Is one of the
following keywords: connected, ospf, static.
• ipv6-prefix/ prefix-length—Specifies an IPv6 network for which the
matching route would be displayed.
• interface-type interface-number—Valid IPv6 interface. Specifies that the
routes with next-hops on the selected interface be displayed. Supported
interface types are VLAN, Tunnel, and Loopback.
•best—Specifies that only the best routes are displayed. If the connected
keyword is selected for protocol, the best option is not available because
there are no best or non-best connected routes.
Default Configuration
This command has no default configuration.
Command Mode
User Exec, Privileged Exec modes, Global Configuration mode and all
Configuration submodes
User Guidelines
This command has no user guidelines.
Layer 3 Routing Commands 1558
Example
The following example displays the IPv6 address of the default gateway and
the default route associated with the gateway.
console(config)#show ipv6 route
IPv6 Routing Table - 0 entries
Route Codes: C - connected, S - static
O - OSPF Intra, OI - OSPF Inter, OE1 - OSPF Ext 1, OE2 - OSPF Ext 2
ON1 - OSPF NSSA Ext Type 1, ON2 - OSPF NSSA Ext Type 2
Default gateway is 10.1.20.1
S 0.0.0.0/0 [254/0] via 10.1.20.1
C 10.1.20.0/24 [0/1] directly connected, vlan2
C 20.1.20.0/24 [0/1] directly connected, vlan4
show ipv6 route preferences
Use the show ipv6 route preferences command to show the preference value
associated with the type of route. Lower numbers have a greater preference.
Syntax
show ipv6 route preferences
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
This command has no user guidelines.
Example
The following example shows the preference value associated with the type of
route.
console#show ipv6 route preferences
Local.......................................... 0
Layer 3 Routing Commands 1559
Static......................................... 1
OSPF Intra-area routes......................... 110
OSPF Inter-area routes......................... 110
OSPF External routes........................... 110
BGP External................................... 20
BGP Internal................................... 200
BGP Local...................................... 200
show ipv6 route summary
Use the show ipv6 route summary command to display a summary of the
routing table for all routes, including best and non-best routes. Use best to
display the count summary for only best routes.
Syntax
show ipv6 route summary [best]
•best — Displays the count summary for only best routes.
Default Configuration
This command has no default configuration.
Command Mode
User Exec, Privileged Exec modes, Global Configuration mode and all
Configuration submodes
User Guidelines
This command has no user guidelines.
Command History
Updated in version 6.3.0.1 firmware.
Example
The following example displays a summary of the routing table.
console#show ipv6 route summary
Connected Routes...............................32
Static Routes.................................. 0
6To4 Routes.................................... 0
BGP Routes..................................... 10
Layer 3 Routing Commands 1560
External..................................... 0
Internal..................................... 10
Local........................................ 0
OSPF Routes.................................... 0
Intra Area Routes............................ 0
Inter Area Routes............................ 0
External Type-1 Routes....................... 0
External Type-2 Routes....................... 0
Reject Routes.................................. 0
Total routes................................... 0
show ipv6 snooping counters
Use this command to display the RA guard dropped packet counters.
Syntax
show ipv6 snooping counters [interface interface-id ]
• interface-id—An interface identifier (physical or port-channel).
Default Configuration
By default, no RA guard policies are applied to any interface.
Command Mode
Privileged Exec, Global Configuration, and all submodes
User Guideline
There are no user guidelines for this command.
Command History
Introduced in version 6.2.0.1 firmware.
Example
console(config-if-vlan10)#show ipv6 snooping counters
IPv6 Dropped Messages
RA (Router Advertisement – ICMP type 134),
REDIR (Router Redirect – ICMP type 137)
Interface RA REDIR
--------------- ---------- ----------
Gi1/0/1 0 0
Layer 3 Routing Commands 1561
Gi1/0/2 431 6599
show ipv6 traffic
Use the show ipv6 traffic command in User Exec mode to show traffic and
statistics for IPv6 and ICMPv6.
Syntax
show ipv6 traffic [vlan vlan-id | tunnel tunnel-id | loopback loopback-id]
• vlan-id — Valid VLAN ID, shows information about traffic on a specific
interface or, without the optional parameter, shows information about
traffic on all interfaces.
• tunnel-id — Tunnel identifier. (Range: 0-7)
• loopback-id — Loopback identifier. (Range: 0-7)
Default Configuration
This command has no default configuration.
Command Mode
User Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
This command has no user guidelines.
Examples
The following examples show traffic and statistics for IPv6 and ICMPv6, first
for all interfaces and an individual VLAN.
console> show ipv6 traffic
IPv6 STATISTICS
Total Datagrams Received........................................... 0
Received Datagrams Locally
Delivered.......................................... 0
Received Datagrams Discarded Due To Header Errors.. 0
Received Datagrams Discarded Due To MTU............ 0
Received Datagrams Discarded Due To No Route....... 0
Received Datagrams With Unknown Protocol........... 0
Received Datagrams Discarded Due To Invalid Address.0
Layer 3 Routing Commands 1562
Received Datagrams Discarded Due To Truncated Data. 0
Received Datagrams Discarded Other................. 0
Received Datagrams Reassembly Required............. 0
Datagrams Successfully Reassembled................. 0
Datagrams Failed To Reassemble..................... 0
Datagrams Forwarded................................ 0
Datagrams Locally Transmitted...................... 0
Datagrams Transmit Failed.......................... 0
Datagrams Successfully Fragmented.................. 0
Datagrams Failed To Fragment....................... 0
Fragments Created.................................. 0
Multicast Datagrams Received....................... 0
Multicast Datagrams Transmitted.................... 0
console> show ipv6 traffic vlan 11
Interface ........................................ 11
IPv6 STATISTICS
Total Datagrams Received........................... 0
Received Datagrams Locally Delivered............... 0
Received Datagrams Discarded Due To Header Errors.. 0
Received Datagrams Discarded Due To MTU............ 0
Red Datagrams Discarded Due To No Route............ 0
Received Datagrams With Unknown Protocol........... 0
Received Datagrams Discarded Due To Invalid Address 0
Received Datagrams Discarded Due To Truncated Data. 0
Received Datagrams Discarded Other................. 0
Received Datagrams Reassembly Required............. 0
Datagrams Successfully Reassembled................. 0
Datagrams Failed To Reassemble..................... 0
Datagrams Forwarded................................ 0
Datagrams Locally Transmitted...................... 0
Datagrams Transmit Failed.......................... 0
Datagrams Successfully Fragmented.................. 0
Datagrams Failed To Fragment....................... 0
Fragments Created.................................. 0
Multicast Datagrams Received....................... 0
Multicast Datagrams Transmitted.................... 0
show ipv6 vlan
Use the show ipv6 vlan command to display IPv6 VLAN routing interface
addresses.
Syntax
show ipv6 vlan
Layer 3 Routing Commands 1563
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
This command has no user guidelines.
Example
The following example displays IPv6 VLAN routing interface addresses.
console#show ipv6 vlan
MAC Address used by Routing VLANs: 00:02:BC:00:30:68
VLAN ID IPv6 Address/Prefix Length
------- ---------------------------------------
1
traceroute ipv6
Use the traceroute ipv6 command to determine the path and measure the
transit delay to another device in the network. The transit delays are
measured for each hop in the network.
Syntax
traceroute ipv6 {ipv6-address|hostname} [count 1-10] [init-ttl 1-255]
[interval 1-60] [max-fail 0-255] [max-ttl 1-255] [port 1-65535] [size 0-
39936] [source {ipv6-address | loopback loopback-id| vlan vlan-id}]
• ipv6-address | hostname—The target IP address or host to ping.
• out-of-band—Send the ping over the out-of-band interface.
• vlan-id—The VLAN over which to send the echo request.
• loopback-id—Use the source address from the selected loopback. (Range
0-7)
• count—The number of echo request packets to send for each ttl value.
(Range 1-10. Default 3).
Layer 3 Routing Commands 1564
• interval—The time (in seconds) between successive echo requests.
Default 3.
• init-ttl—The initial TTL sent in the ICMP echo request packets (Range 1-
255. Default 1).
• max-ttl—The maximum ttl sent in the ICMP echo request packet (Range
1-255, default 30). Must be equal to or larger than init-ttl.
• port—The destination UDP port of the probe. (Range 1-65535).
• size—The packet size padding in bytes. (Range 0-39936, default 0).
• source—Use the specified source IP address, loopback address, VLAN
address, tunnel or out-of-band interface address in the transmitted
packets.
Default Configuration
There is no default configuration for this command.
Command Mode
Privileged Exec and User Exec modes
User Guidelines
Traceroute operates by sending a sequence of Internet Control Message
Protocol (ICMP) echo request packets. The time-to-live (TTL) value, is used
in determining the intermediate routers through which the packet flows
toward the destination address. Routers decrement a packet’s TTL value and
discard packets whose TTL equals 0. On discarding a packet, the router
returns an ICMP time exceeded message to the source.
Example
(console)# traceroute ipv6 2001::2 init-ttl 1 max-ttl 4 max-fail 0 interval 1
count 3 port 33434 size 43
Traceroute to 2001::2, 4 hops max, 43 byte packets:
1 2001::2 708 msec 41 msec 11 msec
2 2001::2 12 msec 13 msec 12 msec
3 2001::2 14 msec 9 msec 11 msec
Layer 3 Routing Commands 1565
Loopback Interface Commands
Dell EMC Networking N1500/N2000/N3000/N3100/N4000 Series
Switches
Dell EMC Networking provides for the creation, deletion, and management
of loopback interfaces. They are dynamic interfaces that are created and
deleted by user configuration.
A loopback interface is always expected to be up. As such, it provides a means
to configure a stable IP address on the device which may be referred to by
other switches in the network. This interface never transmits data but may
receive data. It is typically expected to be used by routing protocols.
Loopback interfaces will respond to pings.
Loopback interfaces are not supported on the N1100-ON Series switches.
Commands in this Section
This section explains the following commands:
interface loopback
Use the interface loopback command in Global Configuration mode to enter
the Interface Loopback configuration mode.
Syntax
interface loopback loopback-id
no interface loopback loopback-id
• loopback-id — Loopback identifier. (Range: 0-7)
Default Configuration
This command has no default configuration.
Command Mode
Global Configuration mode.
interface loopback show interfaces loopback
Layer 3 Routing Commands 1566
User Guidelines
This command has no user guidelines.
Example
The following example enters the Interface Loopback 1 configuration mode.
console(config)#interface loopback 1
console(config-if-loopback0)#ip address 192.168.22.1 255.255.255.255
console(config-if-loopback0)#exit
console(config)#ex
console#ping 192.168.22.1
Pinging 192.168.22.1 with 0 bytes of data:
Reply From 192.168.22.1: icmp_seq = 0. time <10 msec.
Reply From 192.168.22.1: icmp_seq = 1. time <10 msec.
Reply From 192.168.22.1: icmp_seq = 2. time <10 msec.
Reply From 192.168.22.1: icmp_seq = 3. time <10 msec.
show interfaces loopback
Use the show interfaces loopback command to display information about one
or all configured loopback interfaces.
Syntax
show interfaces loopback [loopback-id]
• loopback-id — Loopback identifier. (Range: 0-7)
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
Loopback interfaces are not supported on the N1100-ON Series switches.
Layer 3 Routing Commands 1567
Examples
The following examples display information about configured loopback
interfaces.
console# show interfaces loopback
Loopback Id Interface IP Address Received Packets Sent Packets
----------- --------- ---------- ---------------- ------------
1 loopback 1 0.0.0.0 0 0
console# show interfaces loopback 1
Interface Link Status.......................... Up
IP Address..................................... 0.0.0.0 0.0.0.0
MTU size....................................... 1500 bytes
Layer 3 Routing Commands 1568
IP Multicast Commands
Dell EMC Networking N3000/N3100/N4000 Series Switches
The Dell Network N1500/N2000/N2100-ON series supports limited routing and
multicast capabilities. See the Users Configuration Guide section “Feature
Limitations and Platform Constants” for supported capabilities.
The Dell EMC Networking Multicast component is best suited for video and
audio traffic requiring multicast packet control for optimal operation. The
Multicast component includes support for IGMPv2, IGMPv3, PIM-DM,
PIM-SM, and DVMRP. Communication from point to multipoint is called
Multicasting. The source host (point) transmits a message to a group of zero
or more hosts (multipoint) that are identified by a single IP destination
address. Although the task may be accomplished by sending unicast (point-
to-point) messages to each of the destination hosts, multicasting is the more
desirable method for this type of transmission. A multicast message is
delivered to all members of its destination host group with the same best-
efforts reliability as regular unicast IP messages. The message is not
guaranteed to arrive intact at all members of the destination group or in the
same order relative to other messages. The advantages of multicasting are
explained below:
• Network Load Decrease: A number of applications are required to transmit
packets to hundreds of stations. The packets transmitted to these stations
share a group of links on their paths to their destinations. Multicast
transmission can conserve much needed network bandwidth, since
multicasting transmission requires the transmission of only a single packet
by the source and replicates this packet only if it is necessary (at forks of
the multicast delivery tree).
• Discovery of resources: A number of applications require a host to find out
whether a certain type of service is available. Internet protocols such as
Bootstrap Protocol (BOOTP) and Open Shortest Path First (OSPF)
protocol are among these applications. Using multicast messages and
sending the query to those hosts which are potentially capable of providing
this service speeds the gathering of this information considerably.
Although a group of hosts residing on the same network are the intended
target for the majority of multicast packets, this limitation is not
Layer 3 Routing Commands 1569
mandatory. Discovering the local domain-name server is the intended use
of multicast messages on remote networks when there is less than one
server per network.
• Applications used for datacasting: Since multimedia transmission has
become increasingly popular, multicast transmission use has increased.
Multicast transmission may be used to efficiently accommodate this type
of communication. For instance, the audio and video signals are captured,
compressed and transmitted to a group of receiving stations. Instead of
using a set of point-to-point connections between the participating nodes,
multicasting can be used for distribution of the multimedia data to the
receivers. The participating stations are free to join or leave an audio-cast
or a video-cast as needed. The variable membership maintenance is
managed efficiently through multicasting.
Commands in this Section
This section explains the following commands:
clear ip mroute
Use this command to selectively clear IPv4 multicast entries from the cache.
clear ip mroute ip pim dense-mode show ip mfc show ip mroute static
arp ip pim dr-priority show ip multicast show ip pim
ip mroute ip pim hello-
interval
show ip pim
boundary
show ip pim bsr-router
ip multicast-routing ip pim join-prune-
interval
show ip multicast
interface
show ip pim interface
ip multicast ttl-
threshold
ip pim rp-address show ip mroute show ip pim neighbor
ip pim ip pim rp-candidate show ip mroute
group
show ip pim rp-hash
ip pim bsr-border ip pim sparse-mode show ip mroute
source
show ip pim rp
mapping
ip pim bsr-
candidate
ip pim ssm
–
show ip pim statistics
Layer 3 Routing Commands 1570
Syntax
clear ip mroute { * | group-address [ source-address ] }
• * —Deletes all IPv4 entries from the IP multicast routing table.
• group-address— IP address of the multicast group.
• source-address—IP address of a multicast source that is sending multicast
traffic to the group.
Default configuration
There is no default configuration for this command.
Command Mode
User Exec, Privileged Exec modes, Global Configuration mode and all
Configuration submodes
User Guidelines
When a * entry is deleted through this command, it cannot be formed again
until it is expired in IGMP and started again via the host. The default mcache
time-out is 210 seconds.
Example
The following example deletes all entries from the IP multicast routing table:
console# clear ip mroute *
The following example deletes from the IP multicast routing table all entries
that match the given multicast group address (239.1.2.1), irrespective of
which source is sending for this group:
console# clear ip mroute 239.1.2.1
The following example deletes from the IP multicast routing table all entries
that match the given multicast group address (239.1.2.1) and the multicast
source address (192.168.10.10):
console# clear ip mroute 239.1.2.1 192.168.10.10
Layer 3 Routing Commands 1571
ip multicast boundary
Use the ip multicast boundary command in Interface Configuration mode to
add an administrative scope multicast boundary specified by groupipaddr and
mask for which this multicast administrative boundary is applicable.
groupipaddr is a group IP address and mask is a group IP mask.
Syntax
ip multicast boundary groupipaddr mask
no ip multicast boundary groupipaddr
• groupipaddr — IP address of multicast group. Valid range is 239.0.0.0 to
239.255.255.255.
• mask—The group address mask in dotted quad notation.
Default Configuration
This command has no default configuration.
Command Mode
Interface Configuration (VLAN) mode
User Guidelines
The administratively scoped multicast address range is 239.0.0.0 to
239.255.255.255
Example
The following example adds an administrative scope multicast boundary.
console(config)#interface vlan 15
console(config-if-vlan15)#ip multicast boundary 239.5.5.5 255.255.255.255
ip mroute
Use the ip mroute command to create a static multicast route for a source
range. Use the no form of this command to delete a static multicast route.
Syntax
ip mroute source-address mask rpf-address preference
Layer 3 Routing Commands 1572
no ip mroute source-address mask
• source-address — The IP address of the multicast data source.
• mask — The IP subnet mask of the multicast data source.
• rpf-address — The IP address of the next hop towards the source.
• preference — The cost of the route (Range: 1 - 255).
Default Configuration
There is no default configuration for this command.
Command Mode
Global Configuration mode
User Guidelines
The source IP address must contain 0's for the address bits corresponding the
0's in the netmask.
Multicast source data is flooded/forwarded by default in the VLAN on which
it is received. For this reason, multi-access VLANs are not recommended for
multicast routing interfaces.
Example
console(config)#ip mroute 1.1.0.0 255.255.0.0 192.168.20.1 34
ip multicast-routing
Use the ip multicast-routing command in Global Configuration mode to set
the administrative mode of the IP multicast forwarder in the router to active.
It enables both IPv4 and IPv6 multicast routing. For multicast routing to
become operational, IGMP must be currently enabled. Enabling PIM or
DVMRP enables IGMP.
Syntax
ip multicast-routing
no ip multicast-routing
Layer 3 Routing Commands 1573
Default Configuration
This command has no default configuration.
Command Mode
Global Configuration mode
User Guidelines
Use of a multicast routing protocol is recommended (e.g., PIM) when IP
multicast is enabled.
IGMP/MLD snooping may be enabled when IP multicast is enabled. If a
multicast source is connected to a VLAN on which both L3 multicast and
IGMP/MLD snooping are enabled, the multicast source is forwarded to the
mrouter ports that have been discovered when the multicast source is first
seen. If a new mrouter is later discovered on a different port, the multicast
source data is not forwarded to the new port. Likewise, if an existing mrouter
times out or stops querying, the multicast source data continues to be
forwarded to that port. If a host in the VLAN subsequently joins or leaves the
group, the list of mrouter ports is updated for the multicast source and the
forwarding of the multicast source is adjusted. The workaround to this
limitation is to statically configure mrouter ports when enabling IGMP/MLD
snooping in L3 multicast enabled VLANs.
Multicast routing requires IGMP to be enabled to become operationally
enabled. Enabling PIM or DVMRP enables IGMP.
This command enables both IPv4 and IPv6 multicast routing. Multicast
source data is flooded/forwarded by default in the VLAN on which it is
received. For this reason, multi-access VLANs are not recommended for
multicast routing interfaces.
Example
The following example enables IP multicast on the router.
console#configure
console(config)#ip multicast-routing
Command History
User Guidelines updated in release 6.3.5. User Guidelines updated in release
6.4 release.
Layer 3 Routing Commands 1574
ip multicast ttl-threshold
Use the ip multicast ttl-threshold command in Interface VLAN
Configuration mode to apply a ttlvalue to a routing interface. ttlvalue is the
TTL threshold which is applied to the multicast Data packets forwarded
through the interface.
Syntax
ip multicast ttl-threshold ttlvalue
no ip multicast ttl-threshold
• ttlvalue — Specifies TTL threshold. (Range: 0-255)
Default Configuration
This command has no default configuration.
Command Mode
Interface Configuration (VLAN) mode
User Guidelines
This command has no user guidelines.
Example
The following example applies a ttlvalue of 5 to the VLAN 15 routing
interface.
console(config)#interface vlan 15
console(config-if-vlan15)#ip multicast ttl-threshold 5
ip pim
Use the ip pim command in Interface (VLAN) Configuration mode to
administratively configure PIM mode for IP multicast routing on a VLAN
interface. Enabling or disabling PIM mode concurrently enables/disables
IGMP. Use the no form of the command to disable PIM on the interface.
Syntax
ip pim
Layer 3 Routing Commands 1575
no ip pim
Default Configuration
PIM is not enabled on interfaces by default.
Command Mode
Interface (VLAN) Configuration mode
User Guidelines
PIM requires that routing and multicast routing be enabled. Enabling PIM
enables IGMP/MLD. Disabling PIM may operationally disable multicast
routing.
Example
console(config)#ip routing
console(config)#ip multicast
console(config)#interface vlan 10
console(if-vlan-10)#ip pim
Command History
User Guidelines updated in release 6.3.5.
ip pim bsr-border
The ip pim bsr-border command is used in Interface (VLAN) Configuration
mode to administratively disable bootstrap router (BSR) messages on the
interface. Use the no form of this command to return the configuration to the
default.
Syntax
ip pim bsr-border
no ip pim bsr-border
Default Configuration
BSR messages are enabled on the interface by default.
Layer 3 Routing Commands 1576
Command Mode
Interface (VLAN) Configuration mode
User Guidelines
This command only has an effect if sparse mode is enabled.
Example
console(if-vlan-10)#ip pim bsr-border
ip pim bsr-candidate
The ip pim bsr-candidate command is used to configure the router to
advertise itself as a bootstrap router (BSR). Use the no form of this command
to return to the default configuration. This command replaces the ip pimsm
bsr-candidate, ip pimsm cbsrhaskmasklength and ip pimsm cbsrpreference
commands.
Syntax
ip pim bsr-candidate vlan {vlan-id hash-mask-length bsr-priority [interval
interval]}
no ip pim bsr-candidate vlan {vlan-id}
• vlan-id—A valid VLAN identifier with multicast routing enabled.
• hash-mask-length —Length of the BSR hash to be ANDed with the
multicast group address. (Range 0–32 bits). Default 0.
• bsr-priority—The advertised priority of the BSR candidate. Range 0-255.
Default 0.
• interval—(Optional) Indicates the RP candidate advertisement interval.
The range is from 1 to 16383 seconds. The default value is 60 seconds.
Default Configuration
None - the router does not advertise itself as a BSR candidate.
Command Mode
Global Configuration mode
Layer 3 Routing Commands 1577
User Guidelines
All multicast groups with the same hash value correspond to the same RP.
Lower priority values are preferred.
Example
console(config)#ip pim bsr-candidate vlan 10 16 0 interval 30
ip pim dense-mode
Use the ip pim dense-mode command in Global Configuration mode to
administratively configure PIM dense mode for IP multicast routing. Use the
no form of this command to disable PIM.
Syntax
ip pim dense-mode
no ip pim
Default Configuration
PIM is not enabled by default.
Command Mode
Global Configuration mode
User Guidelines
Only one of sparse or dense mode can be configured on a router. IGMP is
automatically enabled if PIM is enabled and disabled when PIM is disabled.
ip multicast-routing may be operationally enabled or disabled by this
command.
PIM is not compatible with DVMRP. DVMRP must be disabled before
enabling PIM.
Example
console(config)#ip multicast-routing
console(config)#ip pim dense-mode
Layer 3 Routing Commands 1578
ip pim dr-priority
The ip pim dr-priority command in Interface (VLAN) Configuration mode
to administratively configure the advertised designated router (DR) priority
value. Use the no form of this command to return the configuration to the
default.
Syntax
ip pim dr-priority priority
no ip pim dr-priority
• priority — The administratively configured priority (Range: 0–
2147483647).
Default Configuration
The default election priority is 1.
Command Mode
Interface (VLAN) Configuration mode
User Guidelines
This command only has an effect if sparse mode is enabled. Lower values are
preferred.
Example
console(if-vlan10)#ip pim dr-priority 32768
ip pim hello-interval
The ip pim hello-interval command in Interface (VLAN) Configuration
mode to administratively configure the frequency of PIM Hello messages on
the specified interface. Use the no form of this command to return the
configuration to the default.
Syntax
ip pim hello-interval interval
no ip pim hello-interval
Layer 3 Routing Commands 1579
• interval — The number of seconds between successive hello transmissions.
Range: 0–18000 seconds. Default is 30.
Default Configuration
The default hello interval is 30 seconds.
Command Mode
Interface (VLAN) Configuration mode
User Guidelines
There are no user guidelines for this command.
Example
console(config-if-vlan10)#ip pim hello-interval 20
ip pim join-prune-interval
The ip pim join-prune-interval command in Interface (VLAN)
Configuration mode to administratively configure the frequency of
join/prune messages on the specified interface. Use the no form of this
command to return the configuration to the default.
Syntax
ip pim join-prune-interval interval
no ip pim join-prune-interval
• interval — The number of seconds between successive join-prune
transmissions. Range: 0–18000 seconds. Default is 60.
Default Configuration
The default join/prune interval is 60 seconds.
Command Mode
Interface (VLAN) Configuration mode
Layer 3 Routing Commands 1580
User Guidelines
This command only has an effect if sparse mode is enabled.
Example
console(if-vlan10)#ip pim join-prune-interval 30
ip pim rp-address
Use the ip pim rp-address command in Global Configuration mode to define
the address of a PIM Rendezvous point (RP) for a specific multicast group
range. Use the no form of this command to remove a configured RP. This
command replaces the ip pimsm rp-address command.
Syntax
ip pim rp-address {rp-address group-address group-mask [override]}
no ip pim rp-address {rp-address group-address group-mask}
•
rp-address
—
The valid IPv4 address for the rendezvous point.
•
group-address
—
A valid multicast group address to be sourced from the
rendezvous point.
•
group-mask
—
A mask indicating the range of multicast groups sourced from the
RP.
•
override
—
A flag indicating that the static entry should override dynamically
learned entries for the configured multicast group.
Default Configuration
None —no static multicast groups are configured for an RP.
Command Mode
Global Configuration mode
User Guidelines
There are no user guidelines for this command.
Example
console(config)#ip pim rp-address 192.168.21.1 239.1.0.0 255.255.0.0
override
Layer 3 Routing Commands 1581
ip pim rp-candidate
Use the ip pim rp-candidate command in Global Configuration mode to
configure the router to advertise itself to the bootstrap router (BSR) router as
a PIM candidate rendezvous point (RP) for a specific multicast group range.
Use the no form of this command to return to the default configuration. This
command replaces the ip pimsm rp-candidate command.
Syntax
ip pim rp-candidate vlan {vlan-id group-address group-mask [interval
interval]}
no ip pim rp-candidate vlan vlan-id group-address group-mask}
•
vlan-id
—A valid VLAN identifier with multicast routing enabled.
•
group-address
—
A valid multicast group address.
•
group-mask
—A mask indicating the range of multicast groups for which
the router should advertise itself as an RP-candidate.
• interval—(Optional) Indicates the RP candidate advertisement interval.
The range is from 1 to 16383 seconds. The default value is 60 seconds.
Default Configuration
None - the router does not advertise itself as an RP candidate by default.
Command Mode
Global Configuration mode
User Guidelines
There are no user guidelines for this command.
Example
console(config)#ip pim rp-candidate vlan 10 239.1.0.0 255.255.0.0 interval 30
ip pim sparse-mode
Use the ip pim sparse-mode command in Global Configuration mode to
administratively configure PIM sparse mode for IP multicast routing. Use the
no form of this command to disable PIM.
Layer 3 Routing Commands 1582
Syntax
ip pim sparse-mode
no ip pim
Default Configuration
PIM not enabled by default.
Command Mode
Global Configuration mode
User Guidelines
Only one of sparse or dense mode can be configured on a router.IGMP is
automatically enabled if PIM is enabled and disabled when PIM is disabled.
IP multicast must be enabled for PIM to operate. ip multicast-routing is not
disabled or enabled by this command.
It is recommended that IGMP snooping be disabled if IP multicast is enabled
unless specifically required.
PIM is not compatible with DVMRP. DVMRP must be disabled before
enabling PIM.
Example
console(config)#ip pim sparse-mode
ip pim ssm
Use the ip pim ssm command in Global Configuration mode to
administratively configure PIM source specific multicast range of addresses
for IP multicast routing. Use the no form of this command to remove
configured ranges of addresses from the router.
Syntax
ip pim ssm {default | group-address group-mask}
no ip pim ssm {default | group-address group-mask}
•default—Defines the SSM range access list to 232/8.
Layer 3 Routing Commands 1583
• group-address—An IP multicast group address.
• group-mask—An IPv4 mask in a.b.c.d form where a, b, c and d range from
0-255.
Default Configuration
There are no group addresses configured by default.
Command Mode
Global Configuration mode
User Guidelines
There are no user guidelines for this command.
Example
console(config)#ip pim ssm 239.0.10.0 255.255.255.0
show ip mfc
Use the show ip mfc command to display the multicast forwarding cache.
Syntax
show ip mfc
Default Configuration
This command does not have a default configuration.
Command Mode
Privileged Exec mode, Global Config mode, all sub-modes.
User Guidelines
This command display both the IPv4 and IPv6 MFC entries.
The following information is displayed.
Layer 3 Routing Commands 1584
Example
console#show ip mfc
MFC IPv4 Mode.................................. Disabled
MFC IPv6 Mode.................................. Disabled
MFC Entry Count................................ 0
Current multicast IPv4 protocol................ PIMSM
Current multicast IPv6 protocol................ No protocol enabled.
Total software forwarded packets............... 0
-------------------- -------------------- ---------- --------------
Source Address Group Address Protocol Pkts
Forwarded in SW
-------------------- -------------------- ---------- --------------
192.168.28.4 232.1.2.3 PIM-SM 61
show ip multicast
Use the show ip multicast command to display the system-wide multicast
information.
Syntax
show ip multicast
Default Configuration
This command has no default configuration.
Field Description
MFC IPv4 Mode Enabled when IPv4 Multicast routing is operational.
MFC IPv6 Mode Enabled when IPv6 Multicast routing is operational.
MFC Entry Count The number of entries present in MFC.
Total Pkts Forwarded in
SW
Total Number of multicast packets forwarded in software.
Source Address Source address of the multicast route entry.
Group Address Group address of the multicast route entry.
Protocol The current operating multicast routing protocol.
Pkts Forwarded in SW Number of multicast packets that are forwarded in software
for a specific multicast route entry.
Layer 3 Routing Commands 1585
Command Mode
User Exec, Privileged Exec modes, Global Configuration mode and all
Configuration submodes
User Guidelines
This command has no user guidelines.
Example
The following example displays system-wide multicast information.
console#show ip multicast
Admin Mode........................... Enabled
Protocol State....................... Non-Operational
Table Max Size....................... 768
Protocol............................. PIMDM
Multicast forwarding cache entry count 0
show ip pim boundary
Use the show ip pim boundary command to display all the configured
administrative scoped multicast boundaries.
Syntax
show ip pim boundary {vlan vlan-id | all}
• vlan-id — Valid VLAN ID.
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
This command has no user guidelines.
Layer 3 Routing Commands 1586
Example
The following example displays all the configured administrative scoped
multicast boundaries.
console#show ip pim boundary all
MULTICAST BOUNDARY
Interface Group IP Mask
-------- ------ ---------------
show ip multicast interface
Use the show ip multicast interface command to display the multicast
information for the specified interface.
Syntax
show ip multicast interface [type number]
• type number—Interface type and number for which to display IP
multicast information. VLAN Vlan-ID is the only supported type and
number.
Default Configuration
Show information for all multicast interfaces.
Command Mode
User Exec, Privileged Exec modes, Global Configuration mode and all
Configuration submodes
User Guidelines
This command has no user guidelines.
Example
The following example displays the multicast information for VLAN 15.
console#show ip mcast interface vlan 15
Interface TTL
--------- -----
Vl15 1
Layer 3 Routing Commands 1587
show ip mroute
Use the show ip mroute command to display a summary or details of the
multicast table.
Syntax
show ip mroute
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
This command has no user guidelines.
Example
console#show ip mroute
Multicast route table
Expiry Up Time
Source IP Group IP (mm:ss) (hh:mm:ss) RPF Neighbor Flags
--------------- --------------- -------- ----------- --------------- -----
192.168.0.11 239.0.5.7 3:03 15:54:12 192.168.0.10
show ip mroute group
Use the show ip mroute group command to display the multicast
configuration settings such as flags, timer settings, incoming and outgoing
interfaces, RPF neighboring routers, and expiration times of all the entries in
the multicast mroute table containing the groupipaddr value.
Syntax
show ip mroute group groupipaddr [summary]
• groupipaddr — IP address of the multicast group.
Layer 3 Routing Commands 1588
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
This command has no user guidelines.
Example
The following example displays the multicast configuration settings such as
flags, timer settings, incoming and outgoing interfaces.
console#show ip mroute group 239.5.5.5 summary
console#show ip mroute group 239.5.5.5
show ip mroute source
Use the show ip mroute source command to display the multicast
configuration settings such as flags, timer settings, incoming and outgoing
interfaces, RPF neighboring routers, and expiration times of all the entries in
the multicast mroute table containing the sourceipaddr or sourceipaddr |
groupipaddr pair value(s).
Syntax
show ip mroute source sourceipaddr {summary}
• sourceipaddr — IP address of source.
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
Layer 3 Routing Commands 1589
User Guidelines
Use the summary option to summarize the information displayed.
Example
The following example displays multicast configuration settings.
console#show ip mroute source 10.1.1.1 summary
console#show ip mroute source 10.1.1.1 239.5.5.5
show ip mroute static
Use the show ip mroute static command to display all the static routes
configured in the static mcast table if it is specified or display the static route
associated with the particular sourceipaddr.
Syntax
show ip mroute static [sourceipaddr]
• sourceipaddr — IP address of source.
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
This command has no user guidelines.
Example
The following example displays the static routes configured in the static
mcast table.
console#show ip mroute static
MULTICAST STATIC ROUTES
Source IP Source Mask RPF Address Preference
--------------- --------------- --------------- ----------
Layer 3 Routing Commands 1590
1.1.1.1 255.255.255.0 2.2.2.2 23
show ip pim
The show ip pim command displays information about the interfaces
enabled for PIM.
Syntax
show ip pim
Default Configuration
There is no default configuration for this command.
Command Mode
User Exec, Privileged Exec mode, Global Configuration mode and all
Configuration submodes
User Guidelines
The following information is displayed:
Example
console#show ip pim
PIM Mode............................. None
If no routers are enabled for PIM, the following message is displayed.
None of the routing interfaces are enabled for PIM.
show ip pim bsr-router
The show ip pim bsr-router command displays information about a bootstrap
router (BSR).
Syntax
show ip pim bsr-router {candidate|elected}
Field Description
PIM Mode The routers that are enabled for PIM.
Layer 3 Routing Commands 1591
• candidate – Shows the candidate routers capable of acting as the bootstrap
router.
• elected – Shows the router elected as the PIM bootstrap router.
Default Configuration
There is no default configuration for this command.
Command Mode
User Exec, Privileged Exec mode, Global Configuration mode and all
Configuration submodes
User Guidelines
The following information is displayed:
Example
console#show ip pim bsr-router
BSR Address............................. 192.168.10.1
BSR Priority............................ 0
BSR Hash Mask Length.................... 30
C-BSR Advertisement Interval (secs)........60
Next Bootstrap message(hh:mm:ss).......... NA
If no configured/elected BSRs exist on the router, the following message is
displayed.
No BSR’s exist/learned on this router.
Field Description
BSR address IP address of the BSR.
BSR Priority The configured BSR priority.
BSR Hash Mask Length The configured hash mask length (32 bits maximum).
Next Bootstrap Message
in
Time remaining (in hours, minutes, and seconds) until a
BSR message is sent.
Next Candidate RP
Advertisement
Time remaining (in hours, minutes, and seconds) until the
next RP advertisement is sent.
Layer 3 Routing Commands 1592
show ip pim interface
The show ip pim interface command displays the PIM interface status
parameters. If the interface number is not is specified, the command displays
the status parameters of all the PIM-enabled interfaces.
Syntax
show ip pim interface [vlan vlan-id]
• vlan-id — A valid VLAN ID for which multicast routing has been enabled.
Field Descriptions
Default Configuration
There is no default configuration for this command.
Command Mode
User Exec and Privileged Exec modes, Global Configuration mode and all
Configuration submodes
User Guidelines
There are no user guidelines for this command.
Example
(console)#show ip pim interface
Field Description
Mode Active PIM Protocol
Interface Interface number
Hello Interval Hello interval value
Join-prune Interval Join-prune interval value
DR Priority DR Priority configured on this interface
BSR Border Whether or not this interface is configured as a BSR Border
Neighbor Count Number of PIM Neighbors learned on this interface
Designated-Router IP address of the elected DR on the interface
Layer 3 Routing Commands 1593
InterfaceVLAN0010
ModeSparse
Hello Interval(secs)30
Join Prune Interval(secs)60
DR Priority1
BSR BorderDisabled
Neighbor Count1
Designated Router192.168.10.1
InterfaceVLAN0001
ModeSparse
Hello Interval(secs)30
Join Prune Interval(secs)60
DR Priority1
BSR BorderDisabled
Neighbor Count1
Designated Router192.168.10.1
If none of the interfaces are enabled for PIM, the following message is
displayed:
None of the routing interfaces are enabled for PIM
show ip pim neighbor
Use the show ip pim neighbor command in User Exec or Privileged Exec
modes to display PIM neighbors discovered by PIMv2 Hello messages. If the
interface number is not specified, this command displays the neighbors
discovered on all the PIM-enabled interfaces.
Syntax
show ip pim neighbor [vlan vlan-id]
• vlan-id — A valid VLAN ID for which multicast routing has been enabled.
Default Configuration
This command has no default configuration.
Command Mode
User Exec, Privileged Exec modes, Global Configuration mode and all
Configuration submodes
Layer 3 Routing Commands 1594
User Guidelines
The following information is displayed.
Example
(console)#show ip pim neighbor vlan 10
Up Time Expiry Time
Neighbor Addr Interface hh:mm:ss hh:mm:ss
--------------- ---------- --------- -----------
192.168.10.2 VLAN0010 00:02:55 00:01:15
(console)#show ip pim neighbor
Neighbor Addr Interface Uptime Expiry Time
(HH:MM::SS) (HH:MM::SS)
--------------- --------- ----------- -----------
192.168.10.2 VLAN0001 00:02:55 00:01:15
192.168.20.2 VLAN0010 00:03:50 00:02:10
If no neighbors are learned on any of the interfaces, the following message is
displayed.
No neighbors are learned on any interface.
show ip pim rp-hash
The show ip pim rp-hash command displays the rendezvous point (RP)
selected for the specified group address.
Syntax
show ip pim rp-hash group-address
• group-address — A valid multicast address supported by RP.
Default Configuration
There is no default configuration for this command.
Field Description
Neighbor Addr IP address of the PIM neighbor
Interface Interface number
Uptime Time since the neighbor is learned
Expiry Time Time remaining for the neighbor to expire
Layer 3 Routing Commands 1595
Command Mode
User Exec, Privileged Exec mode, Global Configuration mode and all
Configuration submodes
User Guidelines
The following fields are displayed:
Example
console#show ip pim rp-hash 239.1.2.0
RP-Address 192.168.10.1 Type Static
If no RP Group mapping exists on the router, the following message is
displayed:
No RP-Group mappings exist/learned for the specified group address.
show ip pim rp mapping
The show ip pim rp mapping command is used in User Exec and Privileged
Exec modes to display the mappings for the PIM group to the active
rendezvous points.
Syntax
show ip pim rp mapping [rp-address |candidate|static]
rp-address — An RP address.
Default configuration
There is no default configuration for this command.
Command Mode
User Exec, Privileged Exec modes, Global Configuration mode and all
Configuration submodes
Field Description
RP Address Address of the RP
Type Origin from where this group mapping was learned.
Layer 3 Routing Commands 1596
User Guidelines
The following fields are displayed.
Example
console#show ip pim rp mapping candidate
RP Address.................................... 192.168.10.1
Group Address.............................. 224.1.2.1
Group Mask................................. 255.255.0.0
Origin..................................... BSR
C-RP Advertisement Interval (secs)......... 60
Next Candidate RP Advertisement (hh:mm:ss). 00:00:15
If no RP Group mapping exists on the router, the following message is
displayed:
No RP-Group mappings exist on this router.
If no static RP Group mapping exists on the router, the following message is
displayed:
No Static RP-Group mappings exist on this router.
show ip pim statistics
Use the show ip pim statistics command to display the count of PIM sparse
mode received control packets per VLAN.
Syntax
show ip pim statistics [vlan vlan-id]
vlan-id — The VLAN for which PIM sparse mode statistics are displayed.
Default configuration
There is no default configuration for this command.
Field Description
RP Address Address of the RP
Group Address Address of the multicast group.
Group Mask Mask for the group address.
Origin Origin from where this group mapping is learned.
Layer 3 Routing Commands 1597
Command Mode
Privileged Exec modes, Global Configuration mode and all submodes
User Guidelines
This command only displays output if pim sparse-mode is enabled.
The following statistics are displayed.
Example
console#show ip pim statistics
=====================================================================
Interface Stat Hello Register Reg-Stop Join/Pru BSR Assert CRP
=====================================================================
Vl10 Rx 0 0 0 0 0 0 0
Tx 2 0 0 0 0 0 0
Invalid Packets Received - 0
---------------------------------------------------------------------
Vl20 Rx 0 0 0 5 0 0 0
Tx 8 7 0 0 0 0 0
Invalid Packets Received - 0
---------------------------------------------------------------------
console#show ip pim statistics vlan 10
=====================================================================
Interface Stat Hello Register Reg-Stop Join/Pru BSR Assert CRP
Field Description
Stat Rx: Packets received.
Tx: Packets transmitted.
Interface The PIM enabled routing interface.
Hello Number of PIM Hello messages.
Register Number of PIM Register messages.
Reg-Stop Number of PIM Register-Stop messages.
Join/Pru Number of PIM Join/Prune messages.
BSR Number of PIM Boot Strap messages.
Assert Number of PIM Assert messages
CRP Number of PIM Candidate RP Advertisement messages.
Layer 3 Routing Commands 1598
=====================================================================
Vl10 Rx 0 0 0 0 0 0 0
Tx 2 0 0 0 0 0 0
Invalid Packets Received - 0
---------------------------------------------------------------------
Layer 3 Routing Commands 1599
IPv6 Multicast Commands
Dell EMC Networking N3000/N3100/N4000 Series Switches
The Dell Network N1500/N2000/N2100-ON series supports limited routing and
multicast capabilities. See the Users Configuration Guide section “Feature
Limitations and Platform Constants” for supported capabilities.
This section explains the following commands:
clear ipv6 mroute
This command is used to selectively clear dynamic IPv6 multicast entries
from the cache.
Syntax
clear ipv6 mroute { * | group-address [ source-address ] }
* —Deletes all IPv6 entries from the IP multicast routing table.
group-address— IPv6 address of the multicast group.
source-address—IPv6 address of a multicast source that is sending multicast
traffic to the group.
clear ipv6 mroute ipv6 pim sparse-mode
ipv6 pim (VLAN Interface config) ipv6 pim ssm
ipv6 pim bsr-border show ip mroute group
ipv6 pim bsr-candidate show ip mroute source
ipv6 pim dense-mode show ipv6 pim
ipv6 pim dr-priority show ipv6 pim bsr-router
ipv6 pim hello-interval show ipv6 pim interface
ipv6 pim join-prune-interval show ipv6 pim neighbor
ipv6 pim register-threshold show ipv6 pim rp-hash
ipv6 pim rp-address show ipv6 pim rp mapping
ipv6 pim rp-candidate show ipv6 pim statistics
Layer 3 Routing Commands 1600
Default Configuration
There is no default configuration for this command.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
This command does not clear static multicast route entries.
When a * entry is deleted through this command, it cannot be formed again
until it is expired in MLD and started again via the host. The default mcache
time-out is 210 seconds.
Example
The following example deletes all entries from the IPv6 multicast routing
table:
console# clear ipv6 mroute *
The following example deletes from the IPv6 multicast routing table all
entries that match the given multicast group address (FF4E::1), irrespective
of which source is sending for this group:
console# clear ipv6 mroute FF4E::1
The following example deletes from the IPv6 multicast routing table all
entries that match the given multicast group address (FF4E::1) and the
multicast source address (2001::2):
console# clear ipv6 mroute FF4E::1 2001::2
ipv6 pim (VLAN Interface config)
Use the ipv6 pim command in VLAN Interface configuration mode to
administratively enable PIM multicast routing mode on a particular IPv6
router interface. Use the no form of this command to disable PIM on an
interface.
Syntax
ipv6 pim
Layer 3 Routing Commands 1601
no ipv6 pim
Default Configuration
PIM is disabled by default.
Command Mode
Interface Configuration (VLAN) mode
User Guidelines
Either PIM-SM or PIM-DM are enabled by this command depending on the
globally configured mode. Refer to the ipv6 pim sparse-mode and ipv6 pim
dense-mode commands for further information.
Example
console(config-if-vlan3)#ipv6 pim
ipv6 pim bsr-border
Use the ipv6 pim bsr-border command to prevent bootstrap router (BSR)
messages from being sent or received through an interface. Use the no form
of this command to disable the interface from being the BSR border.
Syntax
ipv6 pim bsr-border
no ipv6 pim bsr-border
Default Configuration
BSR-border is disabled by default.
Command Mode
Interface Configuration (VLAN) mode
User Guidelines
There are no user guidelines for this command.
Layer 3 Routing Commands 1602
Example
console(config-if-vlan3)#ipv6 pim bsr-border
ipv6 pim bsr-candidate
Use the ipv6 pim bsr-candidate command to configure the router to
announce its candidacy as a bootstrap router (BSR). Use the no form of this
command to stop the router from announcing its candidacy as a bootstrap
router.
Syntax
ipv6 pim bsr-candidate vlan vlan-id hash-mask-len [priority][interval]
no ipv6 pim bsr-candidate vlan vlan-id
• vlan-id — A valid VLAN ID value.
• hash-mask-len — The length of a mask that is to be ANDed with the group
address before the hash function is called. All groups with the same seed
hash correspond to the same RP. For example, if this value is 24, only the
first 24 bits of the group addresses matter. This allows you to get one RP
for multiple groups. (Range 0–128 bits).
• priority — The priority of the candidate BSR. The BSR with the higher
priority is preferred. If the priority values are the same, the router with the
higher IP address is the BSR. (Range: 0–255).
• interval—The interval at which candidate rendezvous point
advertisements are sent.
Default Configuration
The router will not announce its candidacy by default.
The default hash mask length is 126 bits.
The default priority is 0.
The default C-RP advertisement interval is 60 seconds.
Command Mode
Global Configuration mode
Layer 3 Routing Commands 1603
User Guidelines
There are no user guidelines for this command.
Example
console(config)#ipv6 pim bsr-candidate vlan 9 10 34
ipv6 pim dense-mode
Use the ipv6 pim dense-mode command in Global configuration mode to
administratively configure PIM dense mode for IPv6 multicast routing. This
command also enables MLD. Use the no form of this command to disable
PIM and MLD. This command does not affect ip multicast-routing.
Syntax
ipv6 pim dense-mode
no ipv6 pim
Default Configuration
PIM dense mode is disabled by default.
Command Mode
Global Configuration mode
User Guidelines
Only one of sparse or dense mode can be configured on a router. DVMRP
must be disabled before enabling PIM.
Example
console(config)#ipv6 pim dense
ipv6 pim dr-priority
Use the ipv6 pim dr-priority command to set the priority value for which a
router is elected as the designated router (DR). Use the no form of this
command to set the priority to the default.
Layer 3 Routing Commands 1604
Syntax
ipv6 pim dr-priority priority
no ipv6 pim dr-priority
• priority — The election priority (Range: 0–2147483647).
Default Configuration
The default election priority is 1.
Command Mode
Interface Configuration (VLAN) mode
User Guidelines
There are no user guidelines for this command.
Example
console(config-if-vlan3)#ipv6 pim dr-priority 10
ipv6 pim hello-interval
Use the ipv6 pim hello-interval command to configure the PIM-SM Hello
Interval for the specified interface. Use the no form of this command to set
the hello interval to the default.
Syntax
ipv6 pim hello-interval interval
no ipv6 pim hello-interval
• interval — The hello interval (Range: 0–18000 seconds).
Default Configuration
The default hello interval is 30 seconds.
Command Mode
Interface Configuration (VLAN) mode
Layer 3 Routing Commands 1605
User Guidelines
Setting the hello interval to 0 disables sending on PIM Hellos.
Example
console(config-if-vlan3)#ipv6 pim hello-interval 45
ipv6 pim join-prune-interval
Use the ipv6 pim join-prune-interval command to configure the interface
join/prune interval for the PIM-SM router. Use the no form of this command
to set the join/prune interval to the default.
Syntax
ipv6 pim join-prune-interval interval
no ipv6 pim join-prune-interval
• interval — The join/prune interval (Range: 0–18000 seconds).
Default Configuration
The default join/prune interval is 60 seconds.
Command Mode
Interface Configuration (VLAN) mode
User Guidelines
There are no user guidelines for this command.
Example
console(config-if-vlan3)#ipv6 pim join-prune-interval 90
ipv6 pim register-threshold
Use the ipv6 pim register-threshold command to configure the Register
Threshold rate for the RP router to switch to the shortest path. Use the no
form of this command to set the register threshold rate to the default.
Layer 3 Routing Commands 1606
Syntax
ipv6 pim register-threshold threshold
no ipv6 pim register-threshold
• threshold — The threshold rate (Range: 0–2000 Kbps).
Default Configuration
The default threshold rate is 0.
Command Mode
Global Configuration mode
User Guidelines
There are no user guidelines for this command.
Example
console(config)#ipv6 pim register-threshold 250
ipv6 pim rp-address
Use the ipv6 pim rp-address command to statically configure the RP address
for one or more multicast groups. The optional keyword override indicates
that if there is a conflict, the RP configured with this command prevails over
the RP learned by BSR. Use the no form of this command to remove the RP
address for one or more multicast groups.
Syntax
ipv6 pim rp-address rp-address group-address/prefixlength [ override ]
no ipv6 pim rp-address rp-address group-address/prefixlength
• rp-address — An RP address.
• group-address — The group address to display.
• prefixlength — This parameter specifies the prefix length of the IP address
for the media gateway. (Range: 1–128)
Layer 3 Routing Commands 1607
Default Configuration
There are no static RP addresses configured by default.
Command Mode
Global Configuration mode
User Guidelines
There are no user guidelines for this command.
Example
console(config)#ipv6 pim rp-address 2001::1 ff1e::/64
ipv6 pim rp-candidate
Use the ipv6 pim rp-candidate command to configure the router to advertise
itself as a PIM candidate rendezvous point (RP) to the bootstrap router
(BSR). Use the no form of this command to disable the router from
advertising itself as a PIM candidate rendezvous point (RP) to the bootstrap
router (BSR).
Syntax
ipv6 pim rp-candidate vlan vlan-id group-address/prefixlength [interval
c_rp_interval ]
no ipv6 pim rp-candidate vlan vlan-id
• vlan-id — A valid VLAN ID value.
• group-address — The group address to display.
• prefixlength — This parameter specifies the prefix length of the IP address
for the media gateway. (Range: 1–128)
• c_rp_interval—The Candidate RP advertisement interval (range 1-16383
seconds, default 60 seconds).
Default Configuration
The router does not advertise itself as a PIM candidate rendezvous point by
default.
Layer 3 Routing Commands 1608
Command Mode
Global Configuration mode
User Guidelines
The default interval for a Candidate Rendezvous Point (C-RP) to send C-RP
Advertisement messages to the Bootstrap Router (BSR) is 60 seconds.
Example
console(config)#ipv6 pim rp-candidate vlan 6 ff1e::/64
ipv6 pim sparse-mode
Use the ipv6 pim sparse-mode command to administratively configure PIM
sparse mode for multicast routing. This command also enables MLD. Use the
no form of this command to disable PIM and MLD.
Syntax
ipv6 pim sparse-mode
no ipv6 pim
Default Configuration
IPv6 PIM sparse mode is disabled by default.
Command Mode
Global Configuration mode
User Guidelines
Only one of sparse or dense mode can be configured on a router. DVMRP
must be disabled before enabling PIM.
Example
console(config)#ipv6 pim sparse-mode
Layer 3 Routing Commands 1609
ipv6 pim ssm
Use the ipv6 pim ssm command to define the Source Specific Multicast
(SSM) range of multicast addresses.
Syntax
ipv6 pim ssm {default | group-address/prefixlength}
•default — Defines the SSM range access list to FF3x::/32.
• group-address — Group IP address supported by RP.
• prefixlength — This parameter specifies the prefix length of the IP address
for the media gateway. (Range: 1–128)
Default Configuration
The default range is FF3x::/32.
Command Mode
Global Configuration mode
User Guidelines
There are no user guidelines for this command.
Example
console(config)#ipv6 pim ssm ff1e::/64
show ipv6 pim
Use the show ipv6 pim command to display global status of IPv6 PIMSM and
its IPv6 routing interfaces.
Syntax
show ipv6 pim
Default Configuration
There is no default configuration for this command.
Layer 3 Routing Commands 1610
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
There are no user guidelines for this command.
Example
console(config)#show ipv6 pim
PIM Mode....................................... Sparse
Interface Interface-Mode Operational-Status
--------- -------------- ------------------
Vl1 Enabled Operational
show ipv6 pim bsr-router
Use the show ipv6 pim bsr-router command to display the bootstrap router
(BSR) information.
Syntax
show ipv6 pim bsr-router { candidate | elected }
• candidate—Show the IPv6 PIM candidate bootstrap router information.
• elected—Show the IPv6 elected PIM bootstrap router information.
Default Configuration
There is no default configuration for this command.
Command Mode
User Exec, Privileged Exec modes, Global Configuration mode and all
Configuration submodes
User Guidelines
Field descriptions are shown in the following table.
Layer 3 Routing Commands 1611
Example
console(config)#show ipv6 pim bsr-router candidate
BSR Address.................................... 2001:0db8:0:badc::1
BSR Priority................................. 0
BSR Hash Mask Length......................... 64
C-BSR Advertisement Interval (secs).......... 60
Next Bootstrap message (hh:mm:ss)............ 00:00:32
If no configured/elected BSR’s exist on the router, the following message is
displayed:
No BSR’s exist/learned on this router.
Field Description
BSR Address Address of the BSR
BSR Priority Configured BSR priority
BSR Hash Mask
Length
Configured hash mask length
Next Bootstrap
Message
Remaining time until a BSR message is sent
Next Candidate RP
Advertisement
Time remaining until the next RP advertisement is sent.
Layer 3 Routing Commands 1612
show ipv6 mroute
Use the show ipv6 mroute command to display a summary or all the details of
the multicast table.
Syntax
show ipv6 mroute [group groupip [summary] | source sourceip [summary] |
static summary]
• group—Show the multicast route information for the specified multicast
group.
• source—Show the multicast route information for the specified multicast
source.
• static—Show the multicast route information for the specified static
multicast group.
• summary—Summarize the information.
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
This command has no user guidelines.
Example
console#show ipv6 mroute summary
Multicast Route Table Summary
Source IP Group IP Protocol IIF OIF Expiry
--------------- --------------- -------- --------- --------- -------
* FF43::5 PIMSM Vl11
Vl13
2001::5 FF43::5 PIMSM Vl12 Vl11
Vl13
console#show ipv6 mroute summary
Layer 3 Routing Commands 1613
Multicast Route Table Summary
Source IP Group IP Protocol IIF OIF Expiry
--------------- --------------- -------- --------- --------- -------
* FF43::5 PIMSM Vl11
Vl13
2001::5 FF43::5 PIMSM Vl12 Vl11
Vl13
console#show ipv6 mroute source 2001::5 ?
<cr> Press enter to execute the command.
| Output filter options.
summary Display the IPV6 multicast routing table summary.
console#show ipv6 mroute source 2001::5
Multicast Route Table
Expiry Up Time
Source IP Group IP (mm:ss) (hh:mm:ss) RPF Neighbor Flags
--------------- --------------- -------- ----------- --------------- -----
2001::5 FF43::5 03:08 00:00:21 2001::5 SPT
console#show ipv6 mroute source 2001::5 summary
Multicast Route Table Summary
Source IP Group IP Protocol IIF OIF Expiry
--------------- --------------- -------- --------- --------- -------
2001::5 FF43::5 PIMSM Vl12 Vl11
Vl13
console#show ipv6 mroute group FF43::5 ?
<cr> Press enter to execute the command.
| Output filter options.
summary Display the IPV6 multicast routing table summary.
console#show ipv6 mroute group FF43::5
Multicast Route Table
Expiry Up Time
Source IP Group IP (mm:ss) (hh:mm:ss) RPF Neighbor Flags
--------------- --------------- -------- ----------- --------------- -----
* FF43::5 00:00 00:01:00 :: RPT
2001::5 FF43::5 02:54 00:00:35 2001::5 SPT
console#show ipv6 mroute group FF43::5 summary
Multicast Route Table Summary
Layer 3 Routing Commands 1614
Source IP Group IP Protocol IIF OIF Expiry
--------------- --------------- -------- --------- --------- -------
* FF43::5 PIMSM Vl11
Vl13
2001::5 FF43::5 PIMSM Vl12 Vl11
Vl13
show ipv6 mroute group
Use the show ipv6 mroute group command to display the multicast
configuration settings such as flags, timer settings, incoming and outgoing
interfaces, RPF neighboring routers, and expiration times of all the entries in
the multicast mroute table containing the groupipaddr value.
Syntax
show ipv6 mroute group groupipaddr [summary]
• groupipaddr — IP address of the multicast group.
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
This command has no user guidelines.
Example
console#show ipv6 mroute group FF43::5 ?
<cr> Press enter to execute the command.
| Output filter options.
summary Display the IPV6 multicast routing table summary.
console#show ipv6 mroute group FF43::5
Multicast Route Table
Expiry Up Time
Source IP Group IP (mm:ss) (hh:mm:ss) RPF Neighbor Flags
--------------- --------------- -------- ----------- --------------- -----
Layer 3 Routing Commands 1615
* FF43::5 00:00 00:01:00 :: RPT
2001::5 FF43::5 02:54 00:00:35 2001::5 SPT
console#show ipv6 mroute group FF43::5 summary
Multicast Route Table Summary
Source IP Group IP Protocol IIF OIF Expiry
--------------- --------------- -------- --------- --------- ------
* FF43::5 PIMSM Vl11
Vl13
2001::5 FF43::5 PIMSM Vl12 Vl11
Vl13
show ipv6 mroute source
Use the show ipv6 mroute source command to display the multicast
configuration settings such as flags, timer settings, incoming and outgoing
interfaces, RPF neighboring routers, and expiration times of all the entries in
the multicast mroute table containing the sourceipaddr or sourceipaddr |
groupipaddr pair value(s).
Syntax
show ipv6 mroute source sourceipaddr {summary | groupipaddr}
• sourceipaddr — IP address of source.
• groupipaddr — IP address of multicast group.
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
This command has no user guidelines.
Example
console#show ipv6 mroute source 2001::5 ?
Layer 3 Routing Commands 1616
<cr> Press enter to execute the command.
| Output filter options.
summary Display the IPV6 multicast routing table summary.
console#show ipv6 mroute source 2001::5
Multicast Route Table
Expiry Up Time
Source IP Group IP (mm:ss) (hh:mm:ss) RPF Neighbor Flags
--------------- --------------- -------- ----------- --------------
2001::5 FF43::5 03:08 00:00:21 2001::5 SPT
console#show ipv6 mroute source 2001::5 summary
Multicast Route Table Summary
Source IP Group IP Protocol IIF OIF Expiry
--------------- --------------- -------- --------- --------- ------
2001::5 FF43::5 PIMSM Vl12 Vl11
Vl13
show ipv6 pim interface
Use the show ipv6 pim interface command to display interface config
parameters. If no interface is specified, all interfaces are displayed.
Syntax
show ipv6 pim interface [ vlan vlan-id ]
• vlan-id — A valid VLAN ID value.
Default Configuration
There is no default configuration for this command.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
There are no user guidelines for this command.
Layer 3 Routing Commands 1617
Example
console#show ipv6 pim interface vlan 6
Slot/Port...................................... vlan 6
IP Address..................................... FE80::2FF:EDFF:FED0:2/128
Hello Interval (secs).......................... 30
Join Prune Interval (secs)..................... 60
Neighbor Count................................. 0
Designated Router.............................. FE80::2FF:EDFF:FED0:2
DR Priority.................................... 1
BSR Border..................................... Disabled
show ipv6 pim neighbor
Use the show ipv6 pim neighbor command to display IPv6 PIMSM neighbors
learned on the routing interfaces.
Syntax
show ipv6 pim neighbor [interface vlan vlan-id ]
• vlan-id — A valid VLAN ID value.
Default Configuration
There is no default configuration for this command.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
If a VLAN interface is not specified, all neighbors are shown.
Example
console#show ipv6 pim neighbor
Slot/Port...................................... vlan 6
Neighbor Address............................... FE80::200:FF:FE00:33
Up Time (hh:mm:ss)............................. 00:00:12
Expiry Time (hh:mm:ss)......................... 00:01:34
DR Priority.................................... 0
Layer 3 Routing Commands 1618
show ipv6 pim rp-hash
Use the show ipv6 pim rp-hash command to display which rendezvous point
(RP) is being selected for a specified group.
Syntax
show ipv6 pim rp-hash group-address
group-address
— Group IP address supported by RP.
Default Configuration
There is no default configuration for this command.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
There are no user guidelines for this command.
Example
console#show ipv6 pim rp-hash ff1e::/64
RP Type
Address
------------------------ -----
3001::1 BSR
show ipv6 pim rp mapping
Use the show ipv6 pim rp mapping command to display all group-to-RP
mappings of which the router is aware (either configured or learned from the
bootstrap router (BSR). If no RP is specified, all active RPs are displayed
Syntax
show ipv6 pim rp mapping [ rp-address | candidate | static ]
• rp-address — IP address of RP.
• candidate—Show candidate rendezvous point mappings.
Layer 3 Routing Commands 1619
• static—Show static rendezvous point mappings.
Default Configuration
There is no default configuration for this command.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
There are no user guidelines for this command.
Example
console#show ipv6 pim rp mapping
Group Address.................................. FF1E::/64
RP Address..................................... 2001::1
origin......................................... Static
Group Address.................................. FF1E::/64
RP Address..................................... 3001::1
origin......................................... BSR
show ipv6 pim statistics
Use the show ipv6 pim statistics command to display the count of IPv6 PIM
sparse mode received control packets.
Syntax
show ipv6 pim statistics [ vlan vlan-id ]
•vlan vlan-id—The VLAN for which to display spare mode statistics.
Default Configuration
This command has no defaults.
Command Mode
Privileged Exec mode, Global Configuration mode, all sub-modes.
Layer 3 Routing Commands 1620
User Guidelines
This command only displays output if pim sparse-mode is enabled.
The following counters are displayed in the output.
Example
console#show ipv6 pim statistics
=====================================================================
Interface Stat Hello Register Reg-Stop Join/Pru BSR Assert CRP
=====================================================================
Vl10 Rx 0 0 0 0 0 0 0
Tx 2 0 0 0 0 0 0
Invalid Packets Received - 0
---------------------------------------------------------------------
Vl20 Rx 0 0 0 5 0 0 0
Tx 8 7 0 0 0 0 0
Invalid Packets Received - 0
---------------------------------------------------------------------
Gi1/0/5 Rx 0 0 6 5 0 0 0
Tx 10 9 0 0 0 0 0
Invalid Packets Received - 0
---------------------------------------------------------------------
console#show ipv6 pim statistics vlan 10
=====================================================================
Interface Stat Hello Register Reg-Stop Join/Pru BSR Assert CRP
Field Description
Stat Rx: Packets received.
Tx: Packets transmitted.
Interface The PIM enabled routing interface.
Hello Number of PIM Hello messages.
Register Number of PIM Register messages.
Reg-Stop Number of PIM Register-Stop messages.
Join/Pru Number of PIM Join/Prune messages.
BSR Number of PIM Boot Strap messages.
Assert Number of PIM Assert messages.
CRP Number of PIM Candidate RP Advertisement messages.
Layer 3 Routing Commands 1621
=====================================================================
Vl10 Rx 0 0 0 0 0 0 0
Tx 2 0 0 0 0 0 0
Invalid Packets Received - 0
---------------------------------------------------------------------
Layer 3 Routing Commands 1622
OSPF Commands
Dell EMC Networking N3000/N3100/N4000 Series Switches
The Dell Network N1500/N2000/N2100-ON series support limited routing and
multicast capabilities. See the Users Configuration Guide section “Feature
Limitations and Platform Constants” for supported capabilities.
OSPF is a link-state protocol. Dell EMC Networking OSPF supports variable-
length subnet masks. Dell EMC Networking OSPF only operates over VLAN
interfaces.
OSPF operates within a hierarchy. The largest entity within the hierarchy is
the autonomous system (AS), a collection of networks under a common
administration sharing a common routing strategy. This is sometimes called a
routing domain. An AS can be divided into a number of areas or groups of
contiguous networks and attached hosts. Routers within the same area share
the same information, so they have identical topological databases.
Information is sent in the form of link-state advertisements (LSAs) to all
other routers within the same hierarchical area. An area's topology is not
visible to routers outside the area.
Two different types of OSPF routing occur as a result of area partitioning:
Intra-area and Inter-area. Intra-area routing occurs if a source and destination
are in the same area. Inter-area routing occurs when a source and destination
are in different areas. An OSPF backbone distributes information between
areas.
For IPv4 networks, Dell EMC Networking routing supports OSPF version 2 in
accordance with RFC 2328. The Dell EMC Networking routing also provides
a compatibility mode for the RFC 1583 OSPF specification, which allows
interoperability with OSPF version 2 routers using the older implementation.
The Dell EMC Networking OSFPv2 implementation supports point-to-point
operation on Ethernet interfaces. The user can configure an OSPFv2
interface to run in broadcast or point-to-point mode. When there are only
two routers attached to the link, OSPFv2 point-to-point mode has the
advantage of not requiring designated router election or origination of a
network LSA for the LAN. This makes the protocol more efficient. Dell EMC
Networking also supports OSPFv3 for use with IPv6 networks.
The Dell EMC Networking routing OSPF NSSA feature supports RFC 3101,
The OSPF Not-So-Stubby Area (NSSA) Option.
Layer 3 Routing Commands 1623
Route Preferences
Normally, OSPF select routes in the following order:
• Local
• Static
• Intra-area
• Inter-area
• External
• RIP
Dell EMC Networking OSPF allows the administrator to change the
preference for selecting intra, inter, and external routes according to the
following rules:
a
External route preferences apply to all ospf external routes like type1,
type2, nssa-type1, nssa-type2 equally.
b
Multiple route types may be configured with equal preference values.
c
Configuring a route preference of 255 makes the route ineligible to be
selected as the best route to its destination. That is, a route type with
a preference of 255 shall never be used for forwarding.
The RIP preference is not used in IPv6 routing.
OSPF Equal Cost Multipath (ECMP)
A device running the IP routing protocol OSPF maintains multiple equal-cost
routes to all destinations. The multiple routes are of the same type (intra-
area, inter-area, type 1 external or type 2 external), cost, and have the same
associated area. However, each route is defined by a separate advertising
router and next hop.
With ECMP, a device forwards traffic to a specified destination through
multiple paths thereby taking advantage of the bandwidth of both links.
ECMP routes are configured statically or learned dynamically as follows:
• Configured Statically: If an operator configures multiple static routes to
the exact same destination but with different next hops, those routes are
treated as a single route with two next hops.
Layer 3 Routing Commands 1624
• Learned Dynamically: Routing protocols can learn ECMP routes. For
example, if OSPF is configured on both links connecting Router A to
Router B with interface addresses 10.1.1.2 and 10.1.2.2 respectively, and
Router B advertises its connection to 20.0.0.0/ 8, then Router A computes
an OSPF route to 20.0.0.0/8 with next hops of 10.1.1.2 and 10.1.2.2.
Dell EMC Networking routing stores static and dynamic routes in a single
combined routing table. RTO accepts ECMP routes, but it is important to
understand that RTO does not combine routes from different sources to
create ECMP routes. Referring to the above configuration, assume OSPF is
only configured on the 10.1.1.2 Router B interface connecting Router A and
Router B. Then on Router A, OSPF reports to RTO a route to 20.0.0.0/8 with
a next hop of 10.1.1.2. If the user configures a static route to 20.0.0.0/8 with a
single next hop of 10.1.2.2, RTO does NOT combine the OSPF and static
route into a single route to 20.0.0.0/8 with two next hops. All next hops within
an ECMP route must be provided by the same source.
On Dell EMC Networking N3000, N3100, and N4000 platforms, the ECMP
hashing support utilizes Enhanced hashing mode, which provides improved
load-balancing performance. ECMP hashing on these platforms has the
following features:
• MODULO-N operation based on the number N of next hops in the route.
• Packet attributes selection based on the packet type. For IP packets, the
following fields are used: Source IP address, Destination IP address,
TCP/UDP port, IPv4 Protocol, IPv6 next header.
Forwarding of OSPF Opaque LSAs Enabled by
Default
Dell EMC Networking supports the flooding capability of opaque LSAs. Dell
EMC Networking cannot originate or process opaque LSAs. In the past, the
capability to flood opaque LSAs was disabled by default.
Passive Interfaces
The passive interface feature is used to disable sending OSPF routing updates
on an interface. An OSPF adjacency will not be formed on such an interface.
On a passive interface, subnet prefixes for IP addresses configured on the
interface will continue to be advertised as stub networks.
Layer 3 Routing Commands 1625
Graceful Restart
The Dell EMC Networking implementation of OSPFv2 supports graceful
restart as specified in RFC 3623. Graceful restart works in concert with Dell
EMC Networking nonstop forwarding to enable the hardware to continue
forwarding IPv4 packets using OSPFv2 routes while a backup unit takes over
management unit responsibility. When OSPF executes a graceful restart, it
informs its neighbors that the OSPF control plane is restarting, but that it
will be back shortly. Helpful neighbors continue to advertise to the rest of the
network that they have full adjacencies with the restarting router, avoiding
announcement of a topology change and everything that goes with that (i.e.,
flooding of LSAs, SPF runs). Helpful neighbors continue to forward packets
through the restarting router. The restarting router relearns the network
topology from its helpful neighbors.
Dell EMC Networking implements both the restarting router and helpful
neighbor features described in RFC 3623.
Commands in this Section
This section explains the following commands:
area default-cost
(Router OSPF)
capability opaque ip ospf network show ip ospf abr
area nssa (Router
OSPF)
clear ip ospf ip ospf priority show ip ospf area
area nssa default-
info-originate
(Router OSPF
Config)
clear ip ospf stub-
router
ip ospf retransmit-
interval
show ip ospf asbr
area nssa no-
redistribute
compatible rfc1583 ip ospf transmit-
delay
show ip ospf database
area nssa no-
summary
default-information
originate (Router
OSPF
Configuration)
log adjacency-
changes
show ip ospf database
database-summary
area nssa translator-
role
default-metric max-metric router-
lsa
show ip ospf interface
Layer 3 Routing Commands 1626
area default-cost (Router OSPF)
Use the area default-cost command in Router OSPF Configuration mode to
configure the advertised default cost for the stub area. Use the no form of the
command to return the cost to the default value.
Syntax
area area-id default-cost integer
no area area-id default-cost
area nssa translator-
stab-intv
distance ospf maximum-paths show ip ospf interface
brief
area range (Router
OSPF)
distribute-list out network area show ip ospf interface
stats
area stub enable nsf show ip ospf lsa-group
area stub no-
summary
exit-overflow-
interval
nsf helper show ip ospf neighbor
area virtual-link external-lsdb-limit nsf helper strict-lsa-
checking
show ip ospf range
area virtual-link
authentication
ip ospf area nsf restart-interval show ip ospf statistics
area virtual-link
dead-interval
ip ospf
authentication
passive-interface
default
show ip ospf stub table
area virtual-link
hello-interval
ip ospf cost passive-interface show ip ospf traffic
area virtual-link
retransmit-interval
ip ospf database-
filter all out
redistribute (BGP) show ip ospf virtual-
links
area virtual-link
transmit-delay
ip ospf dead-
interval
router-id show ip ospf virtual-
links brief
auto-cost ip ospf hello-
interval
router ospf timers pacing flood
bandwidth ip ospf mtu-ignore show ip ospf timers pacing lsa-group
bfd
––
timers spf
Layer 3 Routing Commands 1627
• area-id — Identifies the OSPF stub area to configure. (Range: IP address
or decimal from 0-4294967295)
• integer — The default cost for the stub area. (Range: 1–16777215)
Default Configuration
10 is the default configuration for integer.
Command Mode
Router OSPF Configuration mode.
User Guidelines
This command has no user guidelines.
Example
The following example identifies a stub area of 10 and default cost of 100.
console(config)#router ospf
console(config-router)#area 10 default-cost 100
area nssa (Router OSPF)
Use the area nssa command in Router OSPF Configuration mode to
configure the specified area ID to function as an NSSA. If the area has not
been previously created, this command creates the area and then applies the
NSSA distinction. If the area already exists, the NSSA distinction is added or
modified. Use the no form of the command to remove the NSSA distinction
from the specified area ID.
Syntax
area area-id nssa [no-redistribution] [default-information-originate [metric
metric-value] [metric-type metric-type-value]] [no-summary] [translator-
role role] [translator-stab-intv interval]
no area area-id nssa [no-redistribution] [default-information-originate] [no-
summary] [translator-role] [translator-stab-intv]
• area-id—Identifies the OSPF stub area to configure. (Range: IP address or
decimal from 0–4294967295)
Layer 3 Routing Commands 1628
• metric-value—Specifies the metric of the default route advertised to the
NSSA. (Range: 1–16777214)
• metric-type-value—The metric type can be one of the following:
– A metric type of nssa-external 1
– A metric type of nssa-external 2 (default)
•role—The translator role where role is one of the following:
– always - The router assumes the role of the translator when it becomes
a border router.
– candidate - The router to participate in the translator election process
when it attains border router status.
•interval—The period of time that an elected translator continues to
perform its duties after it determines that its translator status has been
deposed by another router. (Range: 0–3600)
Default Configuration
If no metric is defined, 10 is the default configuration.
The default role is candidate. The default metric is type 2.
Command Mode
Router OSPF Configuration mode.
User Guidelines
Specifying a metric with no metric type is equivalent to specifying a metric
with a metric type of 2.
Example
The following example configures not-so-stubby-area 10 as an NSSA.
console(config)#router ospf
console(config-router)#area 10 nssa
The following example configures the metric value and type for the default
route advertised into the NSSA and configures the NSSA so that summary
LSAs are not advertised into the NSSA.
console(config-router)#area 20 nssa default-info-originate metric 250
metric-type 2 no-summary
Layer 3 Routing Commands 1629
area nssa default-info-originate (Router OSPF
Config)
Use the area nssa default-info-originate command in Router OSPF
Configuration mode to configure the metric value and type for the default
route advertised into the NSSA. The metric type can be comparable (nssa-
external 1) or noncomparable (nssa-external 2). Use the no form of the
command to return the metric value and type to the default value.
Syntax
area area-id nssa default-info-originate [integer] [comparable | non-
comparable]
no area area-id nssa default-info-originate
• area-id — Identifies the OSPF NSSA to configure. (Range: IP address or
decimal from 0–4294967295)
• integer — Specifies the metric of the default route advertised to the
NSSA. (Range: 1–16777214)
•comparable — A metric type of nssa-external 1
•non-comparable — A metric type of nssa-external 2
Default Configuration
If no metric is defined, 10 is the default configuration.
Command Mode
Router OSPF Configuration mode.
User Guidelines
This command has no user guidelines.
Example
The following example configures the metric value and type for the default
route advertised into the NSSA.
console(config-router)#area 20 nssa default-info-originate 250 non-
comparable
Layer 3 Routing Commands 1630
area nssa no-redistribute
Use the area nssa no-redistribute command in Router OSPF Configuration
mode to configure the NSSA Area Border router (ABR) so that learned
external routes are not redistributed to the NSSA.
Syntax
area area-id nssa no-redistribute
no area area-id nssa no-redistribute
• area-id — Identifies the OSPF NSSA to configure. (Range: IP address or
decimal from 0–4294967295)
Default Configuration
This command has no default configuration.
Command Mode
Router OSPF Configuration mode.
User Guidelines
This command has no user guidelines.
Example
The following example configures the NSSA ABR.
console(config-router)#area 20 nssa no-redistribute
area nssa no-summary
Use the area nssa no-summary command in Router OSPF Configuration
mode to configure the NSSA so that summary LSAs are not advertised into
the NSSA.
Syntax
area area-id nssa no-summary
no area area-id nssa no-summary
• area-id — Identifies the OSPF NSSA to configure. (Range: 0–4294967295)
Layer 3 Routing Commands 1631
Default Configuration
This command has no default configuration.
Command Mode
Router OSPF Configuration mode.
User Guidelines
This command has no user guidelines.
Example
The following example configures the NSSA so that summary LSAs are not
advertised into the NSSA.
console(config-router)#area 20 nssa no-summary
area nssa translator-role
Use the area nssa translator-role command in Router OSPF Configuration
mode to configure the translator role of the NSSA.
Syntax
area area-id nssa translator-role {always | candidate}
no area area-id nssa translator-role
• area-id — Identifies the OSPF NSSA to configure. (Range: IP address or
decimal from 0–4294967295)
• always — The router assumes the role of the translator when it becomes a
border router.
• candidate — The router to participate in the translator election process
when it attains border router status.
Default Configuration
The default role is candidate.
Command Mode
Router OSPF Configuration mode.
Layer 3 Routing Commands 1632
User Guidelines
This command has no user guidelines.
Example
The following example configures the translator role of the NSSA.
console(config-router)#area 20 nssa translator-role always
area nssa translator-stab-intv
Use the area nssa translator-stab-intv command in Router OSPF
Configuration mode to configure the translator stability interval of the NSSA.
Syntax
area area-id nssa translator-stab-intv integer
no area area-id nssa translator-stab-intv
• area-id — Identifies the OSPF NSSA to configure. (Range: IP address or
decimal from 0–4294967295)
• integer — The period of time that an elected translator continues to
perform its duties after it determines that its translator status has been
deposed by another router. (Range: 0–3600)
Default Configuration
This command has no default configuration.
Command Mode
Router OSPF Configuration mode.
User Guidelines
This command has no user guidelines.
Example
The following example configures the translator stability interval of the area
20 NSSA.
console(config-router)#area 20 nssa translator-stab-intv 2000
Layer 3 Routing Commands 1633
area range (Router OSPF)
Use the area range command in Router OSPF Configuration mode to
configure a summary prefix that an area border router advertises for a specific
area. There are two types of area ranges. An area range can be configured to
summarize intra-area routes. An ABR advertises the range rather than the
specific intra-area route as a type 3 summary LSA. Also, an area range can be
configured at the edge of an NSSA to summarize external routes reachable
within the NSSA. The range is advertised as a type 5 external LSA.
Use the no form of the command to delete an area range or revert an option
to its default.
Syntax
area area-id range prefix netmask {summarylink | nssaexternallink}
[advertise | not-advertise][cost cost]
no area area-id range prefix netmask {summarylink | nssaexternallink}
•
area-id
—
Identifies the OSPF NSSA to configure. (Range: IP address or decimal
from 0–4294967295)
•
prefix netmask
—
The summary prefix to be advertised when the ABR computes
a route to one or more networks within this prefix in this area.
•
summarylink
—
When this keyword is given, the area range is used when
summarizing prefixes advertised in type 3 summary LSAs.
•
nssaexternallink
—
When this keyword is given, the area range is used when
translating type 7 LSAs to type 5 LSAs.
•
advertise
—
[Optional] When this keyword is given, the summary prefix is
advertised when the area range is active. This is the default.
•
not-advertise
—
[Optional] When this keyword is given, neither the summary
prefix nor the contained prefixes are advertised when the area range is active.
Then the not-advertise option is given, any static cost previously configured is
removed from the system configuration.
•
cost
—
[Optional] If an optional cost is given, OSPF sets the metric field in the
summary LSA to the configured value, rather than setting the metric to the
largest cost among the networks covered by the area range. A static cost may only
be configured if the area range is configured to advertise the summary. The range
is 0 to 16,777,215. If the cost is set to 16,777,215 for type 3 summarization, a
Layer 3 Routing Commands 1634
type 3 summary LSA is not advertised, but contained networks are suppressed.
This behavior is equivalent to specifying the not-advertise option. If the range is
configured for type 7 to type 5 translation, a type 5 LSA is sent if the metric is set
to 16,777,215; however, other routers will not compute a route from a type 5
LSA with this metric.
Default Configuration
No area ranges are configured by default. No cost is configured by default.
Command Mode
OSPFv2 Router Configuration mode
User Guidelines
The no form of this command can be used to delete an area range. For
example:
!! Create area range
console (config-router)#area 1 range 10.0.0.0 255.0.0.0 summarylink
!! Delete area range
console (config-router)#no area 1 range 10.0.0.0 255.0.0.0 summarylink
The no form may be used to revert the [advertise | not-advertise] option to
its default without deleting the area range. Deleting and recreating the area
range would cause OSPF to temporarily advertise the prefixes contained
within the range. Note that using either the advertise or not-advertise
keyword reverts the configuration to the default. For example:
!! Create area range. Suppress summary.
console (config-router)#area 1 range 10.0.0.0 255.0.0.0 summarylink not-
advertise
!! Advertise summary.
console (config-router)#no area 1 range 10.0.0.0 255.0.0.0 summarylink not-
advertise
The no form may be use to remove a static area range cost, so that OSPF sets
the cost to the largest cost among the contained routes. For example:
!! Create area range with static cost.
console (config-router)#area 1 range 10.0.0.0 255.0.0.0 summarylink cost 1000
!! Remove static cost.
console (config-router)#no area 1 range 10.0.0.0 255.0.0.0 summarylink cost
Layer 3 Routing Commands 1635
If the user tries to configure both types of ranges for the same prefix and area:
A T3 range with the same prefix is already configured on this area.
If the network mask is invalid:
console (config-router)#area 1 range 0.0.0.0 0.0.0.0 summarylink
An area range mask must have contiguous ones and be no longer than 31 bits.
If the prefix is not a valid area range prefix:
console (config-router)#area 1 range 0.0.0.0 255.0.0.0 summarylink
Cannot create this area range because it represents a default route.
console (config-router)#area 1 range 225.0.0.0 255.0.0.0 summarylink
225.0.0.0 255.0.0.0 is an invalid prefix for an area range.
If the maximum number of ranges is already configured:
console (config-router)#area 3 range 90.0.0.0 255.0.0.0 summarylink cost 50
The maximum number of area ranges (60) is already configured.
If the user tries to delete an area range that does not exist:
console (config-router)#no area 4 range 40.0.0.0 255.0.0.0 summarylink
Delete failed. No matching area range configured.
Example
The following example defines an area range for the area 20.
console(config-router)#area 20 range 192.168.6.0 255.255.255.0 summarylink
advertise
area stub
Use the area stub command in Router OSPF Configuration mode to create a
stub area for the specified area ID. A stub area is characterized by the fact
that AS External LSAs are not propagated into the area. Removing AS
Layer 3 Routing Commands 1636
External LSAs and Summary LSAs can significantly reduce the link state
database of routers within the stub area. Use the no form of the command to
remove the stub area.
Syntax
area area-id stub
no area area-id stub
• area-id — Identifies the area identifier of the OSPF stub. (Range: IP
address or decimal from 0–4294967295)
Default Configuration
This command has no default configuration.
Command Mode
Router OSPF Configuration mode.
User Guidelines
This command has no user guidelines.
Examples
The following examples define area 3 for the stub and then removes the stub
area.
console(config-router)#area 3 stub
console(config-router)#no area 3 stub
area stub no-summary
Use the area stub no-summary command in Router OSPF Configuration
mode to prevent Summary LSAs from being advertised into the NSSA. Use
the no form of the command to return the Summary LSA mode to the
default value.
Syntax
area area-id stub no-summary
no area area-id stub no-summary
Layer 3 Routing Commands 1637
• area-id — Identifies the OSPF area to configure. (Range: IP address or
decimal from 0–4294967295)
Default Configuration
Disabled is the default configuration.
Command Mode
Router OSPF Configuration mode.
User Guidelines
This command has no user guidelines.
Example
The following example prevents the Summary LSA from being advertised
into the area 3 NSSA.
console(config-router)#area 3 stub no-summary
area virtual-link
Use the area virtual-link command in Router OSPF Configuration mode to
create the OSPF virtual interface for the specified area-id and neighbor
router. To remove the link, use the no form of the command. Use the optional
parameters to configure authentication, dead-interval, hello-interval,
retransmit-interval and transmit-delay. If the area has not been previously
created, it is created by this command. If the area already exists, the virtual-
link information is added or modified.
Syntax
area area-id virtual-link router-id [authentication [message-digest | null]]
[hello-interval seconds] [retransmit-interval seconds] [transmit-delay
seconds] [dead-interval seconds] [[authentication-key key] | [message-
digest-key key-id md5 key]]
no area area-id virtual-link router-id [authentication [message-digest | null]]
[hello-interval] [retransmit-interval] [transmit-delay] [dead-interval]
[[authentication-key] | [message-digest-key]]
Layer 3 Routing Commands 1638
• area-id—Identifies the OSPF stub area to configure. (Range: IP address or
decimal from 0-4294967295)
• router-id—Valid IP address.
•authentication—Specifies authentication type.
•message-digest —Specifies that message-digest authentication is used.
•null—No authentication is used. Overrides password or message-digest
authentication if configured for the area.
•hello-interval seconds—Number of seconds to wait before sending hello
packets to the OSPF virtual interface. (Range: 1–65535)
•dead-interval seconds—Number of seconds to wait before the OSPF
virtual interface on the virtual interface is assumed to be dead. (Range: 1–
65535)
•retransmit-interval seconds—The number of seconds to wait between
retransmitting LSAs if no acknowledgment is received. (Range: 0–3600)
•transmit-delay seconds—Number of seconds to increment the age of the
LSA before sending, based on the estimated time it takes to transmit from
the interface. (Range: 0–3600)
•md5—Use MD5 Encryption for an OSPF Virtual Link.
• key—Authentication key for the specified interface. (Range: 8 bytes or less
if the authentication type is simple and 16 bytes or less if the type is
encrypt.)
• key-id—Authentication key identifier for the authentication type encrypt.
(Range: 0–255)
Default Configuration
Parameter Default
area-id No area ID is predefined.
router-id No router ID is predefined.
hello-interval
seconds
10 seconds
retransmit-interval
seconds
5 seconds
Layer 3 Routing Commands 1639
Command Mode
Router OSPF Configuration mode.
User Guidelines
Unauthenticated interfaces cannot be configured with an authentication key.
Use the
area virtual-link authentication
command to enable configuration of
an authentication key.
Example
The following example establishes a virtual link with a 40-second transmit-
delay interval and default values for all other optional parameters:
router ospf
network 10.50.50.0 0.0.0.255 area 10
area 10 virtual-link 192.168.2.2 transmit-delay 40
The following example establishes a virtual link with MD5 authentication:
router ospf
network 10.50.50.0 0.0.0.255 area 10
area 10.0.0.0 virtual-link 10.3.4.5 message-digest-key 100 md5 test123
area virtual-link authentication
Use the area virtual-link authentication command in Router OSPF
Configuration mode to configure the authentication type and key for the
OSPF virtual interface identified by the area ID and neighbor ID. Use the no
form of the command to return the authentication type to the default value.
transmit-delay
seconds
1 second
dead-interval
seconds
40 seconds
authentication-key
key
No key is predefined.
message-digest-key
key-id md5 key
No key is predefined.
Parameter Default
Layer 3 Routing Commands 1640
Syntax
area area-id virtual-link neighbor-id authentication [none | simple key |
encrypt key key-id]
no area area-id virtual-link neighbor-id authentication
• area-id — Identifies the OSPF area to configure. (Range: IP address or
decimal from 0–4294967295)
• neighbor-id — Identifies the Router identifier of the neighbor.
• encrypt — Use MD5 Encryption for an OSPF Virtual Link.
• key — Authentication key for the specified interface. (Range: 8 bytes or
less if the authentication type is simple and 16 bytes or less if the type is
encrypt.)
• key-id — Authentication key identifier for the authentication type
encrypt. (Range: 0–255)
Default Configuration
This command has no default configuration.
Command Mode
Router OSPF Configuration mode.
User Guidelines
Unauthenticated interfaces cannot be configured with an authentication key.
If no parameters are specified after the authentication keyword, then plain-
text password authentication is used.
Example
The following example configures the authentication type and key for the
area 10 OSPF virtual interface and neighbor ID.
console(config-router)#area 10 virtual-link 192.168.2.7 authentication
console(config-router)#area 10 virtual-link 192.168.2.7 authentication
encrypt test123 1001010
Layer 3 Routing Commands 1641
area virtual-link dead-interval
Use the area virtual-link dead-interval command in Router OSPF
Configuration mode to configure the dead interval for the OSPF virtual
interface on the virtual interface identified by area-id and neighbor router.
Use the no form of the command to return the dead interval to the default
value.
Syntax
area area-id virtual-link neighbor-id dead-interval seconds
no area area-id virtual-link neighbor-id dead-interval
• area-id — Identifies the OSPF area to configure. (Range: IP address or
decimal from 0–4294967295)
• neighbor-id — Identifies the Router ID of the neighbor.
• seconds — Number of seconds to wait before the OSPF virtual interface
on the virtual interface is assumed to be dead. (Range: 1–2147483647)
Default Configuration
40 seconds is the default configuration.
Command Mode
Router OSPF Configuration mode.
User Guidelines
This command has no user guidelines.
Example
The following example configures the dead interval for the area 10 OSPF
virtual interface on the virtual interface and neighbor router.
console(config-router)#area 10 virtual-link 192.168.2.2 dead-interval 655555
Layer 3 Routing Commands 1642
area virtual-link hello-interval
Use the area virtual-link hello-interval command in Router OSPF
Configuration mode to configure the hello interval for the OSPF virtual
interface on the virtual interface identified by the area ID and neighbor ID.
Use the no form of the command to return the hello interval to the default
value.
Syntax
area area-id virtual-link neighbor-id hello-interval seconds
no area area-id virtual-link neighbor-id hello-interval
• area-id — Identifies the OSPF area to configure. (Range: IP address or
decimal from 0–4294967295)
• neighbor-id — Identifies the Router ID of the neighbor.
• seconds — Number of seconds to wait before sending hello packets to the
OSPF virtual interface. (Range: 1–65535)
Default Configuration
10 seconds is the default configuration.
Command Mode
Router OSPF Configuration mode.
User Guidelines
This command has no user guidelines.
Example
The following example configures a 50-second wait interval.
console(config-router)#area 10 virtual-link 192.168.2.2 hello-interval 50
Layer 3 Routing Commands 1643
area virtual-link retransmit-interval
Use the area virtual-link retransmit-interval command in Router OSPF
Configuration mode to configure the retransmit interval for the OSPF virtual
interface on the virtual interface identified by the area ID and neighbor ID.
Use the no form of the command to return the retransmit interval to the
default value.
Syntax
area area-id virtual-link neighbor-id retransmit-interval seconds
no area area-id virtual-link neighbor-id retransmit-interval
• area-id — Identifies the OSPF area to configure. (Range: IP address or
decimal from 0–4294967295)
• neighbor-id — Identifies the Router ID of the neighbor.
• seconds — The number of seconds to wait between retransmitting LSAs if
no acknowledgment is received. (Range: 0–3600)
Default Configuration
The default configuration is 5 seconds.
Command Mode
Router OSPF Configuration mode.
User Guidelines
This command has no user guidelines.
Example
The following example configures a 500-second retransmit wait interval.
console(config-router)#area 10 virtual-link 192.168.2.2 retransmit-interval
500
Layer 3 Routing Commands 1644
area virtual-link transmit-delay
Use the area virtual-link transmit-delay command in Router OSPF
Configuration mode to configure the transmit delay for the OSPF virtual
interface identified by the area ID and neighbor ID. Use the no form of the
command to return the transmit delay to the default value.
Syntax
area area-id virtual-link neighbor-id transmit-delay seconds
no area area-id virtual-link neighbor-id transmit-delay
• area-id — Identifies the OSPF area to configure. (Range: IP address or
decimal from 0–4294967295)
• neighbor-id — Identifies the Router ID of the neighbor.
• seconds — Number of seconds to increment the age of the LSA before
sending, based on the estimated time it takes to transmit from the
interface. (Range: 0–3600)
Default Configuration
1 second is the default configuration.
Command Mode
Router OSPF Configuration mode.
User Guidelines
This command has no user guidelines.
Example
The following example configures a 40-second transmit-delay interval.
console(config-router)#area 10 virtual-link 192.168.2.2 transmit-delay 40
auto-cost
By default, OSPF computes the link cost of each interface from the interface
bandwidth. The link cost is computed as the ratio of a “reference bandwidth”
to the interface bandwidth (ref_bw / interface bandwidth), where interface
Layer 3 Routing Commands 1645
bandwidth is defined by the “bandwidth” command. Because the default
reference bandwidth is 100 Mbps, OSPF uses the same default link cost for all
interfaces whose bandwidth is 100 Mbps or greater. To change the reference
bandwidth, use the auto-cost command, specifying the reference bandwidth
in megabits per second. The different reference bandwidth can be
independently configured for OSPFv2 and OSPFv3.
Syntax
auto-cost reference-bandwidth ref_bw
• ref_bw — The reference bandwidth in Mbps (Range: 1–4294967).
Default Configuration
The default reference bandwidth is 100 Mbps.
Command Mode
OSPFv2 or OSPFv3 Router Configuration mode.
User Guidelines
There are no user guidelines for this command.
Example
The following example configures a reference bandwidth of 500 Mbps.
console(config-router)#auto-cost reference-bandwidth 500
bandwidth
By default, OSPF computes the link cost of an interface as the ratio of the
reference bandwidth to the interface bandwidth. Reference bandwidth is
specified with the auto-cost command. For the purpose of the OSPF link cost
calculation, the bandwidth command specifies the interface bandwidth. The
bandwidth is specified in kilobits per second. If no bandwidth is configured,
the bandwidth defaults to the actual interface bandwidth for port-based
routing interfaces and to 10 Mbps for VLAN routing interfaces. This
command does not affect the actual speed of an interface.
Layer 3 Routing Commands 1646
Syntax
bandwidth bw
• bw — Interface bandwidth in Kbps (Range: 1–10000000).
Default Configuration
The default reference bandwidth is 10 Mbps
Command Mode
Interface Configuration (VLAN) mode.
User Guidelines
There are no user guidelines for this command.
Example
The following example configures the interface bandwidth to 500000 Kbps.
console(config-if-vlan1)#bandwidth 500000
bfd
Use the bfd command to enable processing of BFD events by OSPF on all
interfaces enabled for BFD. Use the no form of the command to ignore BFD
events.
Syntax
bfd
no bfd
Default Configuration
The processing of BFD events is not enabled by default.
Command Mode
Router OSPF Configuration mode, Router OSPFv3 Configuration mode
Layer 3 Routing Commands 1647
User Guidelines
BFD processing notifies OSPF of layer 3 connectivity issues with the peer.
The interface must be a VLAN interface enabled for routing.
BFD event notification must also be enabled in VLAN interface mode in
order for processing of BFD events to occur.
Command History
Introduced in version 6.3.0.1 firmware.
Example
The following example
console#configure
console(config)#ip routing
console(config)#interface vlan 3
console(config-if-vlan3)#ip address 192.168.0.1 /24
console(config-if-vlan3)#ip ospf area 0
console(config-if-vlan3)#ip ospf bfd
onsole(config-if-vlan3)#exit
console(config)#router ospf
console(config-router)#bfd
capability opaque
Use the capability opaque command to enable Opaque Capability on the
router. Use the “no” form of this command to disable Opaque Capability.
Syntax
capability opaque
no capability opaque
Default Configuration
Opaque Capability is enabled by default.
Command Mode
Router Configuration mode.
Layer 3 Routing Commands 1648
User Guidelines
There are no user guidelines for this command.
Example
console(config-router)#capability opaque
clear ip ospf
Use the clear ip ospf command to reset specific OSPF states. If no
parameters are specified, OSPF is disabled and then re-enabled.
Syntax
clear ip ospf [{configuration | redistribution | counters | neighbor
[interface vlan vlan id [neighbor id]]}] [vrf vrf-name]
•configuration — Reset the OSPF configuration to factory defaults.
•redistribution — Flush all self-originated external LSAs. Reapply the
redistribution configuration and re originate prefixes as necessary.
•counters — Reset global and interface statistics.
•neighbor — Drop the adjacency with all OSPF neighbors. On each
neighbor's interface, send a one-way hello. Adjacencies may then be
reestablished.
•interface vlan vlan-id — Drop adjacency with all neighbors on a specific
interface.
• neighbor-id — Drop adjacency with a specific router ID on a specific
interface.
• vrf-name—The name of the VRF instance on which the command
operates. If no VRF parameter is given, counters for the default (global)
router instance is cleared.
Default Configuration
There is no default configuration for this command.
Command Mode
Privileged Exec mode.
Layer 3 Routing Commands 1649
User Guidelines
The VRF identified in the parameter must have been previously created or an
error is returned.
Example
The following example shows the options for the clear ip ospf command.
console#clear ip ospf ?
<cr> Press enter to execute the command.
configuration Restore OSPF configuration to defaults
counters Clear OSPF counters
neighbor Bounce all OSPF neighbors
redistribution Flush and re-originate external LSAs
clear ip ospf stub-router
Use the clear ip ospf stub-router command to force OSPF to exit stub router
mode when it has automatically entered stub router mode because of a
resource limitation.
Syntax
clear ip ospf stub-router [vrf vrf-name]
• vrf-name—The name of the VRF instance on which the command
operates. If no VRF parameter is given, counters for the default (global)
router instance is cleared.
Default Configuration
There is no default configuration for this command.
Command Mode
Privileged Exec mode
User Guidelines
OSPF only exits stub router mode if it entered stub router mode because of a
resource limitation or if it is in stub router mode at startup. This command
has no effect if OSPF is configured to be in stub router mode permanently.
The VRF identified in the parameter must have been previously created or an
error is returned.
Layer 3 Routing Commands 1650
compatible rfc1583
Use the compatible rfc1583 command in Router OSPF Configuration mode
to enable OSPF 1583 compatibility. Use the no form of the command to
disable it.
Syntax
compatible rfc1583
no compatible rfc1583
Syntax Description
This command has no arguments or keywords.
Default Configuration
Compatible with RFC 1583.
Command Mode
Router OSPF Configuration mode.
User Guidelines
If all OSPF routers in the routing domain are capable of operating according
to RFC 2328, OSPF 1583 compatibility mode should be disabled.
Example
The following example enables 1583 compatibility.
console(config-router)#compatible rfc1583
default-information originate (Router OSPF
Configuration)
Use the default-information originate command in Router OSPF
Configuration mode to control the advertisement of default routes. Use the
no form of the command to return the default route advertisement settings
to the default value.
Layer 3 Routing Commands 1651
Syntax
default-information originate [always] [metric metric-value] [metric-type
type-value]
no default-information originate [metric] [metric-type]
•always—Always advertise default routes.
• metric-value—The metric (or preference) value of the default route.
(Range: 1–16777214)
•type-value—One of the following:
1
External type-1 route.
2
External type-2 route.
Default Configuration
The default configuration is no default-information originate. The default
metric is none and the default type is 2.
Command Mode
Router OSPF Configuration mode.
User Guidelines
The only routers that actually have Internet connectivity should advertise a
default route. All other routers in the network should learn the default route
from the routers that have connections to the Internet. The edge router
should also have a static default route configured with an upstream ISP router
as the destination. The always keyword will cause the router to advertise a
default route to its neighbors, even if no valid default route is known.
Example
The following example always advertises default routes.
console(config-router)#default-information originate always metric 100
metric-type 1
Layer 3 Routing Commands 1652
default-metric
Use the default-metric command in Router OSPF Configuration mode to set
a default for the metric of distributed routes. Use the no form of the
command to remove the metric from the distributed routes. If the area has
not been previously created, it is created by this command. If the area already
exists, the default-metric information is added or modified.
Syntax
default-metric metric-value
no default-metric
• metric-value — The metric (or preference) value of the default route.
(Range: 1–16777214)
Default Configuration
This command has no default configuration.
Command Mode
Router OSPF Configuration mode.
User Guidelines
This command has no user guidelines.
Example
The following example sets a value of 50 for the default metric.
console(config-router)#default-metric 50
distance ospf
The distance ospf command sets the preference values of OSPF route types
in the router. Lower route preference values are preferred when determining
the best route. The type of OSPF route can be intra, inter, external. All the
external type routes are given the same preference value. Use the no form of
this command to reset the preference values to the default.
Layer 3 Routing Commands 1653
Syntax
distance ospf {[intra-area dist1] [inter-area dist2] [external dist3]}
no distance ospf {intra-area | inter-area | external}
• intra-area dist1—Used to select the best path within an area when there
are two or more routes to the same destination from two different routing
protocols (Range: 1–255).
• inter-area dist2—Used to select the best path from one area to another
area when there are two or more routes to the same destination from two
different routing protocols (Range: 1–255).
• external dist3—Used to select the best path for routes from other routing
domains, learned by redistribution when there are two or more routes to
the same destination from two different routing protocols (Range: 1–255).
Default Configuration
The default preference value is 110 for dist1, dist2 and dist3.
Command Mode
Router OSPF Configuration mode.
Router OSPFv3 Configuration mode.
User Guidelines
There are no user guidelines for this command.
Examples
The following examples set route preference values of OSPF in the router.
console(config-router)#distance ospf intra 4
console(config-router)#distance ospf type1 19
distribute-list out
Use the distribute-list out command in Router OSPF Configuration mode to
specify the access list to filter routes received from the source protocol. Use
the no form of the command to remove the specified source protocol from
the access list.
Layer 3 Routing Commands 1654
Syntax
distribute-list name out {bgp | rip | static \ connected}
no distribute-list name out {bgp | rip | static \ connected}
• name—The name used to identify an existing ACL. The range is 1–31
characters.
•bgp—Apply the specified access list when BGP is the source protocol.
•rip—Apply the specified access list when RIP is the source protocol.
•static—Apply the specified access list when packets come through the
static route.
•connected—Apply the specified access list when packets come from a
directly connected route.
Default Configuration
This command has no default configuration.
Command Mode
Router OSPF Configuration mode.
User Guidelines
This command has no user guidelines.
Example
The following example specifies the access list to filter routes received from
the RIP source protocol.
console(config-router)#distribute-list ACL40 out rip
enable
Use the enable command in Router OSPF Configuration mode to set the
administrative mode of OSPF in the router (active). OSPF is now globally
enabled using the router ospf command. Use the no form of the command to
disable the administrative mode for OSPF.
Layer 3 Routing Commands 1655
Syntax
enable
no enable
Default Configuration
Enabled is the default configuration.
Command Mode
Router OSPF Configuration mode.
User Guidelines
The no form of the enable command removes the OSPF router configuration
from the running config. It does not, however, reset the OSPF configuration.
For example, following no enable with the enable command restores the
OSPF configuration to the running config.
OSPF must be disabled in order to assign or change the router ID.
Example
The following example enables OSPF router mode.
console(config-router)#enable
exit-overflow-interval
Use the exit-overflow-interval command in Router OSPF Configuration
mode to configure the exit overflow interval for OSPF. When a router leaves
the overflow state it can originate non-default AS-external-LSAs. When set to
0, the router will not leave Overflow State until restarted. Use the no form of
the command to return the interval to the default value.
Syntax
exit-overflow-interval seconds
no exit-overflow-interval
• seconds — Number of seconds after entering overflow state that a router
will wait before attempting to leave the overflow state. (Range: 0–
2147483647)
Layer 3 Routing Commands 1656
Default Configuration
0 seconds is the default configuration.
Command Mode
Router OSPF Configuration mode.
User Guidelines
This command has no user guidelines.
Example
The following example sets the exit overflow interval for OSPF at 10 seconds.
console(config-router)#exit-overflow-interval 10
external-lsdb-limit
Use the external-lsdb-limit command in Router OSPF Configuration mode
to configure the external LSDB limit for OSPF. If the value is -1, then there is
no limit. When the number of non-default AS-external-LSAs in a router's
link-state database reaches the external LSDB limit, the router enters
overflow state. The router never holds more than the external LSDB limit
non-default AS-external-LSAs in it database. Use the no form of the
command to return the limit to the default value.
Syntax
external-lsdb-limit integer
no external-lsdb-limit
• integer — Maximum number of non-default AS-external-LSAs allowed in
the router's link-state database. (Range: –1 to 2147483647)
Default Configuration
-1 is the default configuration.
Command Mode
Router OSPF Configuration mode.
Layer 3 Routing Commands 1657
User Guidelines
The external LSDB limit MUST be set identically in all routers attached to
the OSPF backbone and/or any regular OSPF area.
Example
The following example configures the external LSDB limit for OSPF with the
number of non-default AS-external-LSAs set at 20.
console(config-router)#external-lsdb-limit 20
ip ospf area
The ip ospf area command enables OSPFv2 and sets the area ID of an
interface. This command supersedes the effects of network area command. It
can also configure the advertisability of the secondary addresses on this
interface into OSPFv2 domain. Use the “no” form of this command to
disable OSPFv2 on an interface.
Syntax
ip ospf area area-id [secondaries none]
no ip ospf area [secondaries none]
• area-id — The ID of the area (Range: IP address or decimal from 0 –
4294967295).
Default Configuration
OSPFv2 is disabled by default. No area id is configured by default.
Command Mode
Interface Configuration (VLAN) mode.
User Guidelines
There are no user guidelines for this command.
Example
console(config-if-vlan1)#ip ospf area 192.168.1.10
console(config-if-vlan1)#ip ospf area 3232235786
Layer 3 Routing Commands 1658
ip ospf authentication
Use the ip ospf authentication command in the Interface Configuration
mode to set the OSPF Authentication Type and Key for the specified
interface. Use the no form of the command to return the authentication type
to the default value.
Syntax
ip ospf authentication {none | {simple key} | {encrypt key key-id}}
no ip ospf authentication
• encrypt — MD5 encrypted authentication key.
• key — Authentication key for the specified interface. (Range: 8 bytes or
less if the authentication type is simple and 16 bytes or less if the type is
encrypt.)
• key-id — Authentication key identifier for the authentication type
encrypt. (Range: 0–25)
Default Configuration
This command has no default configuration.
Command Mode
Interface Configuration (VLAN) mode.
User Guidelines
Unauthenticated interfaces do not need an authentication key or
authentication key ID.
Example
The following example sets the OSPF Authentication Type and Key for VLAN
15.
console(config-if-vlan15)#ip ospf authentication encrypt test123 100
Layer 3 Routing Commands 1659
ip ospf cost
Use the ip ospf cost command in Interface Configuration mode to configure
the cost on an OSPF interface. Use the no form of the command to return
the cost to the default value.
Syntax
ip ospf cost interface-cost
no ip ospf cost
• inte
rface-cost
— Specifies the cost (link-state metric) of the OSPF
interface. (Range: 1–65535)
Default Configuration
10 is the default link-state metric configuration.
Command Mode
Interface Configuration (VLAN) mode.
User Guidelines
This command has no user guidelines.
Example
The following example configures the cost on the OSPF interface at 5.
console(config-if-vlan1)#ip ospf cost 5
ip ospf database-filter all out
Use the ip ospf database-filter all out command in Interface Configuration
mode to prevent flooding of OSPF LSAs on an interface.
Use the no form of the command to enable flooding of LSAs on an interface.
Syntax
ip ospf database-filter all out
no ip ospf database-filter all out
Layer 3 Routing Commands 1660
Default Configuration
By default, LSAs are flooded on all interfaces in a routed VLAN.
Command Mode
Interface Configuration mode
User Guidelines
This command is only applicable to OSPFv2 routing configurations.
ip ospf dead-interval
Use the ip ospf dead-interval command in Interface Configuration to set the
OSPF dead interval for the specified interface. Use the no form of the
command to return the interval to the default value.
Syntax
ip ospf dead-interval seconds
no ip ospf dead-interval
• seconds — Number of seconds that a router's Hello packets have not been
seen before its neighbor routers declare that the router is down. (Range: 1–
65535)
Default Configuration
40 is the default number of seconds.
Command Mode
Interface Configuration (VLAN) mode
User Guidelines
The value for the length of time must be the same for all routers attached to a
common network. This value should be some multiple of the Hello Interval
(i.e., 4).
Example
The following example sets the dead interval at 30 seconds.
Layer 3 Routing Commands 1661
console(config-if-vlan1)#ip ospf dead-interval 30
ip ospf hello-interval
Use the ip ospf hello-interval command in Interface Configuration mode to
set the OSPF hello interval for the specified interface. Use the no form of the
command to return the interval to the default value.
Syntax
ip ospf hello-interval seconds
no ip ospf hello-interval
• seconds — Number of seconds to wait before sending Hello packets from
the interface. (Range: 1–65535)
Default Configuration
10 is the default number of seconds.
Command Mode
Interface Configuration (VLAN) mode.
User Guidelines
The value for the length of time must be the same for all routers attached to a
network.
Example
The following example sets the OSPF hello interval at 30 seconds.
console(config-if-vlan1)#ip ospf hello-interval 30
ip ospf mtu-ignore
Use the ip ospf mtu-ignore command in Interface Configuration mode to
disable OSPF maximum transmission unit (MTU) mismatch detection.
OSPF Database Description packets specify the size of the largest IP packet
that can be sent without fragmentation on the interface. When a router
receives a Database Description packet, it examines the MTU advertised by
the neighbor. By default, if the MTU is larger than the router can accept, the
Layer 3 Routing Commands 1662
Database Description packet is rejected and the OSPF adjacency is not
established. Use the no form of the command to enable OSPF maximum
transmission unit (MTU) mismatch detection.
Syntax
ip ospf mtu-ignore
no ip ospf mtu-ignore
Default Configuration
This command has no default configuration.
Command Mode
Interface Configuration (VLAN) mode.
User Guidelines
This command has no user guidelines.
Example
The following example disables OSPF MTU mismatch detection on VLAN
interface 15.
console(config-if-vlan1)#ip ospf mtu-ignore
ip ospf network
Use the ip ospf network command to configure OSPF to treat an interface as
a point-to-point rather than broadcast interface. To return to the default
value, use the no form of this command.
Syntax
ip ospf network {broadcast | point-to-point}
no ip ospf network
• broadcast — Set the network type to broadcast.
• point-to-point — Set the network type to point-to-point
Layer 3 Routing Commands 1663
Default Configuration
Interfaces operate in broadcast mode by default.
Command Mode
Interface Configuration (VLAN) mode.
User Guidelines
OSPF treats interfaces as broadcast interfaces by default. Loopback interfaces
have a special loopback network type, which cannot be changed. When there
are only two routers on the network, OSPF can operate more efficiently by
treating the network as a point-to-point network. For point-to-point
networks, OSPF does not elect a designated router or generate a network link
state advertisement (LSA). Both endpoints of the link must be configured to
operate in point-to-point mode.
Example
The following example shows the options for the ip ospf network command.
console(config-if-vlan1)#ip ospf network ?
broadcast Set the OSPF network type to Broadcast
point-to-point Set the OSPF network type to Point-to-Point
ip ospf priority
Use the ip ospf priority command in Interface Configuration mode to set the
OSPF priority for the specified router interface. Use the no form of the
command to return the priority to the default value.
Syntax
ip ospf priority number-value
no ip ospf priority
•
number-value
— Specifies the OSPF priority for the specified router
interface. (Range: 0–255)
Default Configuration
1 is the default integer value.
Layer 3 Routing Commands 1664
Command Mode
Interface Configuration (VLAN) mode.
User Guidelines
A value of 1 is the highest router priority. A value of 0 indicates that the
interface is not eligible to become the designated router on this network.
Example
The following example sets the OSPF priority for the VLAN 15 router at 100.
console(config-if-vlan1)#ip ospf priority 100
ip ospf retransmit-interval
Use the ip ospf retransmit-interval command in Interface Configuration
mode to set the OSPF retransmit Interval for the specified interface. Use the
no form of the command to return the interval to the default value.
Syntax
ip ospf retransmit-interval seconds
no ip ospf retransmit-interval
• seconds — Number of seconds between link-state advertisement
retransmissions for adjacencies belonging to this router interface. This
value is also used when retransmitting database description and link-state
request packets. (Range: 0–3600 seconds)
Default Configuration
5 is the default number of seconds.
Command Mode
Interface Configuration (VLAN) mode.
User Guidelines
A value of 1 is the highest router priority. A value of 0 indicates that the
interface is not eligible to become the designated router on this network.
Layer 3 Routing Commands 1665
Example
The following example sets the OSPF retransmit Interval for VLAN 15 at 50
seconds.
console(config-if-vlan1)#ip ospf retransmit-interval 50
ip ospf transmit-delay
Use the ip ospf transmit-delay command in Interface Configuration mode to
set the OSPF Transit Delay for the specified interface. Use the no form of the
command to return the delay to the default value.
Syntax
ip ospf transmit-delay seconds
no ip ospf transmit-delay
• seconds — Sets the estimated number of seconds it takes to transmit a link
state update packet over this interface. (Range: 1–3600 seconds)
Default Configuration
1 is the default number of seconds.
Command Mode
Interface Configuration (VLAN) mode.
User Guidelines
This command has no user guidelines.
Example
The following example sets the OSPF Transit Delay for VLAN 15 at 20
seconds.
console(config-if-vlan1)#ip ospf transmit-delay 20
log adjacency-changes
Use the log adjacency-changes command in OSPFv2 Router Configuration
mode to enable logging of OSPFv2 neighbor state changes.
Layer 3 Routing Commands 1666
Use the no form of the command to disable state change logging.
Syntax
log-adjacency-changes [detail]
no log-adjacency-changes [detail]
•detail—(Optional) When this keyword is specified, all adjacency state
changes are logged. Otherwise, OSPF only logs transitions to FULL state
and when a backwards transition occurs.
Default Configuration
Adjacency changes are not logged by default.
Command Mode
OSPFv2 Router Configuration mode
User Guidelines
State changes are logged with INFORMATIONAL severity.
max-metric router-lsa
Use the max-metric router-lsa command in router OSPF Global
Configuration mode to configure OSPF to enable stub router mode.
To disable stub router mode, use the no max-metric router-lsa command in
OSPFv2 Global Router Configuration mode.
Syntax
max-metric router-lsa [on-startup seconds] [summary-lsa {metric}]
no max-metric router-lsa [on-startup] [summary-lsa]
•on-startup—(Optional) OSPF starts in stub router mode after a reboot.
• seconds—(Required if on-startup) The number of seconds that OSPF
remains in stub router mode after a reboot. The range is 5 to 86,400
seconds. There is no default value.
•summary-lsa—(Optional) Set the metric in type 3 and 4 summary LSAs to
LsInfinity (0xFFFFFF).
Layer 3 Routing Commands 1667
• metric—(Optional) Metric to send in summary LSAs when in stub router
mode. Range is 1 to 16,777,215. Default is 16,711,680 (0xFF0000).
Default Configuration
By default, OSPF is not in stub router mode.
Command Mode
OSPFv2 Global Configuration mode
User Guidelines
When OSPF is in stub router mode, as defined by RFC 3137, OSPF sets the
metric in the non-stub links in its router LSA to LsInfinity. Other routers
therefore compute very long paths through the stub router, and prefer any
alternate path. Doing so eliminates all transit traffic through the stub router,
when alternate routes are available. Stub router mode is useful when adding
or removing a router from a network or to avoid transient routes when a
router reloads.
One can administratively force OSPF into stub router mode. OSPF remains
in stub router mode until OSPF is taken out of stub router mode.
Alternatively, one can configure OSPF to start in stub router mode for a
specific period of time after the router boots up.
If the summary LSA metric is set to 16,777,215, other routers will skip the
summary LSA when they compute routes.
If the router is configured to enter stub router mode on startup (max-metric
router-lsa on-startup), and one then enters max-metric router lsa, there is no
change. If OSPF is administratively in stub router mode (the max-metric
router-lsa command has been given), and one configures OSPF to enter stub
router mode on startup (max-metric router-lsa on-startup), OSPF exits stub
router mode (assuming the startup period has expired) and the configuration
is updated.
The command no max-metric router-lsa clears either type of stub router
mode (always or on-startup) and resets the summary-lsa option. If OSPF is
configured to enter global configuration mode on startup, and during normal
operation one wants to immediately place OSPF in stub router mode, one
Layer 3 Routing Commands 1668
may issue the command no max-metric router-lsa on-startup. The command
no max-metric router-lsa summary-lsa causes OSPF to send summary LSAs
with metrics computed using normal procedures defined in RFC 2328.
maximum-paths
Use the maximum-paths command in Router OSPF Configuration mode to
set the number of paths that OSPF can report for a given destination. Use the
no form of the command to reset the number to the default value.
Syntax
maximum-paths integer
no maximum-paths
• integer — Number of paths that OSPF can report for a given destination.
(Range: 1–4.)
Default Configuration
4 is the integer default value.
Command Mode
Router OSPF Configuration mode.
User Guidelines
OSPF is only enabled on an interface if the primary IPv4 address on the
interface matches a network area range. Any individual interface can only be
attached to a single area. If an interface address matches multiple network
area ranges, the interface is assigned to the area for the first matching range.
If the ip ospf area command is given for an interface, it overrides any
matching network area command.
OSPF only advertises IP subnets for secondary IP addresses if the secondary
address is within the range of a network area command for the same area as
the primary address on the same interface.
When a network area command is deleted, matching interfaces are
reevaluated against all remaining network area commands.
Layer 3 Routing Commands 1669
Example
The following example sets the number of paths at 2 that OSPF can report
for a given destination.
console(config-router)#maximum-paths 2
network area
The network area command enables OSPFv2 on an interface and sets its area
ID if the ip-address of an interface is covered by this network command. Use
the “no” form of this command to disable OSPFv2 on an interface.
Syntax
network ip-address wildcard-mask area area-id
no network ip-address wildcard-mask area area-id
• ip-address — Base IPv4 address of the network area.
• wildcard-mask — The network mask indicating the wildcard bit. A 1 bit in
the mask indicates a don’t care condition for the corresponding bit in the
address.
• area-id — The ID of the area (Range: IPv4 address or 32-bit decimal in the
range 0–4294967295).
Default Configuration
OSPFv2 is disabled
Command Mode
Router OSPF Configuration mode.
User Guidelines
OSPF is only enabled on an interface if the primary IPv4 address on the
interface matches a network area range. Any individual interface can only be
attached to a single area. If an interface address matches multiple network
area ranges, the interface is assigned to the area for the first matching range.
If the ip ospf area command is given for an interface, it overrides any
matching network area command.
Layer 3 Routing Commands 1670
OSPF only advertises IP subnets for secondary IP addresses if the secondary
address is within the range of a network area command for the same area as
the primary address on the same interface.
When a network area command is deleted, matching interfaces are
reevaluated against all remaining network area commands.
Ones in the wildcard mask indicate “don't care” bits in the network address.
Example
console(config-router)#network 10.50.50.0 0.0.0.255 area 4
nsf
Use this command to enable OSPF graceful restart. Use the no form of this
command to disable graceful restart.
Syntax
nsf [ietf] [planned-only]
no nsf [ietf]
•ietf — This keyword is used to distinguish the IETF standard
implementation of graceful restart from other implementations. Since the
IETF implementation is the only one supported, this keyword is optional.
•planned-only — This keyword indicates that OSPF should only perform a
graceful restart when the restart is planned (i.e., when the restart is a result
of the initiate failover command).
Default Configuration
Graceful restart is disabled by default
Command Mode
Router OSPF Configuration mode
User Guidelines
Graceful restart works in concert with nonstop forwarding to enable the
hardware to continue forwarding IPv4 packets using OSPFv2 routes while a
backup unit takes over management unit responsibility. When OSPF
Layer 3 Routing Commands 1671
executes a graceful restart, it informs its neighbors that the OSPF control
plane is restarting, but that it will be back shortly. Helpful neighbors continue
to advertise to the rest of the network that they have full adjacencies with the
restarting router, avoiding announcement of a topology change and
everything that goes with that (i.e., flooding of LSAs, SPF runs). Helpful
neighbors continue to forward packets through the restarting router. The
restarting router relearns the network topology from its helpful neighbors.
This implementation of graceful restart restarting router behavior is only
useful with a router stack. Graceful restart does not work on a standalone,
single-unit router.
nsf helper
Use the nsf-helper to allow OSPF to act as a helpful neighbor for a restarting
router. Use the “no” form of this command to prevent OSPF from acting as a
helpful neighbor.
Syntax
nsf [ietf] helper[planned-only]
no nsf [ietf] helper
•
planned-only
— This keyword indicates that OSPF should only help a
restarting router performing a planned restart.
Default Configuration
OSPF may act as a helpful neighbor for both planned and unplanned restarts
Command Mode
Router OSPF Configuration mode
User Guidelines
The grace LSA announcing the graceful restart includes a restart reason.
Reasons 1 (software restart) and 2 (software reload/upgrade) are considered
planned restarts. Reasons 0 (unknown) and 3 (switch to redundant control
processor) are considered unplanned restarts.
nsf ietf helper disable is functionally equivalent to no nsf helper and is
supported solely for IS CLI compatibility.
Layer 3 Routing Commands 1672
nsf helper strict-lsa-checking
Use the nsf-helper strict-lsa-checking command to require that an OSPF
helpful neighbor exit helper mode whenever a topology change occurs. Use
the “no” form of this command to allow OSPF to continue as a helpful
neighbor in spite of topology changes.
Syntax
nsf [ietf] helper strict-lsa-checking
no nsf [ietf] helper strict-lsa-checking
•
ietf
—This keyword is used to distinguish the IETF standard
implementation of graceful restart from other implementations. Since the
IETF implementation is the only one supported, this keyword is optional.
Default Configuration
A helpful neighbor exits helper mode when a topology change occurs.
Command Mode
Router OSPF Configuration mode
User Guidelines
The restarting router is unable to react to topology changes. In particular, the
restarting router will not immediately update its forwarding table; therefore, a
topology change may introduce forwarding loops or black holes that persist
until the graceful restart completes. By exiting the graceful restart on a
topology change, a router tries to eliminate the loops or black holes as quickly
as possible by routing around the restarting router.
A helpful neighbor considers a link down with the restarting router to be a
topology change, regardless of the strict LSA checking configuration.
nsf restart-interval
Use the nsf restart-interval command to configure the length of the grace
period on the restarting router. Use the “no” form of this command to revert
the grace period to its default.
Layer 3 Routing Commands 1673
Syntax
nsf [ietf] restart-interval seconds
no nsf [ietf] restart-interval
•
ietf
— This keyword is used to distinguish the IETF standard
implementation of graceful restart from other implementations. Since the
IETF implementation is the only one supported, this keyword is optional.
• seconds — The number of seconds that the restarting router asks its
neighbors to wait before exiting helper mode. The restarting router
includes the restart interval in its grace LSAs (range 1–1800 seconds).
Default Configuration
The default restart interval is 120 seconds.
Command Mode
Router OSPF
User Guidelines
The grace period must be set long enough to allow the restarting router to
reestablish all of its adjacencies and complete a full database exchange with
each of those neighbors.
Example
console(config-router)#nsf restart-interval 180
passive-interface default
The passive-interface default command enables the global passive mode by
default for all interfaces. It overrides any interface level passive mode. Use the
“no” form of this command to disable the global passive mode by default for
all interfaces. Any interface previously configured to be passive reverts to non-
passive mode.
Syntax
passive-interface default
no passive-interface default
Layer 3 Routing Commands 1674
Default Configuration
Global passive mode is disabled by default.
Command Mode
Router OSPF Configuration mode.
User Guidelines
There are no user guidelines for this command.
Example
console(config-router)#passive-interface
passive-interface
Use the passive-interface command to set the interface as passive. It
overrides the global passive mode that is currently effective on the interface.
Use the “no” form of this command to set the interface as non-passive.
Syntax
passive-interface vlan vlan-id
no passive-interface vlan vlan-id
• vlan-id — The VLAN number
Default Configuration
Passive interface mode is disabled by default.
Command Mode
Router OSPF Configuration mode.
User Guidelines
There are no user guidelines for this command.
Example
console(config-router)#passive-interface vlan 1
Layer 3 Routing Commands 1675
redistribute (OSPF)
Use the redistribute command in Router OSPF Configuration mode to
configure OSPF protocol to allow redistribution of routes from the specified
source protocol/routers. Use the no version of the command to disable
redistribution from the selected source or to reset options to their default
values.
Syntax
redistribute {protocol}[metric metric-value] [metric-type type-value] [tag
tag-value] [subnets]
no redistribute {protocol}[metric] [metric-type] [tag] [subnets]
• protocol —One of the following:
– static—Specifies that static routes are to be redistributed.
– connected—Specifies that connected routes are to be redistributed.
– bgp—Specifies BGP originated routes are to be redistributed.
– rip—Specifies RIP originated routes are to be redistributed.
•static—Specifies that static routes are to be redistributed.
–connected—Specifies the connected routes are to be redistributed.
• metric-value—Specifies the metric to use when redistributing the route.
(Range: 0–16777214)
• type-value—One of the following:
– Type 1 external route.
– Type 2 external route.
• tag-value—Inserts the specified tag value into redistributed routes.(Range:
0–4294967295)
•subnets—Specifies whether to redistribute the routes to subnets.
Default Configuration
The default tag value is 0.
There is no default metric or route map configured.
Layer 3 Routing Commands 1676
Command Mode
Router OSPF Configuration mode
User Guidelines
When redistributing a route metric, the receiving protocol must understand
the metric. The OSPF metric is a cost value equal to 108/ link bandwidth in
bits/sec. For example, the OSPF cost of GigabitEthernet is 108/108 = 1.
The RIP metric is a hop count with a maximum value of 15 (infinity).
If no metric value is specified, the metric redistributed for a type 1 route is
the sum of the external cost and the internal cost used to reach that route.
The metric redistributed for a type 2 route is always the external cost,
irrespective of the interior cost to reach that route. Redistribution of BFG
originated routes is only available on BGP-capable routers.
Example
The following example configures OSPF protocol to allow redistribution of
RIP originated routes with a metric of 5 and a route tag of 555.
console(config-router)#redistribute rip metric 3 metric-type 1 tag 555
subnets
router-id
Use the router-id command in Router OSPF Configuration mode to set a 32-
bit integer in 4-digit dotted-decimal number uniquely identifying the router
ID.
Syntax
router-id router-id
• router-id— A 32-bit interface (in IPv4 address format) that uniquely
identifies the router ID.
Default Configuration
There is no default router ID.
Layer 3 Routing Commands 1677
Command Mode
Router OSPF Configuration mode.
User Guidelines
The router-id must be set in order for OSPF to become operationally enabled.
It is recommended that the router ID be set to the IP address of a loopback
interface to ensure that the router remains up internally.
Example
The following example defines the router ID as 5.5.5.5.
console(config)#router ospf
console(config-router)#router-id 5.5.5.5
router ospf
Use the router ospf command in Global Configuration mode to enter Router
OSPF mode and globally enable OSPF. Using the no form of the command
disables OSPF and removes the OSPF interface and global configuration.
Syntax
router ospf [vrf vrf-name]
no router ospf
• vrf-name—The name of the VRF if which OSPF is to be enabled. If no
VRF is specified, OSPF is enabled for the global routing instance.
Default Configuration
OSPF routing is disabled by default
Command Mode
Global Configuration mode.
User Guidelines
The command prompt changes when the router ospf command executes.
The VRF identified in the parameter must have been previously created or an
error is returned.
Layer 3 Routing Commands 1678
This command is only available on the N3000/N3100/N4000 switches.
IPv4 OSPF is the only routing protocol currently implemented for VRFs.
The no form of the command removes all OSPF configuration (including
interface configuration) for the specified VRF
Example
The following example enters into router OSPF mode.
console(config)#router ospf
console(config-router)#
show ip ospf
Use the show ip ospf command to display information relevant to the OSPF
router. This command has been modified to show additional fields.
Syntax
show ip ospf [vrf vrf-name]
• vrf-name—The name of the VRF instance on which the command
operates. If no VRF parameter is given, information for the default
(global) router instance is shown.
Syntax Description
This command has no arguments or keywords.
Default Configuration
There is no default configuration for this command.
Command Mode
User Exec, Privileged Exec modes, Global Configuration mode and all
Configuration submodes
User Guidelines
The VRF identified in the parameter must have been previously created or an
error is returned.
Layer 3 Routing Commands 1679
The VRF parameter is only available on the N3000/N3100/N4000 series
switches.
Some of the information below displays only if you enable OSPF and
configure certain features. The following fields may be displayed:
Field Description
Router ID A 32-bit integer in dotted decimal format identifying the router
about which information is displayed. This is a configured value.
OSPF Admin
Mode
Shows whether OSPF is administratively enabled or disabled.
RFC 1583
Compatibility
This configuration option controls the preference rules used
when choosing among multiple external LSAs advertising the
same destination. When enabled, the preference rules remain
those specified by RFC 1583. When disabled, the preference
rules are those stated in Section 16.4.1 of RFC 2328. These rules
prevent routing loops when external LSAs for the same
destination have been originated from different areas.
External LSDB
Limit
Shows the maximum number of non-default external LSAs
entries that can be stored in the link-state database.
Exit Overflow
Interval
Shows the number of seconds that, after entering
OverflowState, as defined by RFC 1765, a router will attempt to
leave OverflowState.
Spf Delay Time The number of seconds to wait before running a routing table
calculation after a topology change.
Spf Hold Time The minimum number of seconds between routing table
calculations.
Flood Pacing
Interval
The average time, in milliseconds, between LS Update packet
transmissions on an interface. This is the value configured with
the timers pacing flood command.
LSA Refresh
Group Pacing
Time
The size of the LSA refresh group window, in seconds. This is the
value configured with the timers pacing lsa-group command.
Opaque Capability Shows whether router is capable of sending Opaque LSAs.
Layer 3 Routing Commands 1680
AutoCost Ref BW The configured autocost reference bandwidth. This value is used
to determine the OSPF metric on its interfaces. The reference
bandwidth is divided by the interface speed to compute the
metric.
Default Passive
Setting
When enabled, OSPF interfaces are passive by default.
Maximum Paths Shows the maximum number of paths that OSPF can report for
a given destination.
Default Metric Default metric for redistributed routes.
Stub Router
Configuration
One of Always, Startup, or None.
Stub Router
Startup Time
Configured value in seconds. This row is only listed if OSPF is
configured to be a stub router at startup.
Summary LSA
Metric Override
One of Enabled (met), Disabled, where met is the metric to be
sent in summary LSAs when in stub router mode.
BFD Enabled The BFD status.
Default Route
Advertise
When enabled, OSPF originates a type 5 LSA advertising a
default route.
Always When this option is configured, OSPF only originates a default
route when the router has learned a default route from another
source.
Metric Shows the metric for the advertised default routes. If the metric
is not configured, this field is not configured.
Metric Type Shows whether the metric for the default route is advertised as
External Type 1 or External Type 2.
Number of Active
Areas
The number of OSPF areas to which the router is attached on
interfaces that are up.
ABR Status Shows whether the router is an OSPF Area Border Router.
ASBR Status Indicates whether the router is an autonomous system border
router. Router automatically becomes an ASBR when it is
configured to redistribute routes learned from another protocol.
The possible values for the ASBR status is enabled (if the router
is configured to redistribute routes learned by other protocols) or
disabled (if the router is not configured for the same).
Stub Router Status One of Active or Active.
Layer 3 Routing Commands 1681
Stub Router
Reason
One of Configured, Startup, or Resource Limitation. This row
is only listed if stub router is active.
Stub Router Time
Remaining
The remaining time until OSPF exits stub router mode. This
row is only listed if OSPF is in startup stub router mode.
External LSDB
Overflow
OSPF enters this state when the number of external LSAs
exceeds a configured limit, as described in RFC 1765.
External LSA
Count
Shows the number of external (LS type 5) link-state
advertisements in the link-state database.
External LSA
Checksum
Shows the sum of the LS checksums of external link-state
advertisements contained in the link-state database.
AS_OPAQUE LSA
Count
Shows the number of AS Opaque LSAs received.
AS_OPAQUE LSA
Checksum
Sum of the checksums of all AS Opaque LSAs in the link state
database.
New LSAs
Originated
Shows the number of link-state advertisements that have been
originated.
LSAs Received Shows the number of link-state advertisements received
determined to be new instantiations.
LSA Count The number of LSAs in the link state database.
Maximum Number
of LSAs
The limit on the number of LSAs that the router can store in its
link state database.
LSA High Water
Mark
The maximum number of LSAs that have been in the link state
database since OSPF began operation.
AS Scope LSA
Flood List Length
The number of LSAs currently in the global flood queue waiting
to be flooded through the OSPF domain. LSAs with AS flooding
scope, such as type 5 external LSAs and type 11 Opaque LSAs.
Retransmit List
Entries
The current number of entries on all neighbors’ retransmit lists.
Maximum Number
of Retransmit
Entries
The maximum number of entries that can be on neighbors’
retransmit lists at any given time. This is the sum for all
neighbors. When OSPF receives an LSA and cannot allocate a
new retransmit list entry, the router does not acknowledge the
LSA, expecting the sender to retransmit.
Retransmit Entries
High Water Mark
The maximum number of retransmit list entries that have been
on all neighbors’ retransmit lists at one time.
Layer 3 Routing Commands 1682
Example #1
The following example displays OSPF router information.
console#show ip ospf
Router ID................................ 1.1.1.1
OSPF Admin Mode.......................... Enable
RFC 1583 Compatibility................... Enable
External LSDB Limit...................... No Limit
Exit Overflow Interval................... 0
Spf Delay Time........................... 5
Spf Hold Time............................ 10
NSF Support Whether graceful restart is administratively enabled. Possible
values are Support Always, Disabled, or Planned.
NSF Restart
Interval
The number of seconds a helpful neighbor allows a restarting
router to complete its graceful restart.
NSF Restart Status Whether the router is currently performing a graceful restart.
NSF Restart Age The number of seconds until a graceful restart expires. Only
non-zero when the router is in graceful restart.
NSF Restart Exit
Reason
The reason the previous graceful restart ended. Possible values
are Not attempted, In progress, Completed, Timed out,
Topology change, and Manual clear.
NSF Helper
Support
Whether this router is configured to act as a graceful restart
helpful neighbor. Possible values are: Helper Support Always,
Disabled, or Planned.
NSF Helper Strict
LSA Checking
As a graceful restart helpful neighbor, whether to terminate the
helper relationship if a topology change occurs during a
neighbor's graceful restart.
Redistributing This field is a heading and appears only if you configure the
system to take routes learned from a non-OSPF source and
advertise them to its peers.
Source Shows source protocol/routes that are being redistributed.
Possible values are static, connected, or RIP.
Tag Shows the decimal value attached to each external route.
Subnets When this option is not configured, OSPF will only redistribute
classful prefixes.
Distribute-List Shows the access list used to filter redistributed routes.
Layer 3 Routing Commands 1683
Opaque Capability........................ Disable
AutoCost Ref BW.......................... 100 Mbps
Default Passive Setting.................. Disabled
Maximum Paths............................ 4
Default Metric........................... Not configured
Default Metric........................... Not configured
Stub Router Configuration................ None
Summary LSA Metric Override.............. Disabled
BFD Enabled.............................. NO
Default Route Advertise.................. Disabled
Always................................... FALSE
Metric................................... Not configured
Metric Type.............................. External Type 2
Number of Active Areas... 1 (1 normal, 0 stub, 0 nssa)
ABR Status........................... Disable
ASBR Status.......................... Disable
Stub Router.......................... FALSE
External LSDB Overflow............... FALSE
External LSA Count................... 0
External LSA Checksum................ 0
AS_OPAQUE LSA Count.................. 0
AS_OPAQUE LSA Checksum............... 0
New LSAs Originated.................. 25
LSAs Received........................ 7
LSA Count............................ 4
Maximum Number of LSAs............... 18200
LSA High Water Mark.................. 4
Retransmit List Entries.............. 0
Maximum Number of Retransmit Entries..72800
Retransmit Entries High Water Mark... 2
NSF Support........................... Disabled
NSF Restart Interval.................. 120
NSF Restart Status.................... Not Restarting
NSF Restart Age....................... 0 seconds
NSF Restart Exit Reason............... Not Attempted
NSF Helper Support.................... Always
NSF Helper Strict LSA Checking........ Enabled
Example #2
The following example displays the length of the global flood queue for LSAs
with AS flooding scope and for stub router configuration. Also displayed are
the values of the LSA pacing configuration parameters.
console#show ip ospf
Router ID...................................... 1.1.1.1
Layer 3 Routing Commands 1684
OSPF Admin Mode................................ Enable
RFC 1583 Compatibility......................... Enable
External LSDB Limit............................ No Limit
Exit Overflow Interval......................... 0
Spf Delay Time................................. 5
Spf Hold Time.................................. 10
Flood Pacing Interval.......................... 33 ms
LSA Refresh Group Pacing Time.................. 60 sec
Opaque Capability.............................. Enable
AutoCost Ref BW................................ 100 Mbps
Default Passive Setting........................ Disabled
Maximum Paths.................................. 4
Default Metric................................. Not configured
Stub Router Configuration...................... <val>
Stub Router Startup Time....................... <val> seconds
Summary LSA Metric Override.................... Enabled (<met>)
BFD Enabled.....................................YES
Default Route Advertise........................ Disabled
Always......................................... FALSE
Metric......................................... Not configured
Metric Type.................................... External Type 2
Number of Active Areas......................... 2 (2 normal, 0 stub, 0 nssa)
ABR Status..................................... Enable
ASBR Status.................................... Disable
Stub Router Status............................. Inactive
Stub Router Reason............................. <reason>
Stub Router Time Remaining..................... <duration> seconds
External LSDB Overflow......................... FALSE
External LSA Count............................. 0
External LSA Checksum.......................... 0
AS_OPAQUE LSA Count............................ 0
AS_OPAQUE LSA Checksum......................... 0
New LSAs Originated............................ 300269
LSAs Received.................................. 300276
LSA Count...................................... 6020
Maximum Number of LSAs......................... 36968
LSA High Water Mark............................ 6020
AS Scope LSA Flood List Length................. 0
Retransmit List Entries........................ 0
Maximum Number of Retransmit Entries........... 147872
Retransmit Entries High Water Mark............. 32616
NSF Helper Support............................. Always
NSF Helper Strict LSA Checking................. Enabled
Layer 3 Routing Commands 1685
show ip ospf abr
The show ip ospf abr command displays the internal OSPF routing table
entries to Area Border Routers (ABR). This command takes no options.
Syntax
show ip ospf abr [vrf vrf-name]
• vrf-name—The name of the VRF instance on which the command
operates. If no VRF parameter is given, information for the default
(global) router instance is shown.
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
The VRF identified in the parameter must have been previously created or an
error is returned.
The VRF parameter is only available on the N3000/N3100/N4000 series
switches.
Example
console#show ip ospf abr
Type Router Id Cost Area ID Next Hop Next Hop
Intf
----- --------- ----- --------------- --------- --------
INTRA 3.3.3.3 1 0.0.0.1 10.1.23.3 vlan11
INTRA 4.4.4.4 10 0.0.0.1 10.1.24.4 vlan12
show ip ospf area
Use the show ip ospf area command to display information about the
identified OSPF area.
Layer 3 Routing Commands 1686
Syntax
show ip ospf area area-id [vrf vrf-name]
• area-id —Identifies the OSPF area whose ranges are being displayed.
(Range: 0–4294967295)
• vrf-name—The name of the VRF instance on which the command
operates. If no VRF parameter is given, information for the default
(global) router instance is shown.
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
The VRF identified in the parameter must have been previously created or an
error is returned.
The VRF parameter is only available on the N3000/N3100/N4000 series
switches.
Example #1
The following example displays OSPF router information.
console#show ip ospf area 10
AreaID......................................... 0.0.0.10
External Routing............................... Import External LSAs
Spf Runs....................................... 0
Area Border Router Count....................... 0
Area LSA Count................................. 0
Area LSA Checksum.............................. 0
Import Summary LSAs............................ Enable
Example #2
console#show ip ospf area 20
AreaID......................................... 0.0.0.20
External Routing............................... Import NSSAs
Spf Runs....................................... 0
Area Border Router Count....................... 0
Area LSA Count................................. 0
Layer 3 Routing Commands 1687
Area LSA Checksum.............................. 0
OSPF NSSA Specific Information.
Import Summary LSAs............................ Enable
Redistribute into NSSA......................... Enable
Default Information Originate.................. TRUE
Default Metric................................. 250
Default Metric Type............................ Non-Comparable
Translator Role................................ Candidate
Translator Stability Interval.................. 2000
Translator State............................... Disabled
Example #3
The following example shows the length of the area’s flood queue for LSAs
waiting to be flooded within the area.
console #show ip ospf area 1
AreaID......................................... 0.0.0.1
External Routing............................... Import External LSAs
Spf Runs....................................... 10
Area Border Router Count....................... 0
Area LSA Count................................. 3004
Area LSA Checksum.............................. 0x5e0abed
Flood List Length.............................. 0
Import Summary LSAs............................ Enable
show ip ospf asbr
The show ip ospf asbr command displays the internal OSPF routing table
entries to Autonomous System Boundary Routes (ASBR). This command
takes no options.
Syntax
show ip ospf asbr [vrf vrf-name]
• vrf-name—The name of the VRF instance on which the command
operates. If no VRF parameter is given, information for the default
(global) router instance is shown.
Default Configuration
This command has no default configuration.
Layer 3 Routing Commands 1688
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
The VRF identified in the parameter must have been previously created or an
error is returned.
The VRF parameter is only available on the N3000/N3100/N4000 series
switches.
Example
console#show ip ospf asbr
Type Router Id Cost Area ID Next Hop Next Hop
Intf
----- ---------- ---- -------- ----------- -----------
INTRA 1.1.1.1 1 0.0.0.1 10.1.12.1 vlan10
INTRA 4.4.4.4 10 0.0.0.1 10.1.24.4 vlan12
show ip ospf database
Use the show ip ospf database command to display information about the
link state database when OSPF is enabled. If parameters are entered, the
command displays the LSA headers. Use the optional parameters to specify
the type of link state advertisements to display.
Syntax
show ip ospf [vrf vrf-name] [
area-id
] database [{asbr-summary | external |
network | nssa-external | router | summary}][ls-id] [adv-router [ip-address]
| self-originate] [opaque-area] [opaque-as] [opaque-link]
• vrf-name—The name of the VRF instance on which the command
operates. If no VRF parameter is given, information for the default
(global) router instance is shown.
• area-id — Identifies a specific OSPF area for which link state database
information will be displayed.
• asbr-summary — Display the autonomous system boundary router (ASBR)
summary LSAs.
• external — Display the external LSAs.
Layer 3 Routing Commands 1689
• network — Display the network LSAs.
• nssa-external — Display NSSA external LSAs.
• router — Display router LSAs.
• summary — Display the LSA database summary information.
• ls-id — Specifies the link state ID (LSID). (Range: IP address or an integer
in the range of 0–4294967295)
•adv-router — Display the LSAs that are restricted by the advertising
router. To specify a router, enter the IP address of the router.
• self-originate — Display the LSAs in that are self-originated.
• opaque-area— Display the area opaque LSAs.
• opaque-as— Display AS opaque LSAs.
• opaque-link— Display link opaque LSAs.
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
Information is only displayed if OSPF is enabled.
The VRF identified in the parameter must have been previously created or an
error is returned.
The VRF parameter is only available on the N3000/N3100/N4000 series
switches.
Example
The following example displays information about the link state database
when OSPF is enabled.
console#show ip ospf database
Router Link States (Area 0.0.0.0)
Layer 3 Routing Commands 1690
Link Id Adv Router Age Sequence Chksm Options Rtr Opt
--------------- --------------- ----- -------- ------ ------- -----
5.2.0.0 0.0.0.0 1360 80000006 3a1f ------ -----
5.2.0.0 5.2.0.0 1360 80000009 a47e ------ ---E-
20.20.20.20 20.20.20.20 1165 8000000b 0f80 -E---- -----
Network Link States (Area 0.0.0.0)
Link Id Adv Router Age Sequence Chksm Options Rtr Opt
--------------- --------------- ----- -------- ------ ------- -----
2.2.2.2 20.20.20.20 1165 80000005 f86d -E--O-
Network Summary States (Area 0.0.0.0)
Link Id Adv Router Age Sequence Chksm Options Rtr Opt
--------------- --------------- ----- -------- ------ ------- -----
5.2.0.0 0.0.0.0 1360 80000007 242e ------
Summary ASBR States (Area 0.0.0.0)
Link Id Adv Router Age Sequence Chksm Options Rtr Opt
--------------- --------------- ----- -------- ------ ------- -----
5.2.0.0 0.0.0.0 1361 80000006 183a ------
Link Opaque States (Area 0.0.0.0)
Link Id Adv Router Age Sequence Chksm Options Rtr Opt
--------------- --------------- ----- -------- ------ ------- -----
5.2.0.0 0.0.0.0 1361 80000005 ef59 ------
Area Opaque States (Area 0.0.0.0)
Link Id Adv Router Age Sequence Chksm Options Rtr Opt
--------------- --------------- ----- -------- ------ ------- -----
5.2.0.0 0.0.0.0 1362 80000005 e166 ------
AS External States
Link Id Adv Router Age Sequence Chksm Options Rtr Opt
--------------- --------------- ----- -------- ------ ------- -----
6.0.0.0 5.2.0.0 1364 80000008 e35d
Layer 3 Routing Commands 1691
AS Opaque States
Link Id Adv Router Age Sequence Chksm Options Rtr Opt
--------------- --------------- ----- -------- ------ ------- -----
5.2.0.0 0.0.0.0 1364 80000005 d373
show ip ospf database database-summary
Use the show ip ospf database database-summary command to display the
number of each type of LSA in the database for each area and for the router.
The command also displays the total number of LSAs in the database. This
command has been modified.
Syntax
show ip ospf database database-summary [vrf vrf-name]
• vrf-name—The name of the VRF instance on which the command
operates. If no VRF parameter is given, information for the default
(global) router instance is shown.
Default Configuration
There is no default configuration for this command.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
The VRF identified in the parameter must have been previously created or an
error is returned.
The VRF parameter is only available on the N3000/N3100/N4000 series
switches.
The following fields are displayed:
Field Description
Router Shows Total number of router LSAs in the OSPF link state database.
Layer 3 Routing Commands 1692
Example
The following example displays the number of each type of LSA in the
database for each area and for the router.
console#show ip ospf database database-summary
OSPF Router with ID (5.5.5.5)
Area 0.0.0.0 database summary
Router......................................... 0
Network........................................ 0
Summary Net.................................... 0
Summary ASBR................................... 0
Type-7 Ext..................................... 0
Self Originated Type-7......................... 0
Opaque Link.................................... 0
Opaque Area.................................... 0
Subtotal....................................... 0
Area 0.0.0.10 database summary
Router......................................... 0
Network........................................ 0
Summary Net.................................... 0
Summary ASBR................................... 0
Type-7 Ext..................................... 0
Self Originated Type-7......................... 0
Opaque Link.................................... 0
Opaque Area.................................... 0
Subtotal....................................... 0
Router database summary
Network Shows Total number of network LSAs in the OSPF link state
database.
Summary Net Shows Total number of summary network LSAs in the database.
Summary
ASBR
Shows Number of summary ASBR LSAs in the database.
Type-7 Ext Shows Total number of Type-7 external LSAs in the database.
Self-
Originated
Type-7
Shows Total number of self originated AS external LSAs in the
OSPFv3 link state database.
Opaque Link Shows Number of opaque link LSAs in the database.
Opaque Area Shows Number of opaque area LSAs in the database.
Subtotal Shows Number of entries for the identified area.
Opaque AS Shows Number of opaque AS LSAs in the database.
Total Shows Number of entries for all areas.
Layer 3 Routing Commands 1693
Router......................................... 0
Network........................................ 0
Summary Net.................................... 0
Summary ASBR................................... 0
Type-7 Ext..................................... 0
Opaque Link.................................... 0
Opaque Area.................................... 0
Type-5 Ext..................................... 0
Self-Originated Type-5 Ext..................... 0
Opaque AS...................................... 0
Total.......................................... 0
show ip ospf interface
Use the show ip ospf interface command to display the information for the
VLAN or loopback interface. The long form of the command displays the
configuration of flood blocking.
Syntax
show ip ospf interface [vrf vrf-name][vlan vlan-id | loopback loopback-id]
• loopback-id—A configured loopback interface identifier. (Range: 0-7)
• vlan-id—A configured VLAN identifier. (Range: 0-4093)
• vrf-name—The name of the VRF instance on which the command
operates. If no vrf parameter is given, information for the default (global)
router instance is shown.
Default Configuration
This command has no default configuration.
Command Mode
User Exec, Privileged Exec modes, Global Configuration mode and all
Configuration submodes
User Guidelines
This command has no user guidelines.
Layer 3 Routing Commands 1694
Example #1
The following example displays the information for the IFO object or virtual
interface tables associated with VLAN 10.
console#show ip ospf interface vlan 10
IP Address..................................... 1.1.1.1
Subnet Mask.................................... 255.255.255.0
Secondary IP Address(es).......................
OSPF Admin Mode................................ Enable
OSPF Area ID................................... 0.0.0.0
OSPF Network Type.............................. Broadcast
Router Priority................................ 1
Retransmit Interval............................ 5
Hello Interval................................. 10
Dead Interval.................................. 40
LSA Ack Interval............................... 1
Iftransit Delay Interval....................... 1
Authentication Type............................ None
Metric Cost.................................... 10 (computed)
Passive Status................................. Non-passive interface
OSPF Mtu-ignore................................ Disable
State.......................................... designated-router
Designated Router.............................. 1.1.1.1
Backup Designated Router....................... 0.0.0.0
Number of Link Events.......................... 2
Example #2
The following example shows the configuration of flood blocking.
console#show ip ospf interface gi2/0/11
IP Address........................... 172.20.11.2
Subnet Mask.......................... 255.255.255.0
Secondary IP Address(es).............
OSPF Admin Mode...................... Enable
OSPF Area ID......................... 0.0.0.0
OSPF Network Type.................... Point-to-Point
Router Priority...................... 1
Retransmit Interval.................. 5
Hello Interval....................... 3
Dead Interval........................ 12
LSA Ack Interval..................... 1
Transmit Delay....................... 1
Authentication Type.................. None
Metric Cost.......................... 100 (computed)
Passive Status....................... Non-passive interface
OSPF Mtu-ignore...................... Disable
Flood Blocking....................... Disable
State................................ point-to-point
Layer 3 Routing Commands 1695
Number of Link Events................ 1
Local Link LSAs...................... 0
Local Link LSA Checksum.............. 0
show ip ospf interface brief
Use the show ip ospf interface brief command to display brief information
for the IFO object or virtual interface tables.
Syntax
show ip ospf interface brief [vrf vrf-name]
• vrf-name—The name of the VRF instance on which the command
operates. If no VRF parameter is given, information for the default
(global) router instance is shown.
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
The VRF identified in the parameter must have been previously created or an
error is returned.
The VRF parameter is only available on the N3000/N3100/N4000 series
switches.
Example
The following example displays brief information for the IFO object or virtual
interface tables.
console#show ip ospf interface brief
Layer 3 Routing Commands 1696
Hello Dead Retrax LSA
Admin Router Int. Int. Int. Tranx Ack
Interface Mode Area ID Prior. Cost Val. Val. Val. Delay Intval
------------ -------- ----------- ------ ----- ----- ----- ------ ------ ------
Vl10 Enable 0.0.0.10 1 10 10 40 5 1 1
Vl20 Enable 0.0.0.1 1 10 10 40 5 1 1
Vl100 Enable 0.0.0.111 1 10 10 40 5 1 1
loopback 1 Enable 0.0.0.0 1 1 10 40 5 1 1
show ip ospf interface stats
Use the show ip ospf interface stats command to display the statistics for a
specific interface. The information is only displayed if OSPF is enabled.
Syntax
show ip ospf interface stats vlan vlan-id
• vlan-id — Valid VLAN ID.
Default Configuration
This command has no default configuration.
Command Mode
User Exec mode, Privileged Exec mode, Global Configuration mode and all
Configuration submodes
User Guidelines
This command has no user guidelines.
Example
The following example displays the ospf statistics for VLAN 15.
console>show ip ospf interface stats vlan 15
OSPF Area ID....................................... 0.0.0.0
Area Border Router Count................................. 0
AS Border Router Count................................... 0
Area LSA Count........................................... 1
IP Address......................................... 2.2.2.2
OSPF Interface Events.................................... 1
Virtual Events........................................... 0
Neighbor Events.......................................... 0
External LSA Count....................................... 0
Layer 3 Routing Commands 1697
show ip ospf lsa-group
Use this command to display the number of self-originated LSAs within each
LSA group.
Syntax
show ip ospf lsa-group [vrf vrf-name]
• vrf-name—The name of the VRF instance from which to display the self-
originated LSA groups.
Default Configuration
There are no self-originated LSA groups by default.
Command Mode
Privileged Exec mode, Global Configuration mode, and all sub-modes
User Guidelines
The following fields are displayed:
Command History
Introduced in version 6.2.0.1 firmware.
Field Description
Total self-
originated LSAs
The number of LSAs the router is currently originating.
Average LSAs per
group
The number of self-originated LSAs divided by the number of
LSA groups. The number of LSA groups is the refresh interval
(1800 seconds) divided by the pacing interval (configured with
timers pacing lsa-group) plus two.
Pacing group limit The maximum number of self-originated LSAs in one LSA
group. If the number of LSAs in a group exceeds this limit, OSPF
redistributes LSAs throughout the refresh interval to achieve
better balance.
Groups For each LSA pacing group, the output shows the range of LSA
ages in the group and the number of LSAs in the group.
Layer 3 Routing Commands 1698
Example
console#show ip ospf lsa-group
Total self-originated LSAs: 3019
Average LSAs per group: 100
Pacing group limit: 400
Number of self-originated LSAs within each LSA group...
Group Start Age Group End Age Count
0 59 96
60 119 88
120 179 102
180 239 95
240 299 95
300 359 92
360 419 48
420 479 58
480 539 103
540 599 99
600 659 119
660 719 110
720 779 106
780 839 122
840 899 110
900 959 99
960 1019 135
1020 1079 101
1080 1139 94
1140 1199 115
1200 1259 110
1260 1319 111
show ip ospf neighbor
Use the show ip ospf neighbor command to display locally derived
information about OSPF neighbors. The information below only displays if
OSPF is enabled and the interface has a neighbor.
Syntax
show ip ospf neighbor [vrf vrf-name] [interface-type interface-number]
[neighbor-id]
• vrf-name—The name of the VRF instance on which the command
operates. If no VRF parameter is given, information for the default
(global) router instance is shown.
Layer 3 Routing Commands 1699
• interface-type—Interface type – only supported type is vlan.
• interface-number—A valid interface number.
• neighbor-id—Valid IP address of the neighbor.
Default Configuration
This command has no default configuration.
Command Mode
User Exec, Privileged Exec modes, Global Configuration mode and all
Configuration submodes
User Guidelines
The VRF identified in the parameter must have been previously created or an
error is returned.
The VRF parameter is only available on the N3000/N3100/N4000 series
switches.
The following information is output.
Field Description
Interface The name of the interface on which the adjacency is formed.
Neighbor IP Address
The IPv4 address on the neighbor's interface used to form the
adjacency.
Interface Index The SNMP interface index.
Area Id The OSPF area in which the adjacency is formed.
Options
The options advertised by the neighbor.
Router Priority The router priority advertised by the neighbor.
Dead timer The number of seconds until the dead timer expires.
Up Time How long this adjacency has been in FULL state.
State The local state of the adjacency. The neighbor state is not
tracked locally.
Layer 3 Routing Commands 1700
Events Incremented for the following events:
• A DD is received from the neighbor with an MTU mismatch.
• The neighbor sent an ACK for an LSA not on the neighbor's
retransmit list.
• The state of the adjacency changed.
Retransmitted LSAs The number of LSAs retransmitted to a given neighbor.
Retransmission
Queue Length
The number of LSAs sent to the neighbor's retransmit queue
waiting for the neighbor to acknowledge.
Restart Helper
Status
One of two values:
• Helping — This router is acting as a helpful neighbor to this
neighbor. A helpful neighbor does not report an adjacency
change during graceful restart, but continues to advertise the
restarting router as a FULL adjacency. A helpful neighbor
continues to forward data packets to the restarting router,
trusting that the restarting router's forwarding table is
maintained during the restart.
• Not Helping — This router is not a helpful neighbor at this
time.
Field Description
Layer 3 Routing Commands 1701
Example
The following example displays locally derived information about OSPF
neighbors on the specified Ethernet and IP interfaces.
Restart Helper
Exit Reason
One of the following values:
• Restart Reason — When the router is in helpful neighbor
mode, the output includes the restart reason the restarting
router sent in its grace LSA. The Restart Reason is the value in
the Graceful Restart Reason TLV in the grace LSA sent by the
restarting router. Possible values for the Restart Reason are
defined in RFC 3623 as follows:
– Unknown (0)
– Software restart (1)
– Software reload/upgrade (2)
– Switch to redundant control processor (3)
– Unrecognized - a value not defined in RFC 3623
When the switch sends a grace LSA, it sets the Restart Reason
to Software Restart on a planned warm restart (when the
initiate failover command is invoked), and to Unknown on an
unplanned warm restart.
• Remaining Grace Time — The number of seconds remaining
in the current graceful restart interval. This row is only
included if the router is currently acting as a restart helper for
the neighbor.
• Restart Exit Reason — One of the following:
– None — graceful restart has not been attempted
– In Progress — restart is in progress
– Completed — the previous graceful restart completed
successfully
– Timed Out — the previous graceful restart timed out
– Topology Changed — The previous graceful restart
terminated prematurely because of a topology change. A
helpful neighbor declares a topology change when it
forwards a changed LSA to the restarting router. An LSA is
considered changed if its contents are changed, not if it is
simply a periodic refresh.
Field Description
Layer 3 Routing Commands 1702
console#show ip ospf neighbor 3.3.3.3
Interface...................................... 0/25
Neighbor IP Address............................ 172.20.25.3
Interface Index................................ 25
Area Id........................................ 0.0.0.0
Options........................................ 0x2
Router Priority................................ 1
Dead timer due in (secs)....................... 10
Up Time........................................ 4 days 3 hrs 33 mins 36 secs
State.......................................... Full/PtP
Events......................................... 4
Retransmitted LSAs............................. 32
Retransmission Queue Length.................... 0
Restart Helper Status........................ Not helping
Restart Helper Exit Reason................... Not attempted
show ip ospf range
Use the show ip ospf range command to display information about the area
ranges for the specified area-id.
Syntax
show ip ospf range [vrf vrf-name] area-id
• vrf-name—The name of the VRF instance on which the command
operates. If no VRF parameter is given, information for the default
(global) router instance is shown.
• area-id —Identifies the OSPF area whose ranges are being displayed.
(Range: IP address or decimal from 0–4294967295)
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
The VRF identified in the parameter must have been previously created or an
error is returned.
Layer 3 Routing Commands 1703
The VRF parameter is only available on the N3000/N3100/N4000 series
switches.
The following information is displayed.
Example
The following example displays information about the area ranges configured
for the specified area-id.
console#show ip ospf range 0
Prefix Subnet Mask Type Action Cost Active
10.1.0.0 255.255.0.0 S Advertise Auto N
172.20.0.0 255.255.0.0 S Advertise 500 Y
show ip ospf statistics
This command displays information about recent Shortest Path First (SPF)
calculations. The SPF is the OSPF routing table calculation. The output lists
the number of times the SPF has run for each OSPF area. A table follows this
information. For each of the 15 most recent SPF runs, the table lists how long
ago the SPF ran, how long the SPF took, and the reasons why the SPF was
scheduled.
Syntax
show ip ospf statistics [vrf vrf-name]
• vrf-name—The name of the VRF instance on which the command
operates. If no VRF parameter is given, information for the default
(global) router instance is shown.
Field Description
Prefix The summary prefix.
Subnet Mask The subnetwork mask of the summary prefix.
Type S (Summary Link) or E (External Link)
Action Advertise or Suppress
Cost Metric to be advertised when the range is active. If a static cost
is not configured, the field displays Auto. If the action is
Suppress, the field displays N/A.
Active Whether the range is currently active (Y) or not (N).
Layer 3 Routing Commands 1704
Default Configuration
This command has no default configuration.
Command Mode
User Exec mode, Privileged Exec mode, Global Configuration mode and all
Configuration submodes
User Guidelines
The VRF identified in the parameter must have been previously created or an
error is returned.
The VRF parameter is only available on the N3000/N3100/N4000 series
switches.
This command outputs the following.
Field Description
Delta T The time since the routing table was computed, in hours, minutes,
and seconds (hh:mm:ss).
Intra The time taken to compute intra-area routes, in milliseconds.
Summ The time taken to compute inter-area routes, in milliseconds.
Ext The time taken to compute external routes, in milliseconds.
SPF Total The total time to compute routes, in milliseconds. The total may
exceed the sum of the Intra, Summ, and Ext times.
RIB Update The time from the completion of the routing table calculation until
all changes have been made in the common routing table (the
Routing Information Base, or RIB), in milliseconds.
Reason The event or events that triggered the SPF. Reasons may include the
following:
• R – New router LSA
• N – New network LSA
• SN –New network summary LSA
• SA – New ASBR summary LSA
• X – New external LSA
Layer 3 Routing Commands 1705
Example
console# show ip ospf statistics
Area 0.0.0.0: SPF algorithm executed 15 times
Delta T Intra Summ Ext SPF Total RIB Update Reason
00:05:33 0 0 0 0 0 R
00:05:30 0 0 0 0 0 R
00:05:19 0 0 0 0 0 N, SN
00:05:15 0 10 0 10 0 R, N, SN
00:05:11 0 0 0 0 0 R
00:04:50 0 60 0 60 460 R, N
00:04:46 0 90 0 100 60 R, N
00:03:42 0 70 10 90 160 R
00:03:39 0 70 40 120 240 X
00:03:36 0 60 60 130 160 X
00:01:28 0 60 50 130 240 X
00:01:25 0 30 50 110 310 SN
00:01:22 0 0 40 50 260 SN
00:01:19 0 0 20 20 190 X
00:01:16 0 0 0 0 110 R, X
show ip ospf stub table
Use the show ip ospf stub table command to display the OSPF stub table.
The information below will only be displayed if OSPF is initialized on the
switch.
Syntax
show ip ospf stub table [vrf vrf-name]
• vrf-name—The name of the VRF instance on which the command
operates. If no VRF parameter is given, information for the default
(global) router instance is shown.
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
Layer 3 Routing Commands 1706
User Guidelines
The VRF identified in the parameter must have been previously created or an
error is returned.
The VRF parameter is only available on the N3000/N3100/N4000 series
switches.
Example
The following example displays the OSPF stub table.
console(config)#show ip ospf stub table
AreaId TypeofService Metric Val Import SummaryLSA
------------- ------------- ---------- -----------------
0.0.0.1 Normal 1 Enable
show ip ospf traffic
Use the show ip ospf traffic command to display OSPFv2 packet and LSA
statistics and OSPFv2 message queue statistics. Packet statistics count
packets and LSAs since OSPFv2 counters were last cleared (using the
clear ip
ospf
counters command.)
NOTE: Note that the clear ip ospf counters command does not clear the message
queue high water marks.
Syntax
show ip ospf traffic [vrf vrf-name]
• vrf-name—The name of the VRF instance on which the command
operates. If no VRF parameter is given, information for the default
(global) router instance is shown.
Default Configuration
This command has no default setting.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
Layer 3 Routing Commands 1707
User Guidelines
The VRF identified in the parameter must have been previously created or an
error is returned.
The VRF parameter is only available on the N3000/N3100/N4000 series
switches.
The clear ip ospf counters command does not clear the message queue high
water marks.
The following is output.
Example
console# show ip ospf traffic
Time Since Counters Cleared: 4000 seconds
OSPFv2 Packet Statistics
Hello Database Desc LS Request LS Update LS ACK Total
Recd: 500 10 20 50 20 600
Sent: 400 8 16 40 16 480
Parameter Description
OSPFv2 Packet
Statistics
The number of packets of each type sent and received since
OSPF counters were last cleared.
LSAs Retransmitted The number of LSAs retransmitted by this router since OSPF
counters were last cleared.
LS Update Max
Receive Rate
The maximum rate of LS Update packets received during any
5-second interval since OSPF counters were last cleared. The
rate is in packets per second.
LS Update Max
Send Rate
The maximum rate of LS Update packets transmitted during
any 5-second interval since OSPF counters were last cleared.
The rate is in packets per second.
Number of LSAs
Received
The number of LSAs of each type received since OSPF
counters were last cleared.
OSPFv2 Queue
Statistics
For each OSPFv2 message queue, the current count, the high
water mark, the number of packets that failed to be enqueued,
and the queue limit. The high water marks are not cleared when
OSPF counters are cleared.
Layer 3 Routing Commands 1708
LSAs Retransmitted................0
LS Update Max Receive Rate........20 pps
LS Update Max Send Rate...........10 pps
Number of LSAs Received
T1 (Router).......................10
T2 (Network)......................0
T3 (Net Summary)..................300
T4 (ASBR Summary).................15
T5 (External).....................20
T7 (NSSA External)................0
T9 (Link Opaque)..................0
T10 (Area Opaque).................0
T11 (AS Opaque)...................0
Total.............................345
OSPFv2 Queue Statistics
Current Max Drops Limit
Hello 0 10 0 500
ACK 2 12 0 1680
Data 24 47 0 500
Event 1 8 0 1000
show ip ospf virtual-links
Use the show ip ospf virtual-links command to display the OSPF Virtual
Interface information for a specific area and neighbor or for all neighbors.
Syntax
show ip ospf virtual-links [vrf vrf-name] [area-id neighbor-id]
• vrf-name—The name of the VRF instance on which the command
operates. If no VRF parameter is given, information for the default
(global) router instance is shown.
• area-id — Identifies the OSPF area whose ranges are being displayed.
(Range: IP address or decimal from 0–4294967295)
• neighbor-id — Identifies the neighbor’s router ID. (Range: Valid IP
address)
Default Configuration
Show information for all OSPF Virtual Interfaces.
Layer 3 Routing Commands 1709
Command Mode
User Exec mode, Privileged Exec mode, Global Configuration mode and all
Configuration submodes
User Guidelines
The VRF identified in the parameter must have been previously created or an
error is returned.
The VRF parameter is only available on the N3000/N3100/N4000 series
switches. OSPF must be enabled for this command to display the virtual
interfaces.
Example
The following example displays the OSPF Virtual Interface information for
area 10 and its neighbor.
console#show ip ospf virtual-links 10 192.168.2.2
Area ID........................................ 10
Neighbor Router ID............................. 192.168.2.2
Hello Interval................................. 10
Dead Interval.................................. 655555
Iftransit Delay Interval....................... 1
Retransmit Interval............................ 5
State.......................................... down
Metric......................................... 0
Neighbor State................................. down
Authentication Type............................ MD5
Authentication Key............................. “test123”
Authentication Key ID.......................... 100
show ip ospf virtual-links brief
Use the show ip ospf virtual-link brief command to display the OSPF Virtual
Interface information for all areas in the system in table format.
Syntax
show ip ospf virtual-links brief
Default Configuration
This command has no default configuration.
Layer 3 Routing Commands 1710
Command Mode
User Exec mode, Privileged Exec mode, Global Configuration mode and all
Configuration submodes
User Guidelines
OSPF must be enabled for this command to display the virtual interface
information.
Example
The following example displays the OSPF Virtual Interface information in
the system.
console#show ipv6 ospf virtual-link brief
Hello Dead Retransmit Transit
Area ID Neighbor Interval Interval Interval Delay
------- -------- -------- -------- ---------- -------
0.0.0.2 5.5.5.5 10 40 5 1
timers pacing flood
Use the timers pacing flood command to adjust the rate at which OSPFv2
sends LS Update packets.
Use the no form of the command to return the timer pacing to the default
value.
Syntax
timers pacing flood milliseconds
no timers pacing flood
• milliseconds—The average time between transmission of LS Update
packets. The range is from 5 ms to 100 ms. The default is 33 ms.
Default Configuration
The default pacing between LS Update packets is 33 ms.
Command Mode
OSPFv2 Global Configuration mode
Layer 3 Routing Commands 1711
User Guidelines
OSPF distributes routing information in Link State Advertisements (LSAs),
which are bundled into Link State Update (LS Update) packets. To reduce
the likelihood of sending a neighbor more packets than it can buffer, OSPF
rate limits the transmission of LS Update packets. By default, OSPF sends up
to 30 updates per second on each interface (1/the pacing interval). Use this
command to adjust the LS Update transmission rate.
timers pacing lsa-group
Use the timers pacing lsa-group command to tune how OSPF groups LSAs
for periodic refresh.
Syntax
timers pacing lsa-group seconds
• seconds—Width of the window in which LSAs are refreshed. The range for
the pacing group window is from 10 to 1800 seconds.
Default Configuration
The default timer pacing is 60 seconds.
Command Mode
OSPFv2 Global Configuration mode
User Guidelines
OSPF refreshes self-originated LSAs approximately once every 30 minutes.
When OSPF refreshes LSAs, it considers all self-originated LSAs whose age is
from 1800 to 1800 plus the pacing group size. Grouping LSAs for refresh
allows OSPF to combine refreshed LSAs into a minimal number of LS
Update packets. Minimizing the number of Update packets makes LSA
distribution more efficient.
When OSPF originates a new or changed LSA, it selects a random refresh
delay for the LSA. When the refresh delay expires, OSPF refreshes the LSA.
By selecting a random refresh delay, OSPF avoids refreshing a large number of
LSAs at one time, even if a large number of LSAs are originated at one time.
Layer 3 Routing Commands 1712
timers spf
Use the timers spf command to configure the SPF delay and hold time. Use
the no form of the command to reset the numbers to the default value.
Syntax
timers spf delay-time hold-time
no timers spf
• delay-time — SPF delay time. (Range: 0–65535 seconds)
• hold-time — SPF hold time. (Range: 0–65535 seconds)
Default Configuration
The default value for delay-time is 5. The default value for hold-time is 10.
Command Mode
Router OSPF Configuration mode.
User Guidelines
This command has no user guidelines.
Example
The following example configures the SPF delay and hold time.
console(config-router)#timers spf 20 30
Layer 3 Routing Commands 1713
OSPFv3 Commands
Dell EMC Networking N3000/N3100/N4000 Series Switches
The Dell Network N1500/N2000/N2100-ON series support limited routing and
multicast capabilities. See the Users Configuration Guide section “Feature
Limitations and Platform Constants” for supported capabilities.
This section explains the following commands:
area default-cost
(Router OSPFv3)
area virtual-link
transmit-delay
ipv6 ospf priority show ipv6 ospf abr
area nssa (Router
OSPFv3)
default-information
originate (Router
OSPFv3
Configuration)
ipv6 ospf
retransmit-interval
show ipv6 ospf area
area nssa default-
info-originate
(Router OSPFv3
Config)
default-metric ipv6 ospf transmit-
delay
show ipv6 ospf asbr
area nssa no-
redistribute
distance ospf ipv6 router ospf show ipv6 ospf border-
routers
area nssa no-
summary
enable maximum-paths show ipv6 ospf database
area nssa translator-
role
exit-overflow-
interval
nsf show ipv6 ospf database
database-summary
area nssa translator-
stab-intv
external-lsdb-limit nsf helper show ipv6 ospf interface
area range (Router
OSPFv3)
arp nsf helper strict-lsa-
checking
show ipv6 ospf interface
brief
area stub ipv6 ospf area nsf restart-interval show ipv6 ospf interface
stats
area stub no-
summary
ipv6 ospf cost passive-interface show ipv6 ospf interface
vlan
area virtual-link ipv6 ospf dead-
interval
passive-interface
default
show ipv6 ospf
neighbor
Layer 3 Routing Commands 1714
area default-cost (Router OSPFv3)
Use the area default-cost command in Router OSPFv3 Configuration mode
to configure the monetary default cost for the stub area. The operator must
specify the area id and an integer value between 1-16777215. Use the no form
of the command to return the cost to the default value. If the area has not
been previously created, this command creates the area and then applies the
default-cost.
Syntax
area area-id default-cost cost
no area area-id default-cost
• areaid — Valid area identifier.
• cost — Default cost. (Range: 1-16777215)
Default Configuration
This command has no default configuration.
Command Mode
Router OSPFv3 Configuration mode
User Guidelines
This command has no user guidelines.
area virtual-link
dead-interval
ipv6 ospf hello-
interval
redistribute
(OSPFv3)
show ipv6 ospf range
area virtual-link
hello-interval
ipv6 ospf mtu-
ignore
router-id show ipv6 ospf stub
table
area virtual-link
retransmit-interval
ipv6 ospf network show ipv6 ospf show ipv6 ospf virtual-
links
–––
show ipv6 ospf virtual-
link brief
Layer 3 Routing Commands 1715
Example
The following example configures the monetary default cost at 100 for stub
area 1.
console(config)#ipv6 router ospf
console(config-rtr)#area 1 default-cost 100
area nssa (Router OSPFv3)
Use the area nssa command in Router OSPF Configuration mode to
configure the specified area ID to function as an NSSA. If the area has not
been previously created, this command creates the area and then applies the
NSSA distinction. If the area already exists, the NSSA distinction is added or
modified. Use the no form of the command to remove the NSSA distinction
from the area.
Syntax
area area-id nssa [no-redistribution] [default-information-originate [metric
metric-value] [metric-type metric-type-value]] [no-summary] [translator-
role role] [translator-stab-intv interval]
no area area-id nssa [no-redistribution] [default-information-originate] [no-
summary] [translator-role] [translator-stab-intv]
• area-id—Identifies the OSPFv3 stub area to configure. (Range: IP address
or decimal from 0–4294967295)
• metric-value—Specifies the metric of the default route advertised to the
NSSA. (Range: 1–16777214)
• metric-type-value—The metric type can be one of the following:
– A metric type of nssa-external 1 (comparable)
– A metric type of nssa-external 2 (non-comparable)
• role—The translator role where role is one of the following:
– always - The router assumes the role of the translator when it becomes
a border router.
– candidate - The router to participate in the translator election process
when it attains border router status.
Layer 3 Routing Commands 1716
• interval—The period of time that an elected translator continues to
perform its duties after it determines that its translator status has been
deposed by another router. (Range: 0–3600)
Default Configuration
If no metric is defined, 10 is the default configuration.
The default role is candidate.
Command Mode
Router OSPFv3 Configuration mode.
User Guidelines
This command has no user guidelines.
Example
The following example configures not-so-stubby-area 10 as an NSSA.
console(config)#ipv6 router ospf
console(config-router)#area 10 nssa
The following example configures the metric value and type for the default
route advertised into the NSSA and configures the NSSA so that summary
LSAs are not advertised into the NSSA.
console(config-router)#area 20 nssa default-info-originate metric 250
metric-type 2 no-summary
area nssa default-info-originate (Router OSPFv3
Config)
Use the area nssa default-info-originate command in Router OSPFv3
Configuration mode to configure the metric value and type for the default
route advertised into the NSSA. The optional metric parameter specifies the
metric of the default route. The metric type can be comparable (nssa-external
1) or noncomparable (nssa-external 2). Use the no form of the command to
return the metric value and type to the default value
Layer 3 Routing Commands 1717
Syntax
area areaid nssa default-info-originate [metric [comparable | non-
comparable]]
no area areaid nssa default-info-originate
• areaid — Valid OSPFv3 area identifier.
• metric — Metric value for default route. (Range: 1-16777214)
•comparable — Metric Type (nssa-external 1).
•non-comparable — Metric Type (nssa-external 2).
Default Configuration
If no metric is defined, 10 is the default configuration.
Command Mode
Router OSPFv3 Configuration mode.
User Guidelines
This command has no user guidelines.
Example
The following example configures the default metric value for the default
route advertised into the NSSA.
console(config)#ipv6 router ospf
console(config-rtr)#area 1 nssa default-info-originate
area nssa no-redistribute
Use the area nssa no-redistribute command in Router OSPFv3 Configuration
mode to configure the NSSA ABR so that learned external routes will not be
redistributed to the NSSA. Use the no form of the command to remove the
configuration.
Syntax
area areaid nssa no-redistribute
no area areaid nssa no-redistribute
Layer 3 Routing Commands 1718
• areaid — Valid OSPF area identifier.
Default Configuration
This command has no default configuration.
Command Mode
Router OSPFv3 Configuration mode.
User Guidelines
This command has no user guidelines.
Example
The following example configures the area 1 NSSA ABR so that learned
external routes will not be redistributed to the NSSA.
console(config)#ipv6 router ospf
console(config-rtr)#area 1 nssa no-redistribute
area nssa no-summary
Use the area nssa no-summary command in Router OSPFv3 Configuration
mode to configure the NSSA so that summary LSAs are not advertised into
the NSSA. Use the no form of the command to remove the configuration.
Syntax
area areaid nssa no-summary
no area area-id nssa no-summary
• areaid — Valid OSPF area identifier.
Default Configuration
This command has no default configuration.
Command Mode
Router OSPFv3 Configuration mode.
Layer 3 Routing Commands 1719
User Guidelines
This command has no user guidelines.
Example
The following example configures the area 1 NSSA so that summary LSAs are
not advertised into the NSSA.
console(config)#ipv6 router ospf
console(config-rtr)#area 1 nssa no-summary
area nssa translator-role
Use the area nssa translator-role command in Router OSPFv3 Configuration
mode to configure the translator role of the NSSA. Use the no form of the
command to remove the configuration.
Syntax
area areaid nssa translator-role {always | candidate}
no area areaid nssa translator-role
• areaid — Valid OSPF area identifier.
•always — Causes the router to assume the role of the translator the instant
it becomes a border router.
•candidate — Causes the router to participate in the translator election
process when it attains border router status.
Default Configuration
This command has no default configuration.
Command Mode
Router OSPFv3 Configuration mode.
User Guidelines
This command has no user guidelines.
Layer 3 Routing Commands 1720
Example
The following example configures the always translator role of the area 1
NSSA.
console(config)#ipv6 router ospf
console(config-rtr)#area 1 nssa translator-role always
area nssa translator-stab-intv
Use the area nssa translator-stab-intv command in Router OSPFv3
Configuration mode to configure the translator stability interval of the NSSA.
The stability interval is the period of time that an elected translator continues
to perform its duties after it determines that its translator status has been
deposed by another router.
Syntax
area areaid nssa translator-stab-intv seconds
no area areaid nssa translator-stab-intv
• areaid — Valid OSPF area identifier.
• seconds — Translator stability interval of the NSSA. (Range: 0-3600
seconds)
Default Configuration
This command has no default configuration.
Command Mode
Router OSPFv3 Configuration mode.
User Guidelines
This command has no user guidelines.
Example
The following example configures a translator stability interval of 100 seconds
for the area 1 NSSA.
console(config)#ipv6 router ospf
console(config-rtr)#area 1 nssa translator-stab-intv 100
Layer 3 Routing Commands 1721
area range (Router OSPFv3)
Use the area range command in Router OSPF Configuration mode to
configure a summary prefix for routes learned in a given area. If the area has
not been previously created, this command creates the area and then applies
the range parameters. There are two types of area ranges. An area range can be
configured to summarize intra-area routes. An ABR advertises the range
rather than the specific intra-area route as a type 3 summary LSA. Also, an
area range can be configured at the edge of an NSSA to summarize external
routes reachable within the NSSA. The range is advertised as a type 5 external
LSA. Use the no form of the command to remove the summary prefix
configuration for routes learned in the specified area.
Syntax
area area-id range ipv6-prefix/prefix-length {summarylink |
nssaexternallink} [advertise | not-advertise]
no area area-id range ipv6-prefix/prefix-length {summarylink |
nssaexternallink}
• areaid—Valid OSPFv3 area identifier.
• ipv6-prefix/prefix-length—Valid route prefix.
•summarylink—LSDB type
•nssaexternallink—LSDB type.
•advertise—Allows area range to be advertised.
•not-advertise—Suppresses area range from being advertised.
Default Configuration
This command has no default configuration.
Command Mode
Router OSPFv3 Configuration mode.
User Guidelines
The LSDB type must be specified by either summarylink or nssaexternallink,
and the advertising of the area range can be allowed or suppressed.
Layer 3 Routing Commands 1722
Example
The following example creates an area range for the area 1 NSSA.
console(config)#ipv6 router ospf
console(config-rtr)#area 1 range 2020:1::1/64 summarylink
area stub
Use the area stub command in Router OSPFv3 Configuration mode to create
a stub area for the specified area ID. If the area has not been previously
created, this command creates the area and then applies the stub distinction.
A stub area is characterized by the fact that AS External LSAs are not
propagated into the area. Removing AS External LSAs and Summary LSAs
can significantly reduce the size of the link state database of routers within
the stub area.
Syntax
area area-id stub [no summary]
no area area-id stub [no summary]
•
area-id
— Valid OSPFv3 area identifier.
•no-summary—Disable the import of Summary LSAs for the stub area
identified by area-id.
Default Configuration
This command has no default configuration.
Command Mode
Router OSPFv3 Configuration mode.
User Guidelines
This command has no user guidelines.
Example
The following example creates a stub area for area 1.
console(config)#ipv6 router ospf
console(config-rtr)#area 1 stub
Layer 3 Routing Commands 1723
area stub no-summary
Use the area stub no-summary command in Router OSPFv3 Configuration
mode disable the import of Summary LSAs for the stub area identified by
area-id.
Syntax
area area-id stub no-summary
no area area-id stub no-summary
•
area-id
— Valid OSPFv3 area identifier.
• so-summary
— Disable the import of Summary LSAs for the stub area
identified by area-id.
Default Configuration
This command has no default configuration.
Command Mode
Router OSPFv3 Configuration mode.
User Guidelines
This command has no user guidelines.
Example
The following example prevents Summary LSAs from being advertised into
the area 1 NSSA.
console(config)#ipv6 router ospf
console(config-rtr)#area 1 stub no-summary
area virtual-link
Use the area virtual-link command in Router OSPFv3 Configuration mode
to create the OSPF virtual interface for the specified area-id and neighbor
router. If the area has not been previously created, this command creates the
area and then applies the virtual-link parameters. To remove the link, use the
no form of the command. Use the optional parameters to configure dead-
interval, hello-interval, retransmit-interval and transmit-delay.
Layer 3 Routing Commands 1724
Syntax
area area-id virtual-link router-id [hello-interval seconds] [retransmit-
interval seconds] [transmit-delay seconds] [dead-interval seconds]
no area area-id virtual-link router-id id [hello-interval] [retransmit-interval]
[transmit-delay] [dead-interval]
• area-id—Valid OSPFv3 area identifier (or decimal value in the range of 0-
4294967295).
• router-id—Identifies the Router ID or valid IP address of the neighbor.
•hello-interval seconds—Number of seconds to wait before sending hello
packets to the OSPF virtual interface. (Range: 1–65535)
•dead-interval seconds—Number of seconds to wait before the OSPF
virtual interface on the virtual interface is assumed to be dead. (Range: 1–
65535)
•retransmit-interval seconds—The number of seconds to wait between
retransmitting LSAs if no acknowledgment is received. (Range: 0–3600)
•transmit-delay seconds—Number of seconds to increment the age of the
LSA before sending, based on the estimated time it takes to transmit from
the interface. (Range: 0–3600)
Default Configuration
Parameter Default
area-id No area ID is predefined.
router-id No router ID is predefined.
hello-interval
seconds
10 seconds
retransmit-interval
seconds
5 seconds
transmit-delay
seconds
1 second
dead-interval
seconds
40 seconds
Layer 3 Routing Commands 1725
Command Mode
Router OSPFv3 Configuration mode.
User Guidelines
This command has no user guidelines.
Example
The following example creates the OSPF virtual interface for area 1 and its
neighbor router.
console(config)#ipv6 router ospf
console(config-rtr)#area 1 virtual-link 2
The following example configures a 20-second dead interval, a hello interval
of 20 seconds, a retransmit interval of 20 seconds, and a 20-second transmit
delay for the OSPF virtual interface on the virtual interface identified by area
1 and its neighbor.
console(config)#ipv6 router ospf
console(config-rtr)#area 1 virtual-link 2 dead-interval 20 hello-interval 20
retransmit-interval 20 transmit-delay 20
area virtual-link dead-interval
Use the area virtual-link dead-interval command in Router OSPFv3
Configuration mode to configure the dead interval for the OSPF virtual
interface on the virtual interface identified by areaid and neighbor.
Syntax
area areaid virtual-link neighbor dead-interval seconds
no area areaid virtual-link neighbor dead-interval
• areaid — Valid OSPFv3 area identifier.
• neighbor — Router ID of neighbor.
• seconds — Dead interval. (Range: 1-65535)
Default Configuration
40 is the default value for seconds.
Layer 3 Routing Commands 1726
Command Mode
Router OSPFv3 Configuration mode.
User Guidelines
This command has no user guidelines.
Example
The following example configures a 20-second dead interval for the OSPF
virtual interface on the virtual interface identified by area 1 and its neighbor.
console(config)#ipv6 router ospf
console(config-rtr)#area 1 virtual-link 2 dead-interval 20
area virtual-link hello-interval
Use the area virtual-link hello-interval command in Router OSPFv3
Configuration mode to configure the hello interval for the OSPF virtual
interface on the virtual interface identified by areaid and neighbor.
Syntax
area areaid virtual-link neighbor hello-interval seconds
no area areaid virtual-link neighbor hello-interval
• areaid — Valid OSPFv3 area identifier.
• neighbor — Router ID of neighbor.
• seconds — Hello interval. (Range: 1-65535)
Default Configuration
10 is the default value for seconds.
Command Mode
Router OSPFv3 Configuration mode.
User Guidelines
This command has no user guidelines.
Layer 3 Routing Commands 1727
Example
The following example configures a hello interval of 20 seconds for the OSPF
virtual interface on the virtual interface identified by area 1 and its neighbor.
console(config)#ipv6 router ospf
console(config-rtr)#area 1 virtual-link 2 hello-interval 20
area virtual-link retransmit-interval
Use the area virtual-link retransmit-interval command in Router OSPFv3
Configuration mode to configure the retransmit interval for the OSPF virtual
interface on the virtual interface identified by areaid and neighbor.
Syntax
area areaid virtual-link neighbor retransmit-interval seconds
no area areaid virtual-link neighbor retransmit-interval
• areaid — Valid OSPFv3 area identifier.
• neighbor — Router ID of neighbor.
• seconds — Retransmit interval. (Range: 0-3600)
Default Configuration
5 is the default value for seconds.
Command Mode
Router OSPFv3 Configuration mode.
User Guidelines
This command has no user guidelines.
Example
The following example configures the retransmit interval of 20 seconds for
the OSPF virtual interface on the virtual interface identified by area 1 and its
neighbor.
(config)#ipv6 router ospf
(config-rtr)#area 1 virtual-link 2 retransmit-interval 20
Layer 3 Routing Commands 1728
area virtual-link transmit-delay
Use the area virtual-link transmit-delay command in Router OSPFv3
Configuration mode to configure the transmit delay for the OSPF virtual
interface on the virtual interface identified by areaid and neighbor.
Syntax
area areaid virtual-link neighbor transmit-delay seconds
no area areaid virtual-link neighbor transmit-delay
• areaid — Valid OSPFv3 area identifier.
• neighbor — Router ID of neighbor.
• seconds — Transmit delay interval. (Range: 0-3600)
Default Configuration
1 is the default value for seconds.
Command Mode
Router OSPFv3 Configuration mode.
User Guidelines
This command has no user guidelines.
Example
The following example configures a 20-second transmit delay for the OSPF
virtual interface on the virtual interface identified by area 1 and its neighbor.
console(config)#ipv6 router ospf
console(config-rtr)#area 1 virtual-link 2 transmit-delay 20
default-information originate (Router OSPFv3
Configuration)
Use the default-information originate command in Router OSPFv3
Configuration mode to control the advertisement of default routes. Use the
no form of the command to return the default route advertisement settings
to the default value.
Layer 3 Routing Commands 1729
Syntax
default-information originate [always] [metric metric-value] [metric-type
type-value]
no default-information originate [metric] [metric-type]
•always—Always advertise default routes.
• metric-value—
•type-value—The metric (or preference) value of the default route. (Range:
1–16777214)
• One of the following:
1
External type-1 route.
2
External type-2 route.
Default Configuration
The default metric is none and the default type is 2.
Command Mode
Router OSPFv3 Configuration mode.
User Guidelines
This command has no user guidelines.
Example
The following example controls the advertisement of default routes by
defining a metric value of 100 and metric type 2.
console(config)#ipv6 router ospf
console(config-rtr)#default-information originate metric 100 metric-type 2
default-metric
Use the default-metric command in Router OSPFv3 Configuration mode to
set a default for the metric of distributed routes. Use the no form of the
command to remove the metric from the distributed routes.
Layer 3 Routing Commands 1730
Syntax
default-metric metric-value
no default-metric
• metric-value — The metric (or preference) value of the default route.
(Range: 1–16777214)
Default Configuration
This command has no default configuration.
Command Mode
Router OSPFv3 Configuration mode.
User Guidelines
This command has no user guidelines.
Example
The following example sets a default of 100 for the metric of distributed
routes.
console(config)#ipv6 router ospf
console(config-rtr)#default-metric 100
distance ospf
The distance ospf command sets the preference values of OSPF route types
in the router. Lower route preference values are preferred when determining
the best route. The type of OSPF route can be intra, inter, external. All the
external type routes are given the same preference value. Use the “no” form of
this command to reset the preference values to the default.
Syntax
distance ospf {external | inter-area | intra-area} distance
no distance ospf {external | inter-area | intra-area} distance
• distance— Used to select the best path when there are two or more routes
to the same destination from two different routing protocols (Range: 1–
255).
Layer 3 Routing Commands 1731
Default Configuration
The default preference value is 110.
Command Mode
Router OSPF Configuration mode.
Router OSPFv3 Configuration mode.
User Guidelines
There are no user guidelines for this command.
Example
The following example sets a route preference value of 100 for intra OSPF in
the router.
console(config)#ipv6 router ospf
console(config-rtr)#distance ospf intra 100
enable
Use the enable command in Router OSPFv3 Configuration mode to enable
administrative mode of OSPF in the router (active).
Syntax
enable
no enable
Default Configuration
Enabled is the default state.
Command Mode
Router OSPFv3 Configuration mode.
User Guidelines
This command has no user guidelines.
Layer 3 Routing Commands 1732
Example
The following example enables administrative mode of OSPF in the router
(active).
console(config)#ipv6 router ospf
console(config-rtr)#enable
exit-overflow-interval
Use the exit-overflow-interval command in Router OSPFv3 Configuration
mode to configure the exit overflow interval for OSPF. It describes the
number of seconds after entering Overflow state that a router will wait before
attempting to leave the Overflow State. This allows the router to originate
non-default AS-external-LSAs again. When set to 0, the router will not leave
Overflow State until restarted.
Syntax
exit-overflow-interval seconds
no exit-overflow-interval
• seconds — Exit overflow interval for OSPF (Range: 0-2147483647)
Default Configuration
0 is the default value for seconds.
Command Mode
Router OSPFv3 Configuration mode
User Guidelines
This command has no user guidelines.
Example
The following example configures the exit overflow interval for OSPF at 100
seconds.
console(config)#ipv6 router ospf
console(config-rtr)#exit-overflow-interval 100
Layer 3 Routing Commands 1733
external-lsdb-limit
Use the external-lsdb-limit command in Router OSPFv3 Configuration
mode to configure the external LSDB limit for OSPF. If the value is -1, then
there is no limit. When the number of non-default AS-external-LSAs in a
router's link-state database reaches the external LSDB limit, the router enters
overflow state. The router never holds more than the external LSDB limit
non-default AS-external- LSAs in it database. The external LSDB limit
MUST be set identically in all routers attached to the OSPF backbone and/or
any regular OSPF area.
Syntax
external-lsdb-limit limit
no external-lsdb-limit
• limit — External LSDB limit for OSPF (Range: -1-2147483647)
Default Configuration
-1 is the default value for limit.
Command Mode
Router OSPFv3 Configuration mode.
User Guidelines
This command has no user guidelines.
Example
The following example sets the external LSDB limit at 100 for OSPF.
console(config)#ipv6 router ospf
console(config-rtr)#external-lsdb-limit 100
ipv6 ospf
Use the ipv6 ospf command in Interface Configuration mode to enable
OSPF on a router interface or loopback interface.
Layer 3 Routing Commands 1734
Syntax
ipv6 ospf
no ipv6 ospf
Default Configuration
Disabled is the default configuration.
Command Mode
Interface Configuration (VLAN, Tunnel, Loopback) mode
User Guidelines
This command has no user guidelines.
Example
The following example enables OSPF on VLAN 15.
console(config)#interface vlan 15
console(config-if-vlan15)#ipv6 ospf
ipv6 ospf area
Use the ipv6 ospf area areaid command in Interface Configuration mode to
set the OSPF area to which the specified router interface belongs.
Syntax
ipv6 ospf area areaid
no ipv6 ospf area areaid
• areaid — Is a 32-bit integer, formatted as a 4-digit dotted-decimal number
or a decimal value. It uniquely identifies the area to which the interface
connects. Assigning an area id which does not exist on an interface causes
the area to be created with default values. (Range: 0-4294967295).
Default Configuration
This command has no default configuration.
Layer 3 Routing Commands 1735
Command Mode
Interface Configuration (VLAN, Tunnel, Loopback) mode.
User Guidelines
This command has no user guidelines.
Example
The following example defines the OSPF area to which VLAN 15 belongs.
console(config)#interface vlan 15
console(config-if-vlan15)#ipv6 ospf area 100
ipv6 ospf cost
Use the ipv6 ospf cost command in Interface Configuration mode to
configure the cost on an OSPF interface. Use the no form of the command to
return the cost to the default value.
Syntax
ipv6 ospf cost interface-cost
no ipv6 ospf cost
• inte
rface-cost
— Specifies the cost (link-state metric) of the OSPF
interface. (Range: 1–65535)
Default Configuration
10 is the default link-state metric configuration.
Command Mode
Interface Configuration (VLAN) mode.
User Guidelines
This command has no user guidelines.
Example
The following example configures a cost of 100.
console(config)#interface vlan 15
Layer 3 Routing Commands 1736
console(config-if-vlan15)#ipv6 ospf cost 100
ipv6 ospf dead-interval
Use the ipv6 ospf dead-interval command in Interface Configuration mode
to set the OSPF dead interval for the specified interface.
Syntax
ipv6 ospf dead-interval seconds
no ipv6 ospf dead-interval
• seconds — A valid positive integer, which represents the length of time in
seconds that a router's Hello packets have not been seen before its
neighbor routers declare that the router is down. The value for the length
of time must be the same for all routers attached to a common network.
This value should be some multiple of the Hello Interval (i.e. 4).
(Range: 1-65535)
Default Configuration
40 seconds is the default value of seconds.
Command Mode
Interface Configuration (VLAN, Tunnel, Loopback) mode.
User Guidelines
This command has no user guidelines.
Example
The following example sets the OSPF dead interval at 100 seconds.
console(config)#interface vlan 15
console(config-if-vlan15)#ipv6 ospf dead-interval 100
ipv6 ospf hello-interval
Use the ipv6 ospf hello-interval command in Interface Configuration mode
to set the OSPF hello interval for the specified interface.
Layer 3 Routing Commands 1737
Syntax
ipv6 ospf hello-interval seconds
no ipv6 ospf hello-interval
• seconds — A valid positive integer which represents the length of time of
the OSPF hello interval. The value must be the same for all routers
attached to a network. (Range: 1-65535 seconds)
Default Configuration
10 seconds is the default value of seconds.
Command Mode
Interface Configuration (VLAN, Tunnel, Loopback) mode.
User Guidelines
This command has no user guidelines.
Example
The following example sets the OSPF hello interval at 15 seconds.
console(config)#interface vlan 15
console(config-if-vlan15)#ipv6 ospf hello-interval 15
ipv6 ospf mtu-ignore
Use the ipv6 ospf mtu-ignore command in Interface Configuration mode to
disable OSPF maximum transmission unit (MTU) mismatch detection. Use
the no form of the command to reset mismatch detection to the default
value.
Syntax
ipv6 ospf mtu-ignore
no ipv6 ospf mtu-ignore
Default Configuration
The default state is Disabled.
Layer 3 Routing Commands 1738
Command Mode
Interface Configuration (VLAN, Tunnel, Loopback) mode.
User Guidelines
OSPF Database Description packets specify the size of the largest IP packet
that can be sent without fragmentation on the interface. When a router
receives a Database Description packet, it examines the MTU advertised by
the neighbor. By default, if the MTU is larger than the router can accept, the
Database Description packet is rejected and the OSPF adjacency is not
established.
Example
The following example disables OSPF maximum transmission unit (MTU)
mismatch detection.
console(config)#interface vlan 15
console(config-if-vlan15)#ipv6 ospf mtu-ignore
ipv6 ospf network
Use the ipv6 ospf network command in Interface Configuration mode to
change the default OSPF network type for the interface. Use the no form of
the command to return the network setting to the default value.
Syntax
ipv6 ospf network {broadcast | point-to-point}
no ipv6 ospf network
•broadcast — The network type is broadcast.
•point-to-point — The network type is point-to-point.
Default Configuration
The default state is point-to-point.
Command Mode
Interface Configuration (VLAN, Tunnel, Loopback) mode
Layer 3 Routing Commands 1739
User Guidelines
Normally, the network type is determined from the physical IP network type.
By default all Ethernet networks are OSPF-type broadcast. Similarly, tunnel
interfaces default to point-to-point. When an Ethernet port is used as a single
large bandwidth IP network between two routers, the network type can be
point-to-point since there are only two routers. Using point-to-point as the
network type eliminates the overhead of the OSPF designated router
election. It is normally not useful to set a tunnel to OSPF network type
broadcast.
Example
The following example changes the default OSPF network type to point-to-
point.
console(config)#interface vlan 15
console(config-if-vlan15)#ipv6 ospf network point-to-point
ipv6 ospf priority
Use the ipv6 ospf priority command in Interface Configuration mode to set
the OSPF priority for the specified router interface. Use the no form of the
command to return the priority to the default value.
Syntax
ipv6 ospf priority number-value
no ipv6 ospf priority
•
number-value
— Specifies the OSPF priority for the specified router
interface. (Range: 0–255) A value of 0 indicates that the router is not
eligible to become the designated router on this network.
Default Configuration
1, the highest router priority, is the default value.
Command Mode
Interface Configuration (VLAN, Tunnel, Loopback) mode.
Layer 3 Routing Commands 1740
User Guidelines
This command has no user guidelines.
Example
The following example sets the OSPF priority at 50 for VLAN 15.
console(config)#interface vlan 15
console(config-if-vlan15)#ipv6 ospf priority 50
ipv6 ospf retransmit-interval
Use the ipv6 ospf retransmit-interval command in Interface Configuration
mode to set the OSPF retransmit interval for the specified interface.
Syntax
ipv6 ospf retransmit-interval seconds
no ipv6 ospf retransmit-interval
• seconds — The number of seconds between link-state advertisement
retransmissions for adjacencies belonging to this router interface. This
value is also used when retransmitting database description and link-state
request packets. (Range: 0 to 3600 seconds)
Default Configuration
5 seconds is the default value.
Command Mode
Interface Configuration (VLAN, Tunnel, Loopback) mode.
User Guidelines
This command has no user guidelines.
Example
The following example sets the OSPF retransmit interval at 100 seconds.
console(config)#interface vlan 15
console(config-if-vlan15)#ipv6 ospf retransmit-interval 100
Layer 3 Routing Commands 1741
ipv6 ospf transmit-delay
Use the ipv6 ospf transmit-delay command in Interface Configuration mode
to set the OSPF Transmit Delay for the specified interface.
Syntax
ipv6 ospf transmit-delay seconds
no ipv6 ospf transmit-delay
• seconds — OSPF transmit delay for the specified interface. In addition, it
sets the estimated number of seconds it takes to transmit a link state
update packet over this interface. (Range: 1 to 3600 seconds)
Default Configuration
No default value.
Command Mode
Interface Configuration (VLAN, Tunnel, Loopback) mode.
User Guidelines
This command has no user guidelines.
Example
The following example sets the OSPF Transmit Delay at 100 seconds for
VLAN 15.
console(config)#interface vlan 15
console(config-if-vlan15)#ipv6 ospf transmit-delay 100
ipv6 router ospf
Use the ipv6 router ospf command in Global Configuration mode to enable
OSPFv3 and enter Router OSPFv3 Configuration mode. Use the no form of
the command to disable OSPFv3 and remove the OSPFv3 interface and
global configuration.
Syntax
ipv6 router ospf
Layer 3 Routing Commands 1742
no ipv6 router ospf
Default Configuration
This command has no default configuration.
Command Mode
Global Configuration mode.
User Guidelines
This command has no user guidelines.
Example
Use the following command to enable OSPFv3.
console(config)#ipv6 router ospf
maximum-paths
Use the maximum-paths command in Router OSPFv3 Configuration mode
to set the number of paths that OSPF can report for a given destination.
Syntax
maximum-paths maxpaths
no maximum-paths
• maxpaths — Number of paths that can be reported. (Range: 1-2)
Default Configuration
2 is the default value for maxpaths.
Command Mode
Router OSPFv3 Configuration mode.
User Guidelines
This command has no user guidelines.
Layer 3 Routing Commands 1743
Example
The following example sets the number of paths that OSPF can report for a
destination to 1.
console(config)#ipv6 router ospf
console(config-rtr)#maximum-paths 1
nsf
Use this command to enable OSPF graceful restart. Use the no form of this
command to disable graceful restart.
Syntax
nsf [ietf] [planned-only]
no nsf [ietf]
•ietf — This keyword is used to distinguish the IETF standard
implementation of graceful restart from other implementations. Since the
IETF implementation is the only one supported, this keyword is optional.
•planned-only — This keyword indicates that OSPF should only perform a
graceful restart when the restart is planned (i.e., when the restart is a result
of the initiate failover command).
Default Configuration
Graceful restart is disabled by default
Command Mode
Router OSPFv3 Configuration mode
User Guidelines
Graceful restart works in concert with nonstop forwarding to enable the
hardware to continue forwarding IPv6 packets using OSPFv3 routes while a
backup unit takes over management unit responsibility. When OSPF
executes a graceful restart, it informs its neighbors that the OSPF control
plane is restarting, but that it will be back shortly. Helpful neighbors continue
to advertise to the rest of the network that they have full adjacencies with the
restarting router, avoiding announcement of a topology change and
Layer 3 Routing Commands 1744
everything that goes with that (i.e., flooding of LSAs, SPF runs). Helpful
neighbors continue to forward packets through the restarting router. The
restarting router relearns the network topology from its helpful neighbors.
This implementation of graceful restart restarting router behavior is only
useful with a router stack. Graceful restart does not work on a standalone,
single-unit router.
nsf helper
Use the nsf-helper to allow OSPF to act as a helpful neighbor for a restarting
router. Use the no form of this command to prevent OSPF from acting as a
helpful neighbor.
Syntax
nsf helper[planned-only]
no nsf helper
•
planned-only
— This keyword indicates that OSPF should only help a
restarting router performing a planned restart.
Default Configuration
OSPF may act as a helpful neighbor for both planned and unplanned restarts
Command Mode
Router OSPFv3 Configuration mode
User Guidelines
The grace LSA announcing the graceful restart includes a restart reason.
Reasons 1 (software restart) and 2 (software reload/upgrade) are considered
planned restarts. Reasons 0 (unknown) and 3 (switch to redundant control
processor) are considered unplanned restarts.
nsf ietf helper disable is functionally equivalent to no nsf helper and is
supported solely for IS CLI compatibility.
Layer 3 Routing Commands 1745
nsf helper strict-lsa-checking
Use the nsf-helper strict-lsa-checking command to require that an OSPF
helpful neighbor exit helper mode whenever a topology change occurs. Use
the “no” form of this command to allow OSPF to continue as a helpful
neighbor in spite of topology changes.
Syntax
nsf [ietf] helper strict-lsa-checking
no nsf [ietf] helper strict-lsa-checking
•
ietf
—This keyword is used to distinguish the IETF standard
implementation of graceful restart from other implementations. Since the
IETF implementation is the only one supported, this keyword is optional.
Default Configuration
A helpful neighbor exits helper mode when a topology change occurs.
Command Mode
Router OSPFv3 Configuration mode
User Guidelines
The restarting router is unable to react to topology changes. In particular, the
restarting router will not immediately update its forwarding table; therefore, a
topology change may introduce forwarding loops or black holes that persist
until the graceful restart completes. By exiting the graceful restart on a
topology change, a router tries to eliminate the loops or black holes as quickly
as possible by routing around the restarting router.
A helpful neighbor considers a link down with the restarting router to be a
topology change, regardless of the strict LSA checking configuration.
nsf restart-interval
Use the nsf restart-interval command to configure the length of the grace
period on the restarting router. Use the “no” form of this command to revert
the grace period to its default.
Layer 3 Routing Commands 1746
Syntax
nsf [ietf] restart-interval seconds
no nsf [ietf] restart-interval
•
ietf
— This keyword is used to distinguish the IETF standard
implementation of graceful restart from other implementations. Since the
IETF implementation is the only one supported, this keyword is optional.
• seconds — The number of seconds that the restarting router asks its
neighbors to wait before exiting helper mode. The restarting router
includes the restart interval in its grace LSAs (range 1–1800 seconds).
Default Configuration
The default restart interval is 120 seconds.
Command Mode
Router OSPFv3 Configuration mode
User Guidelines
The grace period must be set long enough to allow the restarting router to
reestablish all of its adjacencies and complete a full database exchange with
each of those neighbors.
passive-interface
Use the passive-interface command to set the interface or tunnel as passive.
It overrides the global passive mode that is currently effective on the interface
or tunnel. Use the “no” form of this command to set the interface or tunnel
as non-passive.
Syntax
passive-interface {vlan vlan-id | tunnel tunnel-id}
no passive-interface {vlan vlan-id | tunnel tunnel-id}
• vlan-id — The VLAN number
• tunnel-id — Tunnel identifier. (Range: 0–7)
Layer 3 Routing Commands 1747
Default Configuration
Passive interface mode is disabled by default.
Command Mode
Router OSPFv3 Configuration mode.
User Guidelines
There are no user guidelines for this command.
Example
console(config-router)#passive-interface vlan 1
passive-interface default
The passive-interface default command enables the global passive mode by
default for all interfaces. It overrides any interface level passive mode. Use the
“no” form of this command to disable the global passive mode by default for
all interfaces. Any interface previously configured to be passive reverts to non-
passive mode.
Syntax
passive-interface default
no passive-interface default
Default Configuration
Global passive mode is disabled by default.
Command Mode
Router OSPFv3 Configuration mode.
User Guidelines
There are no user guidelines for this command.
Example
console(config-rtr)#passive-interface default
Layer 3 Routing Commands 1748
redistribute (OSPFv3)
Use the redistribute command in Router OSPFv3 Configuration mode to
configure the OSPFv3 protocol to allow redistribution of routes from the
specified sources.
Syntax
redistribute protocol [metric metric-value] [tag tag-value] [route-map route-
tag]
no redistribute protocol
• protocol —One of the following:
– static—Specifies that static routes are to be redistributed.
– connected—Specifies that connected routes are to be redistributed.
– bgp—Specifies BGP originated routes are to be redistributed.
– rip—Specifies RIP originated routes are to be redistributed.
• metric-value — Metric value used for default routes. (Range: 0-16777214)
• tag-value— Insert the specified tag value into redistributed routes.
• route-tag—Filter redistributed routes using the specified route map.
Default Configuration
The default tag value is 0.
There is no default metric or route map configured.
Command Mode
Router OSPFv3 Configuration mode
User Guidelines
When redistributing a route metric, the receiving protocol must understand
the metric. The OSPF metric is a cost value equal to 108/ link bandwidth in
bits/sec. For example, the OSPF cost of GigabitEthernet is 1 = 108/108 = 1.
The RIP metric is a hop count with a maximum value of 15. Redistribution of
BGP-originated routes is only available on BGP-enabled routers.
Layer 3 Routing Commands 1749
Example
The following example configures the OSPFv3 protocol to allow
redistribution of routes to connected devices.
console(config)#ipv6 router ospf
console(config-rtr)#redistribute connected
router-id
Use the router-id command in Router OSPFv3 Configuration mode to set a
4-digit dotted-decimal number uniquely identifying the Router OSPF ID.
Syntax
router-id router-id
• router-id — Router OSPF identifier. (Range: 0-4294967295)
Default Configuration
This command has no default configuration.
Command Mode
Router OSPFv3 Configuration mode.
User Guidelines
This command has no user guidelines.
Example
The following example sets a 4-digit dotted-decimal number identifying the
Router OSPF ID as 2.3.4.5.
console(config)#ipv6 router ospf
console(config-rtr)#router-id 2.3.4.5
show ipv6 ospf
Use the show ipv6 ospf command to display information relevant to the
OSPF router.
Layer 3 Routing Commands 1750
Syntax
show ipv6 ospf [area-id]
area-id — Identifier for the OSPF area being displayed.
Default Configuration
This command has no default configuration.
Command Mode
User Exec, Privileged Exec mode, Global Configuration mode and all
Configuration submodes
User Guidelines
Some of the information below displays only if you enable OSPF and
configure certain features. The following fields may be displayed:
Field Description
Router ID A 32-bit integer in dotted decimal format identifying the router
about which information is displayed. This is a configured value.
OSPF Admin
Mode
Shows whether OSPF is administratively enabled or disabled.
External LSDB
Limit
Shows the maximum number of non-default external LSAs
entries that can be stored in the link-state database.
Exit Overflow
Interval
Shows the number of seconds that, after entering
OverflowState, as defined by RFC 1765, a router will attempt to
leave OverflowState.
AutoCost Ref BW The configured autocost reference bandwidth. This value is used
to determine the OSPF metric on its interfaces. The reference
bandwidth is divided by the interface speed to compute the
metric.
Default Passive
Setting
When enabled, OSPF interfaces are passive by default.
Maximum Paths Shows the maximum number of paths that OSPF can report for
a given destination.
Default Metric Default metric for redistributed routes.
Layer 3 Routing Commands 1751
Default Route
Advertise
When enabled, OSPF originates a type 5 LSA advertising a
default route.
Always When this option is configured, OSPF only originates a default
route when the router has learned a default route from another
source.
Metric Shows the metric for the advertised default routes. If the metric
is not configured, this field is not configured.
Metric Type Shows whether the metric for the default route is advertised as
External Type 1 or External Type 2.
Number of Active
Areas
The number of OSPF areas to which the router is attached on
interfaces that are up.
ABR Status Shows whether the router is an OSPF Area Border Router.
ASBR Status Indicates whether the router is an autonomous system border
router. Router automatically becomes an ASBR when it is
configured to redistribute routes learned from another protocol.
The possible values for the ASBR status is enabled (if the router
is configured to redistribute routes learned by other protocols) or
disabled (if the router is not configured for the same).
Stub Router OSPF enters stub router mode, as described in RFC 3137, when
it encounters a resource limitation that prevents it from
computing a complete routing table. In this state, OSPF sets the
link metrics of non-stub links in its own router LSAs to the
largest possible value, discouraging other routers from
computing paths through the stub router, but allowing other
routers to compute routes to destinations attached to the stub
router. To restore OSPF to normal operation, resolve the
condition that caused the resource overload, then disable and
reenable OSPF globally.
External LSDB
Overflow
OSPF enters this state when the number of external LSAs
exceeds a configured limit, as described in RFC 1765.
External LSA
Count
Shows the number of external (LS type 5) link-state
advertisements in the link-state database.
External LSA
Checksum
Shows the sum of the LS checksums of external link-state
advertisements contained in the link-state database.
New LSAs
Originated
Shows the number of link-state advertisements that have been
originated.
Layer 3 Routing Commands 1752
LSAs Received Shows the number of link-state advertisements received
determined to be new instantiations.
LSA Count The number of LSAs in the link state database.
Maximum Number
of LSAs
The limit on the number of LSAs that the router can store in its
link state database.
LSA High Water
Mark
The maximum number of LSAs that have been in the link state
database since OSPF began operation.
Retransmit List
Entries
The current number of entries on all neighbors’ retransmit lists.
Maximum Number
of Retransmit
Entries
The maximum number of entries that can be on neighbors’
retransmit lists at any given time. This is the sum for all
neighbors. When OSPF receives an LSA and cannot allocate a
new retransmit list entry, the router does not acknowledge the
LSA, expecting the sender to retransmit.
Retransmit Entries
High Water Mark
The maximum number of retransmit list entries that have been
on all neighbors’ retransmit lists at one time.
NSF Support Whether graceful restart is administratively enabled. Possible
values are Support Always, Disabled, or Planned.
NSF Restart
Interval
The number of seconds a helpful neighbor allows a restarting
router to complete its graceful restart.
NSF Restart Status Whether the router is currently performing a graceful restart.
NSF Restart Age The number of seconds until a graceful restart expires. Only
non-zero when the router is in graceful restart.
NSF Restart Exit
Reason
The reason the previous graceful restart ended. Possible values
are Not attempted, In progress, Completed, Timed out,
Topology change, and Manual clear.
NSF Helper
Support
Whether this router is configured to act as a graceful restart
helpful neighbor. Possible values are: Helper Support Always,
Disabled, or Planned.
NSF Helper Strict
LSA Checking
As a graceful restart helpful neighbor, whether to terminate the
helper relationship if a topology change occurs during a
neighbor's graceful restart.
Redistributing This field is a heading and appears only if you configure the
system to take routes learned from a non-OSPF source and
advertise them to its peers.
Layer 3 Routing Commands 1753
Example
The following example enables OSPF traps.
console#show ipv6 ospf
Router ID...................................... 0.0.0.2
OSPF Admin Mode................................ Enable
ASBR Mode...................................... Disable
ABR Status..................................... Disable
Exit Overflow Interval......................... 0
External LSA Count............................. 0
External LSA Checksum.......................... 0
New LSAs Originated............................ 0
LSAs Received.................................. 0
External LSDB Limit............................ No Limit
Default Metric................................. Not Configured
Maximum Paths.................................. 2
Default Route Advertise........................ Disabled
Always......................................... FALSE
Metric.........................................
Metric Type.................................... External Type 2
NSF Support.................................... Disabled
NSF Restart Interval........................... 120 seconds
NSF Helper Support............................. Always
NSF Helper Strict LSA Checking................. Enabled
show ipv6 ospf abr
This command displays the internal OSPFv3 routes to reach Area Border
Routers (ABR). This command takes no options.
Syntax
show ipv6 ospf abr
Default Configuration
This command has no default configuration.
Source Shows source protocol/routes that are being redistributed.
Possible values are static, connected, or RIP.
Tag Shows the decimal value attached to each external route.
Subnets When this option is not configured, OSPF will only redistribute
classful prefixes.
Distribute-List Shows the access list used to filter redistributed routes.
Layer 3 Routing Commands 1754
Command Mode
User Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
This command has no user guidelines.
Example
console#show ipv6 ospf abr
Type Router Id Cost Area ID Next Hop Next Hop
Intf
---- -------- ---- -------- ----------------------- -----
INTRA 3.3.3.3 10 0.0.0.1 FE80::211:88FF:FE2A:3CB3 vlan11
INTRA 4.4.4.4 10 0.0.0.1 FE80::210:18FF:FE82:8E1 vlan12
show ipv6 ospf area
Use the show ipv6 ospf area command to display information about the area.
Syntax
show ipv6 ospf area areaid
• areaid — Identifier for the OSPF area being displayed.
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
This command has no user guidelines.
Example
The following example displays information about area 1.
console#show ipv6 ospf area 1
Layer 3 Routing Commands 1755
AreaID........................................ 0.0.0.1
External Routing.............................. Import External LSAs
Spf Runs...................................... 0
Area Border Router Count...................... 0
Area LSA Count................................ 0
Area LSA Checksum............................. 0
Stub Mode..................................... Disable
Import Summary LSAs........................... Enable
show ipv6 ospf asbr
The show ipv6 ospf asbr command displays the internal OSPFv3 routes to
reach Autonomous System Boundary Routes (ASBR). This command takes
no options.
Syntax
show ipv6 ospf asbr
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
This command has no user guidelines.
Example
console#show ipv6 ospf asbr
Type Router Id Cost Area ID Next Hop Next Hop
Intf
---- --------- ---- -------- ----------------------- -------
INTRA 1.1.1.1 10 0.0.0.1 FE80::213:C4FF:FEDB:6C41 vlan10
INTRA 4.4.4.4 10 0.0.0.1 FE80::210:18FF:FE82:8E1 vlan12
show ipv6 ospf border-routers
Use the show ipv6 ospf command to display internal OSPFv3 routes to reach
Area Border Routers (ABR) and Autonomous System Boundary Routers
(ASBR). This command takes no options.
Layer 3 Routing Commands 1756
Syntax
show ipv6 ospf border-routers
Default Configuration
This command has no default configuration.
Command Mode
User Exec, Privileged Exec mode, Global Configuration mode and all
Configuration submodes
show ipv6 ospf database
Use the show ipv6 ospf database command to display information about the
link state database when OSPFv3 is enabled.
Syntax
show ipv6 ospf [area-id] database [{external | inter-area {prefix | router} |
link | network | nssaexternal | prefix | router | unknown [area | as | link]}]
[link-state-id] [adv-router [router-id] | self-originate]
• area-id — Identifies a specific OSPF area for which link state database
information will be displayed.
•external — Displays the external LSAs.
•inter-area — Displays the inter-area LSAs.
•link — Displays the link LSAs.
•network — Displays the network LSAs.
•nssa-external — Displays NSSA external LSAs.
•prefix — Displays intra-area Prefix LSA.
•router — Displays router LSAs.
•unknown — Displays unknown area, AS or link-scope LSAs.
•l
ink-state-
id — Specifies a valid link state identifier (LSID).
•adv-router — Shows the LSAs that are restricted by the advertising router.
• router-id — Specifies a valid router identifier.
•self-originate — Displays the LSAs in that are self originated.
Layer 3 Routing Commands 1757
Default Configuration
This command has no default configuration.
Command Mode
User Exec, Privileged Exec mode, Global Configuration mode and all
Configuration submodes
User Guidelines
If no parameters are entered, the command displays the LSA headers.
Optional parameters specify the type of link state advertisements to display.
The information below is only displayed if OSPF is enabled.
Example
The following example displays information about the link state database
when OSPFv3 is enabled.
console#show ipv6 ospf database
Router Link States (Area 0.0.0.0)
Adv Router Link Id Age Sequence Csum Options Rtr Opt
-------------- --------------- ----- -------- ---- ------- -------
1.1.1.1 0 4 80000034 54BD V6E--R- ----B
2.2.2.2 0 2 80000044 95A5 V6E--R- ----B
Network Link States (Area 0.0.0.0)
Adv Router Link Id Age Sequence Csum Options Rtr Opt
-------------- --------------- ----- -------- ---- ------- -------
2.2.2.2 636 636 80000001 8B0D V6E--R-
Inter Network States (Area 0.0.0.0)
Adv Router Link Id Age Sequence Csum Options Rtr Opt
-------------- --------------- ----- -------- ---- ------- -------
1.1.1.1 1 323 80000001 3970
2.2.2.2 1 322 80000001 1B8A
1.1.1.1 2 293 80000001 3529
2.2.2.2 2 375 80000001 FC5E
Link States (Area 0.0.0.0)
Adv Router Link Id Age Sequence Csum Options Rtr Opt
-------------- --------------- ----- -------- ---- ------- -------
1.1.1.1 634 700 80000008 2D89 V6E--R-
2.2.2.2 634 689 8000000A 6F82 V6E--R-
2.2.2.2 635 590 80000001 7782 V6E--R-
Intra Prefix States (Area 0.0.0.0)
Layer 3 Routing Commands 1758
Adv Router Link Id Age Sequence Csum Options Rtr Opt
-------------- --------------- ----- -------- ---- ------- -------
1.1.1.1 0 1 8000003C 9F31
2.2.2.2 0 2 8000004D 9126
Router Link States (Area 0.0.0.1)
Adv Router Link Id Age Sequence Csum Options Rtr Opt
-------------- --------------- ----- -------- ---- ------- -------
1.1.1.1 0 1 8000002E 35AD V6E--R- --V-B
2.2.2.2 0 0 8000004A D2F3 V6E--R- ----B
Network Link States (Area 0.0.0.1)
Adv Router Link Id Age Sequence Csum Options Rtr Opt
-------------- --------------- ----- -------- ---- ------- -------
1.1.1.1 634 621 80000001 B9E2 V6E--R-
Inter Network States (Area 0.0.0.1)
Adv Router Link Id Age Sequence Csum Options Rtr Opt
-------------- --------------- ----- -------- ---- ------- -------
1.1.1.1 16 4 80000001 CA7C
2.2.2.2 18 3 80000001 B28D
Link States (Area 0.0.0.1)
Adv Router Link Id Age Sequence Csum Options Rtr Opt
-------------- --------------- ----- -------- ---- ------- -------
1.1.1.1 634 441 80000003 B877 V6E--R-
2.2.2.2 634 433 80000003 FE6E V6E--R-
Intra Prefix States (Area 0.0.0.1)
Adv Router Link Id Age Sequence Csum Options Rtr Opt
-------------- --------------- ----- -------- ---- ------- -------
1.1.1.1 0 6 8000003A 37C4
2.2.2.2 0 1 8000004F 439A
1.1.1.1 10634 434 80000002 440A
show ipv6 ospf database database-summary
Use the show ipv6 ospf database database-summary command to display the
number of each type of LSA in the database and the total number of LSAs in
the database.
Syntax
show ipv6 ospf database database-summary
Default Configuration
This command has no default configuration.
Layer 3 Routing Commands 1759
Command Mode
User Exec, Privileged Exec mode, Global Configuration mode and all
Configuration submodes
User Guidelines
This command has no user guidelines.
Example
The following example displays the number of each type of LSA in the
database and the total number of LSAs in the database.
console#show ipv6 ospf database database-summary
OSPF Router with ID (0.0.0.2)
Router database summary
Router......................................... 0
Network........................................ 0
Inter-area Prefix.............................. 0
Inter-area Router.............................. 0
Type-7 Ext..................................... 0
Link........................................... 0
Intra-area Prefix.............................. 0
Link Unknown................................... 0
Area Unknown................................... 0
AS Unknown..................................... 0
Type-5 Ext..................................... 0
Self-Originated Type-5 Ext..................... 0
Total.......................................... 0
show ipv6 ospf interface
Use the show ipv6 ospf interface command to display the information for the
IFO object or virtual interface tables.
Syntax
show ipv6 ospf interface [interface-type interface-number]
• interface-type—The interface type, VLAN, tunnel or loopback
• interface-number—The valid interface number, a valid VLAN ID, tunnel
identifier (Range: 0–7) or loopback identifier (Range: 0–7).
Default Configuration
This command has no default configuration.
Layer 3 Routing Commands 1760
Command Mode
User Exec, Privileged Exec mode, Global Configuration mode and all
Configuration submodes
User Guidelines
This command has no user guidelines.
Example
The following example displays the information in VLAN 11’s virtual
interface tables.
console#show ipv6 ospf interface vlan 11
IP Address..................................... 11.11.11.11
ifIndex........................................ 1
OSPF Admin Mode................................ Enable
OSPF Area ID................................... 0.0.0.0
Router Priority................................ 1
Retransmit Interval............................ 5
Hello Interval................................. 10
Dead Interval.................................. 40
LSA Ack Interval............................... 1
Iftransit Delay Interval....................... 1
Authentication Type............................ None
Metric Cost.................................... 10 (computed)
OSPF Mtu-ignore................................ Disable
OSPF cannot be initialized on this interface.
show ipv6 ospf interface brief
Use the show ipv6 ospf interface brief command to display brief information
for the IFO object or virtual interface tables.
Syntax
show ipv6 ospf interface brief
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
Layer 3 Routing Commands 1761
User Guidelines
This command has no user guidelines.
Example
The following example displays brief ospf interface information.
console#show ipv6 ospf interface brief
Hello Dead Retrax LSA
Admin Router Int. Int. Int. Retrax Ack
Interface Mode Area ID Prior. Cost Val. Val. Val. Delay Intval
--------- -------- -------- ------ ----- ----- ----- ------ ------ -----
show ipv6 ospf interface stats
Use the show ipv6 ospf interface stats command to display the statistics for a
specific interface. The command only displays information if OSPF is
enabled.
Syntax
show ipv6 ospf interface stats vlan vlan-id
• vlan-id — Valid VLAN ID.
Default Configuration
This command has no default configuration.
Command Mode
User Exec mode, Privileged Exec mode, Global Configuration mode and all
Configuration submodes
User Guidelines
This command has no user guidelines.
Example
The following example displays the interface statistics for VLAN 5.
console>show ipv6 ospf interface stats vlan 5
OSPFv3 Area ID................................. 0.0.0.1
Spf Runs....................................... 265
Layer 3 Routing Commands 1762
Area Border Router Count....................... 1
AS Border Router Count......................... 0
Area LSA Count................................. 6
IPv6 Address...................................
FE80::202:BCFF:FE00:3146/1283FFE::2/64
OSPF Interface Events.......................... 53
Virtual Events................................. 13
Neighbor Events................................ 6
External LSA Count............................. 0
LSAs Received.................................. 660
Originate New LSAs............................. 853
Sent Packets................................... 1013
Received Packets............................... 893
Discards....................................... 48
Bad Version.................................... 0
Virtual Link Not Found......................... 9
Area Mismatch.................................. 39
Invalid Destination Address.................... 0
No Neighbor at Source Address.................. 0
Invalid OSPF Packet Type....................... 0
Packet Type Sent Received
-------------------- ---------- ----------
Hello 295 219
Database Description 10 14
LS Request 4 4
LS Update 521 398
LS Acknowledgment 209 282
show ipv6 ospf interface vlan
Use the show ipv6 ospf interface vlan command to display OSPFv3
configuration and status information for a specific VLAN.
Syntax
show ipv6 ospf interface vlan {vlan-id | brief}
• vlan-id — Valid VLAN ID. Range is 1-4093.
•brief — Displays a snapshot of configured interfaces.
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
Layer 3 Routing Commands 1763
User Guidelines
This command has no user guidelines.
Example
The following example displays OSPF interface VLAN information.
console#show ipv6 ospf interface vlan 10
IPv6 Address............................. FE80::2FC:E3FF:FE90:44
ifIndex.................................. 634
OSPF Admin Mode.......................... Enable
OSPF Area ID............................. 0.0.0.1
Router Priority.......................... 1
Retransmit Interval...................... 5
Hello Interval........................... 10
Dead Interval............................ 40
LSA Ack Interval......................... 1
Iftransit Delay Interval................. 1
Authentication Type...................... None
Metric Cost.............................. 10 (computed)
OSPF Mtu-ignore.......................... Disable
OSPF Interface Type...................... broadcast
State.................................... backup-designated-router
Designated Router........................ 1.1.1.1
Backup Designated Router................. 2.2.2.2
Number of Link Events.................... 46
show ipv6 ospf neighbor
Use the show ipv6 ospf neighbor command to display information about
OSPF neighbors. If a neighbor IP address is not specified, the output displays
summary information in a table. If an interface or tunnel is specified, only the
information for that interface or tunnel displays. The information below only
displays if OSPF is enabled and the interface has a neighbor.
Syntax
show ipv6 ospf neighbor [interface-type interface-number] [neighbor-id]
• interface-type—Interface type, vlan or tunnel.
• interface-number—A valid interface number, a valid VLAN ID or tunnel
identifier. (Range is 0-7).
• neighbor-id—Valid IP address of the neighbor about which information is
displayed.
Layer 3 Routing Commands 1764
Default Configuration
This command has no default configuration.
Command Mode
User Exec, Privileged Exec mode, Global Configuration mode and all
Configuration submodes
User Guidelines
This command has no user guidelines.
Examples
The following examples display information about OSPF neighbors, in the
first case in a summary table, and in the second in a table specific to tunnel 1.
console#show ipv6 ospf neighbor
Router ID Priority Intf Interface State Dead
ID Time
--------- -------- ---- ----------- ------------- ----
console#show ipv6 ospf neighbor interface tunnel 1
IP Address..................................... 2.4.6.8
ifIndex........................................ 619
OSPF Admin Mode................................ Enable
OSPF Area ID................................... 0.0.0.0
Router Priority................................ 1
Retransmit Interval............................ 5
Hello Interval................................. 10
Dead Interval.................................. 40
LSA Ack Interval............................... 1
Iftransit Delay Interval....................... 1
Authentication Type............................ None
Metric Cost.................................... 1 (computed)
OSPF Mtu-ignore................................ Disable
OSPF cannot be initialized on this interface.
show ipv6 ospf range
Use the show ipv6 ospf range command to display information about the area
ranges for the specified area identifier.
Syntax
show ipv6 ospf range areaid
Layer 3 Routing Commands 1765
• areaid — Identifies the OSPF area whose ranges are being displayed.
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
This command has no user guidelines.
Example
The following example displays information about the area ranges for area 1.
console#show ipv6 ospf range 1
Area ID IPv6 Prefix/Prefix Length Lsdb Type Advertisement
--------- ------------------------- --------------- -------------
show ipv6 ospf stub table
Use the show ipv6 ospf stub table command to display the OSPF stub table.
The information below will only be displayed if OSPF is initialized on the
switch.
Syntax
show ipv6 ospf stub table
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
This command has no user guidelines.
Layer 3 Routing Commands 1766
Example
The following example displays the OSPF stub table.
console#show ipv6 ospf stub table
AreaId TypeofService Metric Val Import SummaryLSA
------------ ------------- ---------- -----------------
0.0.0.10 Normal 1 Enable
show ipv6 ospf virtual-links
Use the show ipv6 ospf virtual-links command to display the OSPF Virtual
Interface information for a specific area and neighbor or for all areas in the
system.
Syntax
show ipv6 ospf virtual-link [area-id neighbor-id | brief]
• area-id — Identifies the OSPF area whose virtual interface information is
being displayed.
• neighbor-id — Router ID of neighbor.
Default Configuration
This command has no default configuration.
Command Mode
User Exec, Privileged Exec mode, Global Configuration mode and all
Configuration submodes
User Guidelines
This command has no user guidelines.
Example
The following example displays the OSPF Virtual Interface information for
area 1 and its neighbor.
console#show ipv6 ospf virtual-link 1 1.1.1.1
Area ID........................................ 1
Neighbor Router ID............................. 1.1.1.1
Hello Interval................................. 10
Dead Interval.................................. 40
Layer 3 Routing Commands 1767
Iftransit Delay Interval....................... 1
Retransmit Interval............................ 5
State.......................................... point-to-point
Metric......................................... 10
Neighbor State................................. Full
show ipv6 ospf virtual-link brief
Use the show ipv6 ospf virtual-link brief command to display the OSPFV3
Virtual Interface information for all areas in the system.
Syntax
show ipv6 ospf virtual-link brief
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
This command has no user guidelines.
Example
The following example displays the OSPF stub table.
console(config)#show ipv6 ospf virtual-link brief
Hello Dead Retransmit Transit
Area ID Neighbor Interval Interval Interval Delay
----------- ----------- ---------- ---------- ---------- --------
Layer 3 Routing Commands 1768
Router Discovery Protocol
Commands
Dell EMC Networking N3000/N3100/N4000 Series Switches
Routers can be configured to periodically send router discovery messages to
announce their presence to locally attached hosts. The router discovery
message advertises one or more IP addresses on the router that hosts can use
as their default gateway. Hosts can send a router solicitation message asking
any router that receives the message to immediately send a router
advertisement, so that the host does not have to wait for the next periodic
message.
Router discovery enables hosts to select from among multiple default
gateways and switch to a different default gateway if an initially designated
gateway goes down.
Commands in this Section
This section explains the following commands:
ip irdp
Use the ip irdp command in Interface Configuration mode to enable Router
Discovery on an interface. Use the no form of the command to disable Router
Discovery.
Syntax
ip irdp [multicast | holdtime seconds | maxadvertinterval seconds |
minadvertinterval seconds | preference number | address address]
no ip irdp holdtime
encapsulation ip irdp multicast
ip irdp holdtime ip irdp preference
ip irdp maxadvertinterval show ip irdp
ip irdp minadvertinterval
–
Layer 3 Routing Commands 1769
•multicast—Configure the address that the interface uses to send the
router discovery advertisements to be 224.0.0.1, the all-hosts IP multicast
address. Use the no form of the command to use 255.255.255.255, the
limited broadcast address.
•holdtime seconds—Integer value in seconds of the holdtime field of the
router advertisement sent from this interface. (Range: 4-9000 seconds)
•maxadvertinterval seconds—Maximum time in seconds allowed between
sending router advertisements from the interface. (Range: 4 or the
minimum advertisement interval, whichever is greater, and 1800 seconds).
•minadvertinterval seconds—Minimum time in seconds allowed between
sending router advertisements from the interface. (Range: 3 to value of
maximum advertisement interval in seconds)
•preference number—Preference of the address as a default router address,
relative to other router addresses on the same subnet. (Range: -
2147483648 to 2147483647)
•address address—IP address for router discovery advertisements. (Range:
224.0.0.1 [all-hosts IP multicast address] or 255.255.255.255 [limited
broadcast address])
Default Configuration
• Router discovery is disabled by default.
• 1800 seconds is the default value for holdtime.
• 600 seconds is the default value for maxadvertinterval.
• The minadvertinterval default value is 450.
• The preference default value is 0.
• IP address 224.0.0.1 is the default configuration for address.
Command Mode
Interface Configuration (VLAN) mode
User Guidelines
This command has no user guidelines.
Layer 3 Routing Commands 1770
Example
The following example enables router discovery on the selected interface.
console(config)#interface vlan 15
console(config-if-vlan15)#ip irdp
ip irdp holdtime
Use the ip irdp holdtime command in Interface Configuration mode to
configure the value, in seconds, of the holdtime field of the router
advertisement sent from this interface. Use the no form of the command to
set the time to the default value.
Syntax
ip irdp holdtime integer
no ip irdp holdtime
• integer — Integer value in seconds of the holdtime field of the router
advertisement sent from this interface. The holdtime must be no less than
the maximum advertisement interval and cannot be greater than 9000
seconds.
Default Configuration
The holdtime defaults to 3 times the maximum advertisement interval.
Command Mode
Interface Configuration (VLAN) mode.
User Guidelines
The holdtime is the length of time that a host considers the router
advertisement valid. After the holdtime expires, a host will no longer use the
router as its default gateway.
Example
The following example sets hold time at 2000 seconds for VLAN 15.
console(config)#interface vlan 15
console(config-if-vlan15)#ip irdp holdtime 2000
Layer 3 Routing Commands 1771
ip irdp maxadvertinterval
Use the ip irdp maxadvertinterval command in Interface Configuration
mode to configure the maximum time, in seconds, allowed between sending
router advertisements from the interface. Use the no form of the command to
set the time to the default value.
Syntax
ip irdp maxadvertinterval integer
no ip irdp maxadvertinterval
• integer — Maximum time in seconds allowed between sending router
advertisements from the interface. (Range: 4 or the minimum
advertisement interval, whichever is greater, and 1800 seconds)
Default Configuration
600 seconds is the default value.
Command Mode
Interface Configuration (VLAN) mode.
User Guidelines
The default values of the minimum advertisement interval and the holdtime
depend on the value of the maximum advertisement interval. Setting the
maximum advertisement interval changes the minimum advertisement
interval and holdtime if those values are at their defaults; so, the maximum
advertisement interval should always be set first. If the minimum
advertisement interval has been configured to a non-default value, the
maximum advertisement interval cannot be configured to a lower value than
the minimum advertisement interval. If the holdtime has been configured to
a non-default value, the maximum advertisement interval cannot be
configured to a value larger than the holdtime.
Example
The following example sets maximum advertisement interval at 600 seconds
for VLAN 15.
console(config)#interface vlan 15
Layer 3 Routing Commands 1772
console(config-if-vlan15)#ip irdp maxadvertinterval 600
ip irdp minadvertinterval
Use the ip irdp minadvertinterval command in Interface Configuration
mode to configure the minimum time, in seconds, allowed between sending
router advertisements from the interface. Use the no form of the command to
set the time to the default value.
Syntax
ip irdp minadvertinterval integer
no ip irdp minadvertinterval
• integer — Minimum time in seconds allowed between sending router
advertisements from the interface. (Range: 3 to value of maximum
advertisement interval in seconds)
Default Configuration
The default value is 0.75 times the maximum advertisement interval.
Command Mode
Interface Configuration (VLAN) mode.
User Guidelines
This command has no user guidelines.
Example
The following example sets minimum advertisement interval at 100 seconds
for VLAN 15.
console(config)#interface vlan 15
console(config-if-vlan15)#ip irdp minadvertinterval 100
Layer 3 Routing Commands 1773
ip irdp multicast
To send router advertisements as IP multicast packets, use the ip irdp
multicast command in Interface Configuration mode. To send router
advertisements to the limited broadcast address (255.255.255.255), use the
no form of this command.
Syntax
ip irdp multicast
no ip irdp multicast
Default Configuration
Router discovery packets are sent to the all hosts IP multicast address
(224.0.0.1) by default.
Command Mode
Interface Configuration (VLAN) mode
User Guidelines
If a subnet includes any hosts that do not accept IP multicast packets, send
router advertisements to the limited broadcast address.
Example
The following example configures router discovery to send to the limited
broadcast address:
console(config)#interface vlan 15
console(config-if-vlan15)#ip irdp multicast
ip irdp preference
Use the ip irdp preference command in Interface Configuration mode to
configure the preference of the address as a default router address relative to
other router addresses on the same subnet. Use the no form of the command
to set the preference to the default value.
Layer 3 Routing Commands 1774
Syntax
ip irdp preference integer
no ip irdp preference
• integer — Preference of the address as a default router address, relative to
other router addresses on the same subnet. (Range: -2147483648 to
2147483647
)
Default Configuration
0 is the default value.
Command Mode
Interface Configuration (VLAN) mode.
User Guidelines
This command has no user guidelines.
Example
The following example sets the ip irdp preference to 1000 for VLAN 15.
console(config)#interface vlan 15
console(config-if-vlan15)#ip irdp preference 1000
show ip irdp
Use the show ip irdp command to display the router discovery information
for all interfaces, or for a specified interface.
Syntax
show ip irdp [vlan vlan-id ]
• vlan-id — Valid VLAN ID
Default Configuration
This command has no default configuration.
Layer 3 Routing Commands 1775
Command Mode
User Exec, Privileged Exec mode, Global Configuration mode and all
Configuration submodes
User Guidelines
This command has no user guidelines.
Example
The following example shows router discovery information for VLAN 15.
console#show ip irdp vlan 15
Interface Ad Mode Advertise Address Max Int Min Int Hold Time Preference
--------- ------- ----------------- ------- ------- -------- ----------
vlan15 Enable 224.0.0.1 600 450 1800 0
Layer 3 Routing Commands 1776
Routing Information Protocol
Commands
Dell EMC Networking N1500/N2000/N2100-ON/N3000/N3100-
ON/N4000 Series Switches
The Routing Information Protocol (RIP) has been a long-standing protocol
used by routers for exchanging route information. RIP is a distance vector
protocol whereby each route is characterized by the number of gateways, or
hops, a packet must traverse to reach its intended destination. Categorized as
an interior gateway protocol, RIP operates within the scope of an autonomous
system. RIP is a simple protocol. Its usefulness is limited to moderately sized
networks whose physical interconnections are of similar type and speed.
Dell EMC Networking routing supports RIPv2 as specified in RFC 2453.
Commands in this Section
This section explains the following commands:
auto-summary
Use the auto-summary command in Router RIP Configuration mode to
enable the RIP auto-summarization mode. Use the no form of the command
to disable auto-summarization mode.
auto-summary hostroutesaccept router rip
default-information
originate (Router RIP
Configuration)
ip rip show ip rip
default-metric ip rip authentication show ip rip interface
distance rip ip rip receive version show ip rip interface brief
distribute-list out ip rip send version split-horizon
enable redistribute (RIP)
–
Layer 3 Routing Commands 1777
Syntax
auto-summary
no auto-summary
Default Configuration
Disabled is the default configuration.
Command Mode
Router RIP Configuration mode.
User Guidelines
This command has no user guidelines.
Example
console(config-router)#auto-summary
default-information originate (Router RIP
Configuration)
Use the default-information originate command in Router RIP
Configuration mode to control the advertisement of default routes.
Syntax
default-information originate
no default-information originate
Default Configuration
The default configuration is no default-information originate.
Command Mode
Router RIP Configuration mode.
Layer 3 Routing Commands 1778
User Guidelines
Only routers that actually have Internet connectivity should advertise a
default route. All other routers in the network should learn the default route
from routers that have connections out to the Internet.
Example
console(config-router)#default-information originate
default-metric
Use the default-metric command in Router RIP Configuration mode to set a
default for the metric of distributed routes. Use the no form of the command
to return the metric to the default value.
Syntax
default-metric number-value
no default-metric
•
number-value
— Metric for the distributed routes. (Range: 1-15)
Default Configuration
Default metric is not configured by default.
Command Mode
Router RIP Configuration mode.
User Guidelines
This command has no user guidelines.
Example
The following example sets a default of 12 for the metric of distributed
routes.
console(config-router)#default-metric 12
Layer 3 Routing Commands 1779
distance rip
Use the distance rip command in Router RIP Configuration mode to set the
route preference value of RIP in the router. Lower route preference values are
preferred when determining the best route. Use the no form of the command
to return the preference to the default value.
Syntax
distance rip integer
no distance rip
• integer — RIP route preference. (Range: 1-255)
Default Configuration
15 is the default configuration.
Command Mode
Router RIP Configuration mode.
User Guidelines
This command has no user guidelines.
Example
The following example sets the route preference value of RIP in the router at
100.
console(config-router)#distance rip 100
distribute-list out
Use the distribute-list out command in Router RIP Configuration mode to
specify the access list to filter routes received from the source protocol. Use
the no form of the command to remove the access list from the specified
source protocol.
Syntax
distribute-list accesslistname out {bgp | ospf | static | connected}
Layer 3 Routing Commands 1780
no distribute-list accesslistname out {bgp | ospf | static | connected}
• accesslistname — The name used to identify the existing ACL. The range
is 1-31 characters.
•bgp — Apply the specified access list when BGP is the source protocol.
•ospf — Apply the specified access list when OSPF is the source protocol.
•static — Apply the specified access list when packets come through a static
route.
•connected — Apply the specified access list when packets come from a
directly connected route.
Default Configuration
This command has no default configuration.
Command Mode
Router RIP Configuration mode.
User Guidelines
The access list has an implicit deny all, so it is advisable to have a permit
statement somewhere on the access list.
The BGP parameter is only available in firmware versions enabled for BGP.
Example
The following example elects access list ACL40 to filter routes received from
the source protocol.
console(config-router)#distribute-list ACL40 out static
enable
Use the enable command in Router RIP Configuration mode to reset the
default administrative mode of RIP in the router (active). Use the no form of
the command to disable the administrative mode for RIP.
Syntax
enable
Layer 3 Routing Commands 1781
no enable
Default Configuration
Enabled is the default configuration.
Command Mode
Router RIP Configuration mode.
User Guidelines
This command has no user guidelines.
Example
console(config-router)#enable
hostroutesaccept
Use the hostroutesaccept command in Router RIP Configuration mode to
enable the RIP hostroutesaccept mode. Use the no form of the command to
disable the RIP hostroutesaccept mode.
Syntax
hostroutesaccept
no hostroutesaccept
Default Configuration
Enabled is the default configuration.
Command Mode
Router RIP Configuration mode.
User Guidelines
This command has no user guidelines.
Example
console(config-router)#hostroutesaccept
Layer 3 Routing Commands 1782
ip rip
Use the ip rip command in Interface Configuration mode to enable RIP on a
router interface. Use the no form of the command to disable RIP on the
interface.
Syntax
ip rip
no ip rip
Default Configuration
Disabled is the default configuration.
Command Mode
Interface Configuration (VLAN) mode.
User Guidelines
This command has no user guidelines.
Example
console(config-if-vlan2)#ip rip
console(config-if-vlan2)#no ip rip
ip rip authentication
Use the ip rip authentication command in Interface Configuration Mode to
set the RIP Version 2 Authentication Type and Key for the specified VLAN.
Use the no form of the command to return the authentication to the default
value.
Syntax
ip rip authentication {none | {simple key} | {encrypt key key-id}}
no ip rip authentication
• none—Do not use RIP authentication on the VLAN.
• simple—Use simple authentication on the VLAN.
• key — Authentication key for the VLAN. (Range: 16 bytes or less)
Layer 3 Routing Commands 1783
• encrypt — Use MD5 encryption for the RIP interface.
• key-id — Authentication key identifier for authentication type encrypt.
(Range: 0-255)
Default Configuration
This command has no default configuration.
Command Mode
Interface Configuration (VLAN) mode.
User Guidelines
This command has no user guidelines.
Example
The following example sets the RIP Version 2 Authentication Type and Key
for VLAN 11.
console(config-if-vlan11)#ip rip authentication encrypt pass123 35
ip rip receive version
Use the ip rip receive version command in Interface Configuration mode to
configure the interface to allow RIP control packets of the specified version(s)
to be received. Use the no form of the command to return the version to the
default value.
Syntax
ip rip receive version {rip1 | rip2 | both | none}
no ip rip receive version
•rip1 — Receive only RIP version 1 formatted packets.
•rip2 — Receive only RIP version 2 formatted packets.
•both — Receive packets from either format.
•none — Do not allow any RIP control packets to be received.
Layer 3 Routing Commands 1784
Default Configuration
Both is the default configuration.
Command Mode
Interface Configuration (VLAN) mode.
User Guidelines
This command has no user guidelines.
Example
The following example allows no RIP control packets to be received by VLAN
11.
console(config-if-vlan11)#ip rip receive version none
ip rip send version
Use the ip rip sent version command in Interface Configuration mode to
configure the interface to allow RIP control packets of the specified version to
be sent. Use the no form of the command to return the version to the default
value.
Syntax
ip rip send version {rip1 | rip1c | rip2 | none}
no ip rip send version
• rip1 — Send RIP version 1 formatted packets.
• rip1c — Send RIP version 1 compatibility mode, which sends RIP version
2 formatted packets via broadcast.
• rip2 — Send RIP version 2 using multicast.
• none — Do not allow any RIP control packets to be sent.
Default Configuration
RIP2 is the default configuration.
Layer 3 Routing Commands 1785
Command Mode
Interface Configuration (VLAN) mode.
User Guidelines
This command has no user guidelines.
Example
The following example allows no RIP control packets to be sent by VLAN 11.
console(config-if-vlan11)#ip rip send version none
redistribute (RIP)
The redistribute command configures RIP protocol to redistribute routes
from the specified sources. If the source protocol is OSPF, there are five
possible match options.
Syntax
redistribute ospf [metric integer] [match [internal] [external 1] [external 2]
[nssa-external 1] [nssa-external 2]]
no redistribute [ospf | bgp | static | connected]
redistribute {bgp | connected | static} [metric integer]
• metric integer — Specifies the metric to use when redistributing the route.
Range: 0-15.
• match internal — Adds internal matches to any match types presently
being redistributed.
• match external 1 — Adds routes imported into OSPF as Type-1 external
routes into any match types presently being redistributed.
• match external 2 — Adds routes imported into OSPF as Type-2 external
routes into any match types presently being redistributed.
• match nssa-external 1 — Adds routes imported into OSPF as NSSA Type-
1 external routes into any match types presently being redistributed.
• match nssa-external 2 — Adds routes imported into OSPF as NSSA Type-
2 external routes into any match types presently being redistributed.
•static — Redistributes static routes.
Layer 3 Routing Commands 1786
•bgp — Redistributes BGP originated routes.
•connected — Redistributes directly-connected routes.
Default Configuration
metric integer — not configured
match — internal
Command Mode
Router RIP Configuration mode.
User Guidelines
When redistributing a route metric, the receiving protocol must understand
the metric. The OSPF metric is a cost value equal to 108/ link bandwidth in
bits/sec. For example, the OSPF cost of GigabitEthernet is 1 = 108/108 = 1.
The RIP metric is a hop count with a maximum value of 15.
Dell EMC Networking RIP does not support sending a tag value.
Redistribution of BGP-originated routes is only available on BGP-enabled
routers. Redistribution of BGP-originated routes into RIP is not
recommended.
Example
console(config-router)#redistribute ospf metric 10 match nssa-external 1
console(config-router)#redistribute connected metric 1
router rip
Use the router rip command in Global Configuration mode to enter Router
RIP mode.
Syntax
router rip
Default Configuration
RIP is globally enabled by default. RIP is not enabled on any interfaces by
default.
Layer 3 Routing Commands 1787
Command Mode
Global Configuration mode.
User Guidelines
Use the enable and no enable commands in router RIP mode to enable and
disable RIP globally.
Example
The following example enters Router RIP mode.
console(config)#router rip
console(config-router)#
show ip rip
Use the show ip rip command to display information relevant to the RIP
router.
Syntax
show ip rip
Default Configuration
The command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
This command has no user guidelines.
Example
The following example displays information relevant to the RIP router.
console#show ip rip
RIP Admin Mode................................. Enable
Split Horizon Mode............................. Simple
Auto Summary Mode.............................. Enable
Layer 3 Routing Commands 1788
Host Routes Accept Mode........................ Enable
Global route changes........................... 0
Global queries................................. 0
Default Metric................................. 12
Default Route Advertise........................ 0
Redistributing.................................
Source......................................... Connected
Metric......................................... 2
Distribute List................................ Not configured
Redistributing.................................
Source......................................... ospf
Metric......................................... 10
Match Value.................................... 'nssa-external 1'
Distribute List................................ Not configured
show ip rip interface
Use the show ip rip interface command to display information related to a
particular RIP interface.
Syntax
show ip rip interface vlan vlan-id
• vlan-id — Valid VLAN ID.
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
This command has no user guidelines.
Example
The following example displays information related to the VLAN 15 RIP
interface.
console#show ip rip interface vlan 15
Interface...................................... 15
IP Address..................................... -----
Layer 3 Routing Commands 1789
Send version................................... RIP-2
Receive version................................ Both
RIP Admin Mode................................. Disable
Link State..................................... -----
Authentication Type............................ MD5
Authentication Key............................. “pass123”
Authentication Key ID.......................... 35
Bad Packets Received........................... -----
Bad Routes Received............................ -----
Updates Sent................................... -----
show ip rip interface brief
Use the show ip rip interface brief command to display general information
for each RIP interface. For this command to display successful results routing
must be enabled per interface (i.e. ip rip).
Syntax
show ip rip interface brief
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
This command has no user guidelines.
Example
The following example displays general information for each RIP interface.
console#show ip rip interface brief
Send Receive RIP Link
Interface IP Address Version Version Mode State
---------- ---------- -------- ----------- --------- ----------
vlan1 0.0.0.0 RIP-2 Both Disable Down
vlan2 0.0.0.0 RIP-2 Both Disable Down
Layer 3 Routing Commands 1790
split-horizon
Use the split-horizon command in Router RIP Configuration mode to set the
RIP split horizon mode. Use the no form of the command to return the mode
to the default value.
Syntax
split-horizon {none | simple | poison}
no split-horizon
•none — RIP does not use split horizon to avoid routing loops.
•simple — RIP uses split horizon to avoid routing loops.
•poison — RIP uses split horizon with poison reverse (increases routing
packet update size).
Default Configuration
Simple is the default configuration.
Command Mode
Router RIP Configuration mode.
User Guidelines
This command has no user guidelines.
Example
The following example does not use split horizon.
console(config-router)#split-horizon none
Layer 3 Routing Commands 1791
Tunnel Interface Commands
Dell EMC Networking N3000/N3100/N4000 Series Switches
Dell EMC Networking provides for the creation, deletion, and management
of tunnel interfaces. They are dynamic interfaces that are created and deleted
by user configuration.
Tunnel interfaces are used for the following purposes.
• IPv4 tunnels
• IPv6 tunnels
Each router interface (port or VLAN interface) may have associated tunnel
interfaces. Each interface can have multiple tunnel interfaces. There is no set
limit to the number of tunnel interfaces associated with a router interface.
There is a compile platform limitation to the number of tunnel interfaces
available to the entire system.
To support IPv4 to IPv6 transition, Dell EMC Networking supports
configured tunnels (RFC 4213) and automatic 6to4 tunnels (RFC 3056).
6to4 tunnels are automatically formed for IPv4 tunnels carrying IPv6 traffic.
The automatic tunnels IPv4 destination address is derived from the 6to4 IPv6
address of the tunnel’s next hop. Dell EMC Networking can act as a 6to4
border router that connects a 6to4 site to a 6to4 domain. The border router
sends and receives tunneled traffic from routers in the 6to4 domain that
include other 6to4 border routers and 6to4 relay routers.
Commands in this Section
This section explains the following commands:
interface tunnel
Use the interface tunnel command in Global Configuration mode to enter
the interface configuration mode for a tunnel.
interface tunnel tunnel mode ipv6ip
show interfaces tunnel tunnel source
tunnel destination
–
Layer 3 Routing Commands 1792
Syntax
interface tunnel tunnel-id
no interface tunnel tunnel-id
• tunnel-id — Tunnel identifier. (Range: 0–7)
Default Configuration
This command has no default configuration.
Command Mode
Global Configuration mode.
User Guidelines
This command has no user guidelines.
Example
The following example enables the interface configuration mode for tunnel 1.
console(config)#interface tunnel 1
console(config-if-tunnel1)#
show interfaces tunnel
Use the show interfaces tunnel command to display the parameters related to
tunnel such as tunnel mode, tunnel source address and tunnel destination
address.
Syntax
show interfaces tunnel [tunnel-id]
• tunnel-id — Tunnel identifier. (Range: 0–7)
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
Layer 3 Routing Commands 1793
User Guidelines
This command has no user guidelines.
Examples
The following examples show the parameters related to an individual tunnel
and to all tunnel interfaces.
console#show interfaces tunnel 1
Interface Link Status.......................... down
MTU size....................................... 1480 bytes
console#show interfaces tunnel
TunnelId Interface TunnelMode SourceAddress DestinationAddress
-------- --------- ---------- ------------- ----------------
1 tunnel 1 IPv6OVER4 10.254.25.14 10.254.25.10
2 tunnel 2 IPv6OVER4 10.254.20.10
tunnel destination
Use the tunnel destination command in Interface Configuration mode to
specify the destination transport address of the tunnel.
Syntax
tunnel destination ip-address
no tunnel destination
• ip-address — Valid IPv4 address.
Default Configuration
This command has no default configuration.
Command Mode
Interface Configuration (Tunnel) mode.
User Guidelines
This command has no user guidelines.
Example
The following example specifies the destination transport address of tunnel 1.
Layer 3 Routing Commands 1794
console(config)#interface tunnel 1
console(config-if-tunnel1)#tunnel destination 10.1.1.1
tunnel mode ipv6ip
Use the tunnel mode ipv6ip command in Interface Configuration mode to
specify the mode of the tunnel.
Syntax
tunnel mode ipv6ip [6to4]
no tunnel mode
•6to4 — Sets the tunnel mode to automatic.
Default Configuration
This command has no default configuration.
Command Mode
Interface Configuration (Tunnel) mode.
User Guidelines
This command has no user guidelines.
Example
The following example specifies ipv6ip mode for tunnel 1.
console(config)#interface tunnel 1
console(config-if-tunnel1)#tunnel mode ipv6ip
console(config-if-tunnel1)#tunnel mode ipv6ip 6to4
tunnel source
Use the tunnel source command in Interface Configuration mode to specify
the source transport address of the tunnel, either explicitly or by reference to
an interface.
Syntax
tunnel source {ip-address | interface-type interface-number}
Layer 3 Routing Commands 1795
no tunnel source
• ip-address—Valid IPv4 address.
• interface-type—Valid interface type. VLAN is the only type supported.
• interface-number—Valid interface number.
Default Configuration
This command has no default configuration.
Command Mode
Interface Configuration (Tunnel) mode.
User Guidelines
This command has no user guidelines.
Example
The following example specifies VLAN 11 as the source transport address of
the tunnel.
console(config)#interface tunnel 1
console(config-if-tunnel1)#tunnel source vlan 11
Layer 3 Routing Commands 1796
Virtual Router Commands
Dell EMC Networking N3000/N3100/N4000 Series Switches
Dell EMC Networking VRF is an implementation of Virtual Routing and
Forwarding (VRF). Virtual Routing and Forwarding allows multiple
independent instances for the forwarding plane to exist simultaneously. This
allows the administrator to segment the network without incurring the costs
of multiple routers. Each VRF operates as an independent VPN. The IP
addresses assigned to each VPN may overlap. Static route leaking to and from
the global instance is supported. VRF associated VLANs may not overlap with
other VRF instances.
The following capabilities are supported for Dell EMC Networking VRFs:
• Static routing (including route leaking)
• OSPF (IPv4 only)
• ARP
• Ping
• VRRP
• Trace route
• DHCP relay (IP helper)
• ICMP echo reply configuration
• ICMP error interval configuration
VRF configuration follows the same configuration steps as the default routing
instance with two additional steps: creating the VRF instance and associating
VLANs to the instance. Existing commands that have been enabled for VRF
accept an additional VRF instance identifier (name). VRF names can be up
to 32 characters in length. If a VRF instance identifier is not used in the
command, it applies to the global routing instance by default.
To create a VRF and enable OSPF routing in the VRF:
1
Create the VLAN instances associated to the VRF. It is recommended that
a VLAN numbering scheme be developed to allow for future growth and to
assist in the easy recognition of which VLANs are associated to which
VRFs.
2
In global config mode, create the pool of VLANs.
Layer 3 Routing Commands 1797
console#configure terminal
console(config)#vlan 100-109
console(config-vlan100-109)#exit
3
Assign the VLAN to an interface.
console(config)#interface gi1/0/1
console(config-if-Gi1/0/1)#switchport access vlan 100
console(config-if-Gi1/0/1)#exit
4
Create the VRF and enable routing.
console(config)#ip vrf red
console(config-vrf-red)#ip routing
console(config-vrf-red)#exit
5
Assign IP addresses to the interfaces.
console(config)#interface vlan 100
console(config-if-vlan100)#ip address 192.168.0.1 /24
6
Put the VLAN interface into the VRF.
console(config-if-vlan100)#ip vrf forwarding red
console(config-if-vlan100)#exit
7
Routing interface moved from Default router instance to red router
instance.
8
Enable OSPF on the VRF, assign a network, and enable OSPF for the VRF
console(config)#router ospf vrf red
console(Config-router-vrf-red)#network 192.168.0.0 0.0.0.255 area 0
console(Config-router-vrf-red)#router-id 192.168.0.253
console(Config-router-vrf-red)#redistribute connected
console(Config-router-vrf-red)#enable
console(Config-router-vrf-red)#exit
Commands in this Section
This section explains the following commands, which are exclusive to VRFs.
Other commands such as ip routing may also be executed in VRF
configuration mode.
description ip vrf forwarding
ip vrf maximum routes
–
show ip vrf
Layer 3 Routing Commands 1798
description
This optional command assigns descriptive text to the VRF instance.
Syntax
description text
• text—Descriptive text. Enclose the description in quotes if embedded
blanks are desired.
Default Configuration
No descriptive text is assigned.
Command Mode
Virtual Router Configuration
User Guidelines
There are no user guidelines for this command.
bootpdhcprelay maxhopcount ip dhcp snooping limit
bootpdhcprelay minwaittime ip dhcp snooping log-invalid
–
ip dhcp snooping trust
–
ip dhcp snooping verify mac-address
ip dhcp relay information check ip helper-address (global configuration)
ip dhcp relay information check-reply ip helper-address (interface configuration)
ip dhcp relay information option ip icmp echo-reply
ip dhcp relay information option-insert ip icmp error-interval
ip dhcp snooping ip redirects
ip dhcp snooping binding ip routing
ip dhcp snooping database ping
ip dhcp snooping database write-delay traceroute
Layer 3 Routing Commands 1799
Example
The following example shows the assignment of descriptive text to a VRF.
console(config)#ip vrf Red
console(config-vrf-Red)#description “Backbone to Gateway”
console(config-vrf-Red)#exit
ip vrf
This command creates a virtual router with a specified name and enters
Virtual Router Configuration mode. If the virtual router instance already
exists, it simply enter virtual router configuration mode. This command
optionally reserves the number of routes allowed as well as sets the maximum
limit on the number of routes for a virtual router instance, in the total routing
table space for the router, provided there is enough free space in the router’s
total routing table.
Syntax
ip vrf vrf-name
no ip vrf vrf-name
• vrf-name—The name of a VRF. The name must consist of printable ASCII
characters other than a question mark and may not have leading or trailing
spaces. Spaces may be included if the name is enclosed in quotes. The
maximum length of a VRF name is 32 characters.
Default Configuration
A single global VRF is created when routing is enabled.
Command Mode
Global Configuration mode
User Guidelines
This command is only available on the N3000/N3100/N4000 switches.
Up to 52 VRFs may be configured on the N4000 and up to 12 VRFs may be
configured on the N3000 and N3100. If sufficient resources requested by the
VRF instance, such as routes, are not available to create the router instance, a
warning is shown and the VRF is not created.
Layer 3 Routing Commands 1800
The ARP table, among others, is a shared resource and is not allocated or
partitioned on a VRF basis. Global commands such as arp cachesize still limit
the physical router’s shared resources.
Example
The following example creates two virtual router instances. The routing in the
virtual router instance is enabled only when the ip routing command is issued
at the virtual router level.
(Console) (Config)#ip vrf Red
(Console) (Config-vrf-Red)#ip routing
(Console) (Config-vrf-Red)#exit
(Console) (Config)#ip vrf Blue
(Console) (Config-vrf-Blue)#ip routing
(Console) (Config-vrf-Blue)#exit
ip vrf forwarding
This command associates an interface with a VRF instance. Use the no form
of the command to associate the interface with the global routing table.
Syntax
ip vrf forwarding vrf-name
no ip vrf forwarding
• vrf-name—The name of the VRF with which to associate the interface.
Default Configuration
All interfaces are members of the global routing instance.
Command Mode
Interface (VLAN) Configuration mode, Interface Range (VLAN)
Configuration mode, Interface (Loopback) Configuration mode
User Guidelines
The VRF identified in the parameter must have been previously created or an
error is returned.
This command is only available on the N3000/N3100/N4000 switches.
Layer 3 Routing Commands 1801
L3 configuration on an interface, including the IP address, is retained when
the interface migrated to a new VRF instance. A interface may be migrated
from the global routing instance to a VRF or from any non-global VRF
instances as well.
Example
The following example shows the configuration of two VRFs (Red and Blue)
for IPv4 routing. Both VRFs will operate over two trunk ports (te1/0/1-2) on
their respective VLANs (100 and 200).
console(config)#ip vrf Red
console(config-vrf-Red)#ip routing
console(config-vrf-Red)#exit
console(config)#ip vrf Blue
console(config-vrf-Blue)#ip routing
console(config-vrf-Blue)#exit
console(config)#vlan 100,200
console(config-vlan100,200)#exit
console(config)#interface range te1/0/1-2
console(config-if)#switchport mode trunk
console(config-if)#exit
console(config)#interface vlan 100
console(config-if-vlan100)#ip vrf forwarding Red
console(config-if-vlan100)#exit
console(config)#interface vlan 200
console(config-if-vlan100)#ip vrf forwarding Blue
console(config-if-vlan100)#exit
maximum routes
This command reserves the number of routes allowed and sets the maximum
limit on the number of routes for a virtual router instance in the total routing
table space for the router, provided there is enough free space in the router’s
total routing table.
Syntax
maximum routes {limit | warn threshold}
no maximum routes [warn]
• limit—Reserve this number of routes for the VRF instance.
• threshold —The percentage of total routes over which the router issues a
warning that the router has allocated the specified number of routes.
Range 1-100.
Layer 3 Routing Commands 1802
Default Configuration
A VRF is limited by the number of unreserved routes available.
Command Mode
Virtual Router Configuration mode
User Guidelines
Use the no maximum routes command to reset the limit to the default
(unlimited).
Use the no maximum routes warn command to reset the threshold limit to
the default.
A VRF instance cannot exceed the configured number of routes, nor may
other VRFs utilize the resources allocated to a VRF if a limit is specified for
the VRF. The maximum number of routes depends on the platform and the
selected SDM template. Refer to the Platforms Constants table in the Users
Configuration Guide for the maximum routes available for the selected
combination of platform and SDM template. If a size larger than the total
routing table size is given, the size is silently truncated to the maximum
routing table size.
Example
The following example reserves 100 routes for VRF Red.
console(config)#ip vrf Red
console(config-vrf-Red)#ip routing
console(config-vrf-Red)#maximum routes 100
console(config-vrf-Red)#exit
show ip vrf
This command shows the interfaces associated with a VRF instance.
Syntax
show ip vrf [interfaces]
show ip vrf [vrf-name] [detail]
•interfaces—Displays the interfaces associated with the VRF.
Layer 3 Routing Commands 1803
• vrf-name—The name of the VRF for which information is displayed. If no
vrf is specified, all VRFs are shown. The VRF name must match the
configured VRF name exactly, including capitalization.
•detail—Displays detailed information regarding the VRF.
Default Configuration
This command has no default configuration.
Command Mode
Exec mode, Privileged Exec mode, and all show modes
User Guidelines
The VRF identified in the parameter must have been previously created or an
error is returned.
If no VRF name is given, the global routing instances and all other VRF
instances are shown.
This command is only available on the N3000/N3100/N4000 switches.
Example
console(config)#show ip vrf
Number of VRs.........3
Name Identifier Route Distinguisher
--------- -------------- -------------------
Red 2 2:200
Blue 4 4:400
Green 3 3:300
console(config)#show ip vrf Red detail
VRF Identifier.................... 1
Description....................... Test network
Route Distinguisher............... 2:200
Maximum Routes.................... 512
Warning-only...................... TRUE
Route table size.................. 2
Number of interfaces.............. 2
Interfaces
-----------
Vl10
Lo1
Layer 3 Routing Commands 1804
Export VPN route-target communities
None
Import VPN route-target communities
None
console(Config)#show ip vrf Red
VRF Identifier.......... 2
Description............. “India office bangalore”
Route Distinguisher..... 2:200
Maximum Routes.......... 512
Warning-only............ TRUE
Layer 3 Routing Commands 1805
Virtual Router Redundancy Protocol
Commands
Dell EMC Networking N1500/N2100-ON/N3000/N3100/N4000 Series
Switches
An end station running IP needs to know the address of its first hop router.
While some network administrators choose to install dynamic router
discovery protocols such as DHCP, others prefer to statically allocate router
addresses. If the router identified by such a statically allocated address goes
down, the end station loses connectivity. The Virtual Router Redundancy
Protocol (VRRP) is designed to provide backup for the failing router without
requiring any action on the part of the end station. It is based on the concept
of having more than one router recognize the same IP address. One of the
routers is elected the master router and handles all traffic sent to the specified
virtual router IP address. If the master router fails, one of the backup routers
is elected in its place and starts handling traffic sent to the address. This
change is transparent to end stations.
VRRP increases the availability of the default path without requiring
configuration of dynamic routing or router discovery protocols on every end
station.
Multiple virtual routers can be defined on a single router interface.
Pingable VRRP Interface
RFC 3768 specifies that a router may only accept IP packets sent to the
virtual router’s IP address if the router is the address owner. In practice, this
restriction makes it more difficult to troubleshoot network connectivity
problems. When a host cannot communicate, it is common to ping (send an
ICMP Echo Request) the host’s default gateway to determine whether the
problem is in the first hop of the path to the destination. When the default
gateway is a virtual router that does not respond to pings, the operator cannot
use this troubleshooting technique. Because of this, it has been common for
VRRP implementations to respond to pings, in spite of the prohibition in the
RFC. The IETF has recognized the issue, and a draft revision of the VRRP
Layer 3 Routing Commands 1806
RFC defines a new configuration option that allows the router to accept any
packet sent to a VRRP address, regardless of whether the VRRP Master is the
address owner.
The Pingable VRRP Interface feature, when enabled, allows the VRRP master
to respond to both fragmented and unfragmented ICMP echo requests
packets destined to a VRRP address (or addresses). A virtual router in backup
state discards these. For any packet destined to a VRRP address (or
addresses), the VRRP master responds with VRRP address as the source IPv4
address and VRMAC as the source MAC address. A configuration option
controls whether the router responds to Echo Requests sent to a VRRP IP
address.
Dell EMC Networking firmware includes a separate configuration option that
controls whether the router responds to ICMP Echo Requests. When Echo
Replies are disabled using that option, the VRRP master does not respond to
Echo Requests, even if this new option is enabled.
VRRP Route/Interface Tracking
The VRRP Route/Interface Tracking feature extends the capability of the
Virtual Router Redundancy Protocol (VRRP) to allow tracking of specific
route/interface IP states, within the router, that can alter the priority level of a
virtual router for a VRRP group. Exception to this is, if that VRRP group is
the IP address owner, and, in that case, its priority is fixed at 255 and cannot
be reduced through the tracking process.
VRRP Route/Interface Tracking provides a way to ensure the best VRRP
router is master for the group by altering VRRP priorities to the status of
tracked objects, such as IP interface or IP route states. In the process of
altering the VRRP priorities the priority must not go below 1 or above the
configured priority.
NOTE: Note that the mastership only switches on a priority change if
preempt is enabled.
Layer 3 Routing Commands 1807
Interface Tracking
For interface tracking, VRRP is a routing event client. When a routing
interface goes up or down (or routing is disabled globally, implying all routing
interfaces are down), VRRP checks if the interface is tracked. If so, it adjusts
the priority. Interface tracking is useful for tracking interfaces that are not
configured for VRRP. Only IP interfaces are tracked.
Route Tracking
The network operator may perform this task to track the reachability of an IP
route. A tracked route is considered up when a routing table entry exists for
the route and the route is accessible. For route tracking, make VRRP a best
route client of RTO. When a tracked route is added or deleted, change the
priority. For simplicity, routes are not distinguished with the next hop
interface that has VRRP enabled. So VRRP Route Tracking can ignore route
modifications.
Commands in this Section
This section explains the following commands:
Virtual Router Redundancy Protocol Commands
ip vrrp vrrp timers advertise
vrrp accept-mode vrrp timers learn
vrrp authentication vrrp track interface
vrrp description vrrp track ip route
vrrp ip show vrrp
vrrp mode show vrrp interface
vrrp preempt
–
vrrp priority
–
Layer 3 Routing Commands 1808
Virtual Router Redundancy Protocol Commands
ip vrrp
Use the ip vrrp command in Global Configuration mode to enable the
administrative mode of VRRP for the router. Use the no form of the
command to disable the administrative mode of VRRP for the router.
Syntax
ip vrrp
no ip vrrp
Default Configuration
VRRP is disabled by default.
Command Mode
Global Configuration mode.
User Guidelines
This command has no user guidelines.
Example
The following example enables VRRP protocol on the router.
console(config)#ip vrrp
vrrp accept-mode
Use the vrrp accept-mode command in Interface (VLAN) Configuration
mode to enable the VRRP Master to accept ping packets sent to one of the
virtual router’s IP addresses from an external device. Use the no form of the
command to disable responding to ping packets.
Syntax
vrrp vrid accept-mode
no vrrp vrid accept-mode
Layer 3 Routing Commands 1809
• vrid — Virtual router identification. (Range: 1-255)
Default Configuration
The default configuration is disabled.
Command Mode
Interface Configuration (VLAN) mode.
User Guidelines
The VRRP IP address is not pingable from within the switch.
vrrp authentication
Use the vrrp authentication command in Interface Configuration mode to
set the authentication details value for the virtual router configured on a
specified interface. Use the no form of the command to return the
authentication type to the default value.
Syntax
vrrp group authentication {none | simple key}
no vrrp group authentication
• group—The virtual router identifier. (Range: 1-255)
•none—Indicates authentication type is none.
•simple—Authentication type is a simple text password.
• key—The key for simple authentication. (Range: String values)
Default Configuration
None is the default configuration.
Command Mode
Interface Configuration (VLAN) mode.
User Guidelines
This command has no user guidelines.
Layer 3 Routing Commands 1810
Example
The following example sets the authorization details value for VRRP router
group 5 on VLAN 15.
console(config)#interface vlan 15
console(config-if-vlan15)#vrrp 2 authentication simple test123
vrrp description
Use the vrrp description command in Interface Configuration mode to assign
a description to the Virtual Router Redundancy Protocol (VRRP) group. To
remove the description, use the no form of the command.
Syntax
vrrp group description text
no vrrp group description
• group—The virtual router identifier. (Range: 1-255)
• text—Description for the virtual router group up to 80 characters.
Default Configuration
No description is present.
Command Mode
Interface Configuration (VLAN) mode.
User Guidelines
This command accepts any printable characters for the name other than a
question mark. Descriptions containing spaces must be enclosed in quotes.
Example
The following example creates virtual router group 5 on VLAN 15 and
configures its description.
console(config)#interface vlan 15
console(config-if-vlan15)#vrrp 5
console(config-if-vlan15)#vrrp 5 description “Sales and Marketing”
Layer 3 Routing Commands 1811
vrrp ip
Use the vrrp ip command in Interface Configuration mode to enable VRRP
and set the virtual router IP address value for an interface. Use the no form of
the command remove the secondary IP address. It is not possible to remove
the primary IP address once assigned. Remove the VRRP group instead.
Syntax
vrrp group ip ip-address [secondary]
no vrrp group ip ip-address vlan secondary
• group—The virtual router identifier. (Range: 1-255)
• ip-address—The IP address of the virtual router.
•secondary—Designates the virtual router IP address as a secondary IP
address on an interface.
Default Configuration
VRRP is not configured on the interface.
Command Mode
Interface Configuration (VLAN) mode.
User Guidelines
The virtual router IP addresses must be a valid host address on the local
subnet based on the IP address and subnet mask configured on the VLAN
interface. The VRRP IP address cannot be either the broadcast address or a
network address. To configure vrrp, perform the following steps:
1
Enable ip routing in global configuration mode.
2
Enable ip vrrp globally.
3
Set an IP address on the desired interface where VRRP is to be configured.
4
Configure the VRRP group ID on the selected interface.
5
Set the virtual router ID and address on the selected interface.
6
Enable VRRP on the interface using the vrrp mode command.
Layer 3 Routing Commands 1812
Example
The following example configures VRRP on VLAN 15.
console#configure
console(config)#vlan 15
console(config-vlan)#interface vlan 15
console(config-if-vlan15)#ip address 192.168.5.1 255.255.255.0
console(config-if-vlan15)#vrrp 20
console(config-if-vlan15)#vrrp 20 ip 192.168.5.1
console(config-if-vlan15)#vrrp 20 mode
console(config)#ip routing
console(config)#ip vrrp
vrrp mode
Use the vrrp mode command in Interface Configuration mode to enable the
virtual router configured on an interface. Enabling the status field starts a
virtual router. Use the no form of the command to disable the virtual router.
Syntax
vrrp vr-id mode
no vrrp vr-id mode
• vr-id — The virtual router identifier. (Range: 1-255)
Default Configuration
Disabled is the default configuration.
Command Mode
Interface Configuration (VLAN) mode.
User Guidelines
This command has no user guidelines.
Example
The following example enables the virtual router for VLAN 15.
console(config)#interface vlan 15
console(config-if-vlan15)#vrrp 5 mode
Layer 3 Routing Commands 1813
vrrp preempt
Use the vrrp preempt command in Interface Configuration mode to set the
preemption mode value for the virtual router configured on a specified
interface. Use the no form of the command to disable preemption mode.
Syntax
vrrp group preempt [delay seconds]
no vrrp group preempt
• group—The virtual router identifier. (Range: 1-255)
• seconds—The number of seconds the VRRP router will wait before issuing
an advertisement claiming master ownership.
Default Configuration
Enabled is the default configuration. Delay defaults to 0 seconds.
Command Mode
Interface Configuration (VLAN) mode.
User Guidelines
As per the VRRP RFC, when preemption is enabled, the backup router
discards the advertisements until the masterdowntimer starts. This feature
requires immediate sending of advertisements when the preemption case
occurs and the delay is 0. This is a violation according to the RFC 3768.
Delay, if configured, will cause the VRRP router to wait the specified number
of seconds before issuing an advertisement claiming master ownership.
Example
The following example sets the preemption mode value for the virtual router
for VLAN 15.
console(config)#interface vlan 15
console(config-if-vlan15)#vrrp 5 preempt
Layer 3 Routing Commands 1814
vrrp priority
Use the vrrp priority command in Interface Configuration mode to set the
priority value for the virtual router configured on a specified interface. Use
the no form of the command to return the priority to the default value.
Syntax
vrrp group priority level
no vrrp group priority level
• group — The virtual router identifier. (Range: 1-255)
• level — Priority value for the interface. (Range: 1-254)
Default Configuration
Priority has a default value of 100.
Command Mode
Interface Configuration (VLAN) mode.
User Guidelines
The VRRP router with the highest numerical value for priority will become
the VR master. When the VRRP priorities are equal, the router with the
numerically highest IP address will win the election and become master. If the
VRRP router is the owner of the VR IP address, its priority will be 255, and
this value cannot be changed.
Example
The following example sets the priority value for the virtual router 5 on VLAN
15.
console(config-if-vlan15)#vrrp 5 priority 20
vrrp timers advertise
Use the vrrp timers advertise command in Interface Configuration mode to
set the frequency, in seconds, that an interface on the specified virtual router
sends a virtual router advertisement. Use the no form of the command to
return the advertisement frequency to the default value.
Layer 3 Routing Commands 1815
Syntax
vrrp group timers advertise interval
no vrrp group timers advertise interval
• group — The virtual router identifier. (Range: 1-255)
• interval — The frequency at which an interface on the specified virtual
router sends a virtual router advertisement. (Range: 1-255 seconds)
Default Configuration
Interval has a default value of 1.
Command Mode
Interface Configuration (VLAN) mode.
User Guidelines
This command has no user guidelines.
Example
The following example sets the frequency at which the VLAN 15 virtual
router 5 sends a virtual router advertisement.
console(config-if-vlan15)#vrrp 5 timers advertise 10
vrrp timers learn
Use the vrrp timers learn command in Interface Configuration mode to
configure the router, when it is acting as backup virtual router for a Virtual
Router Redundancy Protocol (VRRP) group, to learn the advertisement
interval used by the master virtual router. Use the no form of the command to
prevent the router from learning the advertisement interval from the master
virtual router.
Syntax
vrrp group timers learn
no vrrp group timers learn
• group — The virtual router identifier. (Range: 1-255)
Layer 3 Routing Commands 1816
Default Configuration
Timer learning is disabled by default and the router uses the configured
advertisement.
Command Mode
Interface Configuration (VLAN) mode.
User Guidelines
This command has no user guidelines.
Example
The following configures VLAN 15 virtual router to learn the advertisement
interval used by the master virtual router.
console(config-if-vlan15)#vrrp 5 timers learn
vrrp track interface
Use the vrrp track interface command in Interface Configuration mode to
alter the priority of the VRRP router based on the availability of its interfaces.
It is useful for tracking interfaces that are not configured for VRRP. Only
routing interfaces may be tracked. A tracked interface is up if routing on that
interface is up. Otherwise, the tracked interface is down.
When the tracked interface is down, or the interface has been removed from
the router, the priority of the VRRP router will be decremented by the value
specified in the priority argument. When the interface is up for the IP
protocol, the priority will be incremented by the priority value.
A VRRP configured interface can track more than one interface. When a
tracked interface goes down, then the priority of the router will be decreased
by 10 (default priority decrement) for each downed interface. The default
priority decrement is changed using the priority argument. The default
priority of the virtual router is 100, and the default decrement priority is 10.
By default, no interfaces are tracked. If you specify the interface to be tracked
without giving the priority, which is optional, then the default priority will be
used.
Layer 3 Routing Commands 1817
Use the no form of this command to remove the interface from the tracked
list or to restore the priority decrement to its default. When removing an
interface from the tracked list, the priority is incremented by the decrement
value if that interface is down.
Syntax
vrrp group track interface vlan vlan-id [decrement priority]
no vrrp group track interface vlan vlan-id
• group—The virtual router identifier. (Range: 1-255)
•vlan vlan-id—Valid VLAN ID.
• priority—Priority decrement value for the tracked interface. (Range: 1-
254)
Default Configuration
No interfaces are tracked. The default decrement priority is 10.
Command Mode
Interface Configuration (VLAN) mode.
User Guidelines
This command has no user guidelines.
Example
The following example adds VLAN 2 to the virtual router tracked list (with a
priority decrement value of 20.)
(config-if-vlan10)#vrrp 1 track interface vlan 2 decrement 20
vrrp track ip route
Use the vrrp track ip route command to track the route reachability. When
the tracked route is deleted, the priority of the VRRP router is decremented
by the value specified in the priority argument. When the tracked route is
added, the priority is incremented by the same. A VRRP configured interface
can track more than one route. When a tracked route goes down, the priority
of the router is decreased by 10 (default priority decrement) for each downed
Layer 3 Routing Commands 1818
route. By default no routes are tracked. If we specify just the route to be
tracked without specifying the optional parameter, then the default priority
will be set.
Use the no form of this command to remove the route from the tracked list or
to restore the priority decrement to its default. When removing a tracked IP
route from the tracked list, priority should be incremented by the decrement
value if the route is not reachable.
Syntax
vrrp group track ip route ip-address/prefix-length [decrement priority]
no vrrp group track ip route ip-address/prefix-length
•
group
—
The virtual router identifier. (Range: 1–255).
•
ip-address/prefix-length
—
Specifies the route to be tracked.
•
priority
—
Priority decrement value for the tracked route. (Range: 1–254).
Default Configuration
There are no routes tracked by default.
The default decrement priority is 10.
Command Mode
Interface Configuration (VLAN) mode.
User Guidelines
There are no user guidelines for this command.
Example
The following example adds the route 2.2.2.0/24 to the virtual router tracked
list (with a priority decrement value of 20).
console(config-if-vlan10)#vrrp 1 track ip route 2.2.2.0/24 decrement 20
show vrrp
Use the show vrrp command in User Exec or Privileged Exec mode to display
the global VRRP configuration and status as well as the brief or detailed
status of one or all VRRP groups.
Layer 3 Routing Commands 1819
Syntax
show vrrp [brief | group]
• group—The virtual router group identifier. Range 1-255.
•brief—Provide a summary view of the VRRP group information.
Default Configuration
Show information on all VRRP groups.
Command Mode
User Exec, Privileged Exec mode, Global Configuration mode and all
Configuration submodes
User Guidelines
This command has no user guidelines.
Example
The following example displays detailed VRRP status.
console# show vrrp
Admin Mode..................................... Enable
Router Checksum Errors......................... 0
Router Version Errors.......................... 0
Router VRID Errors............................. 0
Vlan 7 – Group 1
Primary IP Address............................. 192.168.5.55
VMAC Address................................... 0000.5E00.0101
Authentication Type............................ None
Priority....................................... 60
Configured Priority............................ 100
Advertisement Interval (secs).................. 10
Accept Mode.................................... Enable
Pre-empt Mode.................................. Enable
Pre-empt Delay................................. Enable
Administrative Mode............................ Enable
State.......................................... Initialized
Timers Learn Mode.............................. Enable
Description....................................
Track Interface................................ vlan 3
Track Interface State.......................... Down
Track Interface DecrementPriority ............. 20
Track Route (pfx/len) ......................... 10.10.10.0/24
Layer 3 Routing Commands 1820
Track Route Reachable ......................... False
Track Route DecrementPriority ................. 20
Vlan 7 – Group 2
Primary IP Address............................. 192.168.5.65
VMAC Address................................... 0000.5E00.0202
Authentication Type............................ None
Priority....................................... 60
Configured Priority............................ 100
Advertisement Interval (secs).................. 10
Accept Mode ................................... Enable
Pre-empt Mode.................................. Enable
Pre-empt Delay................................. 0
Administrative Mode............................ Enable
State.......................................... Initialized
Timers Learn Mode.............................. Disable
Description ...................................
Track Interface................................ vlan 3
Track Interface State ......................... Down
Track Interface DecrementPriority ............. 20
Track Route (pfx/len) ......................... 10.10.10.0/24
Track Route Reachable ......................... False
Track Route DecrementPriority ................. 20
console#show vrrp brief
Interface Grp Prio IP Address Mode State
--------- --- ---- -------------- ------ ------------
V1 1 2 60 0.0.0.0 Disable Initialize
V1 2 5 70 192.168.5.55 Enable Initialize
show vrrp interface
Use the show vrrp interface command in User Exec or Privileged Exec mode
to display all configuration information and VRRP router statistics of a virtual
router configured on a specific interface.
Syntax
show vrrp interface {brief | vlan vlan-id [stats]}
•
brief
—
Display summary information about each virtual router configured on
the switch.
•
stats
—
Display the statistical information about each virtual router configured
on the VLAN.
•
vlan-id
—
Display information about each virtual router configured on the
VLAN. Valid interface type (VLAN) and interface number (vlan-id).
Layer 3 Routing Commands 1821
Default Configuration
Show information for each group in the specified interface.
Command Mode
User Exec, Privileged Exec mode, Global Configuration mode and all
Configuration submodes
User Guidelines
This command has no user guidelines.
Example
The following example displays all configuration information about the
VLAN 15 virtual router.
console#show vrrp interface vlan 15
Vlan 7 – Group 1
Primary IP Address........................... 192.168.5.55
VMAC Address................................ 0000.5E00.0101
Authentication Type............................ None
Priority....................................... 100
Configured Priority............................ 100
Advertisement Interval (secs).................. 10
Accept Mode.................................... Disable
Pre-empt Mode.................................. Enable
Pre-empt Delay................................. 0
Administrative Mode............................ Enable
State.......................................... Initialized
Timers Learn Mode.............................. Disable
Description.................................... GoodStuff
The following example displays all configuration information about the
virtual router on the selected interface.
console#show vrrp interface brief
Interface VRID IP Address Mode State
--------- ---- -------------- ------ ------------
vlan1 2 0.0.0.0 Disable Initialize
vlan2 5 192.168.5.55 Enable Initialize
The following example displays all statistical information about the VLAN 15
virtual router.
console#show vrrp interface vlan 15 stats
Vlan 15 – Group 5
UpTime........................... 0 days 0 hrs 0 mins 0 secs
Protocol....................................... IP
Layer 3 Routing Commands 1822
State Transitioned to Master................... 0
Advertisement Received......................... 0
Advertisement Interval Errors.................. 0
Authentication Failure......................... 0
IP TTL Errors.................................. 0
Zero Priority Packets Received................. 0
Zero Priority Packets Sent..................... 0
Invalid Type Packets Received.................. 0
Address List Errors............................ 0
Invalid Authentication Type.................... 0
Authentication Type Mismatch................... 0
Packet Length Errors........................... 0
Switch Management Commands 1823
8
Switch Management Commands
This section of the document contains the following Utility command topics:
Application
Deployment
DHCP Server
Commands
RMON Commands Telnet Server
Commands
Auto-Install
Commands
DHCPv6 Server
Commands
Serviceability
Commands
Time Ranges
Commands
CLI Macro
Commands
HiveAgent
Commands
Sflow Commands USB Flash Drive
Commands
Clock Commands IP Addressing
Commands
SNMP Commands User Interface
Commands
Command Line
Configuration
Scripting
Commands
Line Commands SupportAssist
Commands
Web Server Commands
Configuration and
Image File
Commands
PHY Diagnostics
Commands
SYSLOG
Commands
–
DHCP Client
Commands
Power Over
Ethernet
Commands
System and Stack
Management
Commands
–
Switch Management Commands 1824
Application Deployment
This section contains commands to manage Dell-supplied or end-user
generated applications.
Commands in this Section
This section explains the following commands:
application install
Use the application install command to install or remove an application.
Syntax
application install filename [start-on-boot] [auto-restart] [cpu-sharing
percent] [max-megabytes max-megabytes]
no application install filename
• filename — Name of the file containing the executable or script that is
started as a Linux process for the application.
•start-on-boot — Start the application every time the switch boots up.
Takes affect on the subsequent reboot after set. Omit this keyword from
the command to disable starting application at boot time.
•auto-restart — Automatically restart the application’s process(es) if they
stop running. Omit this keyword from the command to disable
automatic restart of the application.
•cpu-sharing — CPU share allocated to this application. Expressed as a
percentage between 0 and 99. If 0 is specified, the application
process(es) are not limited. If this keyword is not specified, the default
value is used. The default is 0.
application install application stop
application start show application
Switch Management Commands 1825
• max-megabytes — Set the maximum memory resource that the
application process(es) are allowed to consume. Expressed as megabytes
between 0 and 200. If 0 is specified, the application process(es) are not
limited. If this keyword is not specified, the default value is used. The
default is 0.
Default Configuration
By default, no applications are installed.
Command Mode
Global Configuration
User Guidelines
Application names may be up to 16 characters in length.
The name specified in the application-name parameter must match the
filename output of the show application command exactly. Application
names are case sensitive.
Command History
Introduced in version 6.3.0.1 firmware.
Example
console(config)#no application install support-assist
This action will terminate the support-assist agent and remove it permanently
from the switch. Are you sure you wish to continue (Y/N):
application start
Use the application start command to schedule an application for immediate
execution on the stack master.
Syntax
application start application-name
• application-name — The name of the application as shown in the show
application command output.
Switch Management Commands 1826
Default Configuration
By default, no applications are installed.
Command Mode
Privileged Exec mode
User Guidelines
Applications must be downloaded and installed prior to scheduling execution
with the application start command.
Application names may be up to 16 characters in length.
The name specified in the application-name parameter must match the
filename output of the show application command exactly. Application
names are case sensitive.
Example
console#application start support-assist
Command History
Introduced in version 6.3.0.1 firmware. Example added in the 6.4 release.
application stop
Use the application stop command to stop an application if the application is
executing on the stack master.
Syntax
application stop application-name
• application-name — The name of the application as shown in the show
application command output.
Default Configuration
By default, no applications are started.
Command Mode
Privileged Exec mode
Switch Management Commands 1827
User Guidelines
Applications must be downloaded and installed prior to scheduling
execution.
Application names may be up to 16 characters in length.
The name specified in the application-name parameter must match the
filename output of the show application command exactly. Application
names are case sensitive.
Command History
Introduced in version 6.3.0.1 firmware.
Example
console#application stop support-assist
This action will terminate the support-assist agent. Are you sure you wish to
continue (Y/N):
show application
Use the show application command to display installed applications and
optionally display application files.
Syntax
show application [files]
•files — Displays the files present in the application directory of the
switch’s file system. These applications may or may not be installed.
Default Configuration
By default, no applications are present in the file system.
Command Mode
Global Configuration
User Guidelines
Applications must be downloaded and installed prior to displaying.
The show application command displays the following information:
Switch Management Commands 1828
The show application files command format displays the following
information:
Command History
Introduced in version 6.3.0.1 firmware.
Example
console(config)#show application
OpEN application table contains 2 entries.
Name StartOnBoot AutoRestart CPU Sharing Max Memory
---------------- ----------- ----------- ----------- ----------
SupportAssist Yes Yes 0 0
hiveagent Yes No 0 0
Parameter Definition
filename Name of the application
start-on-boot Yes or No stating if the application is configured to start on
boot
auto-restart Yes or No stating if the application is configured to restart
when the application process ends
Max-CPU-Util Configured application CPU utilization limit expressed as a
percentage. “None” if unlimited.
Max-memory Configured application memory limit in megabytes. “None”
if unlimited.
Parameter Definition
filename Name of the application file.
File size Number of bytes the file occupies in the file system.
Directory Size Number of bytes for all the files in the application directory.
Switch Management Commands 1829
Auto-Install Commands
Auto-Install provides automatic update of the image and configuration of
Dell EMC Networking devices on boot up from a TFTP server as controlled
by received DHCP options. It plays a critical role in the Dell EMC
Networking offering of touchless or low-touch provisioning, in which
configuration and imaging of a device is greatly simplified. This is highly
desirable as device can be setup with minimum interaction from a skilled
technician.
In Dell EMC Networking devices, Auto-Install provides for network-based
auto-configuration and auto-imaging. Other aspects provide support for auto-
configuration and auto-imaging from attached devices.
Auto-Install is available on Dell EMC Networking devices as per the
specification listed below.
Auto-Install features in this release include:
1
Support download of image from TFTP server using DHCP option 125.
The image update can result in a downgrade or upgrade of the firmware on
the switch or stack of switches.
2
Support for automatic download of a configuration file from a TFTP
server when the device is booted with no saved configuration file located in
designated storage. This release extends the designated storage to USB
flash drives. In previous releases, the only supported storage was the
device’s embedded flash or non-volatile memory.
3
Support for automatic download of an image from a TFTP server in the
following situations:
a
When the device is booted with no saved configuration found in the
designated storage areas.
b
When the device is booted with a saved configuration that has Auto-
Install enabled.
4
Support for the Auto-Install process from a TFTP server operationally
enabling the DHCP client on designated management interfaces during
the Auto-Install process. The end user configuration remains unchanged.
Management interfaces include the out-of-band interface or routing
interfaces in a saved config.
Switch Management Commands 1830
Commands in this Section
This section explains the following commands:
boot auto-copy-sw
Use the boot auto-copy-sw command to enable or disable Stack Firmware
Synchronization.
Use the no form of the command to disable Stack Firmware Synchronization.
Syntax
boot auto-copy-sw
no boot auto-copy-sw
Default Configuration
Stack firmware synchronization is disabled by default.
Command Mode
Global Config
User Guidelines
The configuration on the master switch controls the stack as if it is a single
switch. No configuration steps need to be taken on the member switches to
synchronize the firmware.
boot auto-copy-sw boot host retry-count
boot auto-copy-sw allow-downgrade boot auto-copy-sw
boot host auto-reboot show auto-copy-sw
boot host auto-save show boot
boot host dhcp
–
Switch Management Commands 1831
boot auto-copy-sw allow-downgrade
Use the boot auto-copy-sw allow-downgrade command to enable
downgrading the firmware version on the stack member if the firmware
version on the manager is older than the firmware version on the member.
Use the no form of the command to disable downgrading the image.
Syntax
boot auto-copy-sw allow-downgrade
no boot auto-copy-sw allow-downgrade
Default Configuration
The default value is Enable.
Command Mode
Global Configuration
User Guidelines
The configuration on the stack master switch controls the stack as if it is a
single switch. No configuration steps need to be taken on the member
switches to downgrade the firmware. Configuration migration during a
downgrade is not assured. The operator should ensure that the configuration
can be downgraded before allowing the downgrade to occur or otherwise take
steps to reconfigure the switches.
During a downgrade, meta-data regarding the stack configuration is not
migrated. For example, Ethernet ports configured as stacking ports will revert
to the default Ethernet configuration during a downgrade. When this occurs,
the stack will be split into individual switches, each of which must have the
relevant Ethernet ports individually configured as stacking before the stack
can be reconstituted.
Switch Management Commands 1832
boot host auto-reboot
Use the boot host auto-reboot command in Global Configuration mode to
enable rebooting the device (no administrative intervention) when the auto-
image is successfully downloaded. Use the no form of this command to
disable rebooting the device (no administrative intervention) when the auto-
image is successfully downloaded.
Syntax
boot host auto-reboot
no boot host auto-reboot
Default Configuration
The default value is enabled.
Command Mode
Global Configuration mode
User Guidelines
The configuration on the master switch controls the stack as if it is a single
switch. No configuration steps need to be taken on the member switches to
enable rebooting the member switches after auto-image download.
Example
console#
console#configure
console(config)#boot host auto-reboot
console(config)#no boot host auto-reboot
boot host auto-save
Use the boot host auto-save command in Global Configuration mode to
enable automatically saving the downloaded configuration on the switch. Use
the no form of this command to disable automatically saving the downloaded
configuration on the switch.
Switch Management Commands 1833
Syntax
boot host auto-save
no boot host auto-save
Default Configuration
The default value is disabled.
Command Mode
Global Configuration mode
User Guidelines
This command has no user guidelines
Example
console#
console#configure
console(config)#boot host auto-save
console(config)#no boot host auto-save
boot host dhcp
Use the boot host dhcp command in Global Configuration mode to enable
Auto-Install and Auto Configuration on the switch. When a switch boots
with a saved startup configuration that includes this command, the Auto-
Install process is triggered. Use the no form of this command to disable Auto-
Install on the next reboot if the reboot occurs with a saved startup
configuration. If you give this command while the Auto-Install process is
running, the Auto-Install process terminates. The Auto-Install process has an
internal timer that retries failed installations for ten minutes.
Syntax
boot host dhcp
no boot host dhcp
Default Configuration
The default value is Enabled.
Switch Management Commands 1834
Command Mode
Global Configuration.
User Guidelines
This command has no user guidelines
Example
console#
console#configure
console(config)#boot host dhcp
console(config)#no boot host dhcp
boot host retry-count
The boot host retry-count command sets the number of attempts to
download a configuration. Use the no form of this command to reset the
number of attempts to download a configuration to the default.
Syntax
boot host retry-count count
no boot host retry-count
• count — The number of attempts to download a configuration (Range:
1–6).
Default Configuration
The default number of configuration download attempts is 6.
Command Mode
Global Configuration mode
User Guidelines
This command has no user guidelines
Example
console#
console#configure
console(config)#boot host retry-count 5
Switch Management Commands 1835
console(config)#no boot host retry-count
show auto-copy-sw
Use the show auto-copy-sw command to display Stack Firmware
Synchronization configuration status.
Syntax
show auto-copy-sw
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
The show switch command also displays the switch firmware synchronization
status.
Example
console#show auto-copy-sw
Stack Firmware Synchronization
Synchronization: Enabled
SNMP Trap status: Enabled
Allow Downgrade: Enabled
show boot
Use the show boot command to display the auto install configuration and the
status.
Syntax
show boot
Switch Management Commands 1836
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec, Global Configuration mode and all Configuration submodes
User Guidelines
This command has no user guidelines.
Example
console#show boot
Auto-Install Mode.............................. Enabled
AutoInstall Operational Mode................... Disabled
Auto-Install State............................. AutoInstall is completed.
The host retry count value is: 6
Auto Save mode is Disabled
Auto Reboot mode is Enabled.
Switch Management Commands 1837
CLI Macro Commands
CLI Macros provides a convenient way to save and distribute common
configurations. A CLI macro is a set of the CLI commands having a unique
name. When a CLI macro is applied, the CLI commands contained within
the macro are executed and added to the Running Configuration File. When
the macro is applied to an interface, the existing configuration is not lost; the
new commands are added configuration.
A CLI Macro may have keywords (variables) which are replaced by values
provided when the macro is applied (up to 3 keywords per macro). Macros can
be applied to specific interfaces, a range of interfaces, or the global
configuration.
There are two types of Macros:
• Built-In Macros, or Default Macros – the predefined macros which
cannot be changed or deleted.
• User-Defined Macros, or Custom Macros – the macros which allow the
operator to bundle some prerequisites or global configurations as a
macro and then apply them to one or more interfaces at a time, which
can then be copied or used by other switches. Up to 50 user-defined
macros are supported.
The software includes 6 built-in macros:
• profile-global, the global configuration, used to enable RSTP and loop
guard.
• profile-desktop, the interface configuration, for increased network
security and reliability when connecting a desktop device, such as a PC,
to a switch port.
• profile-phone, the interface configuration, used when connecting a
desktop device such as a PC with an IP Phone to a switch port.
• profile-switch, the interface configuration, used when connecting an
access switch and a distribution switch or between access switches.
• profile-router, the interface configuration, used when connecting the
switch and a WAN router.
• profile-wireless, the interface configuration, used when connecting the
switch and a wireless access point.
Switch Management Commands 1838
• profile-compellent-nas, the interface configuration, used when
connecting the switch to a Dell Compellent NAS.
Commands in this Section
This section explains the following commands:
macro name
Use the macro name command in Global Configuration mode to create a
user-defined macro. Use the no form of the command to delete a macro.
Syntax
macro name name
no macro name name
• name—The name of the macro. A macro name can consist of any
printable characters, including blanks and excluding question marks. A
macro name may be up to 31 characters in length. Embed the name in
quotes if a blank is desired in the name. Use the no form of the
command to delete a macro.
Default Configuration
The following macros are defined by default and may not be deleted or
altered:
macro name macro apply
macro global apply macro trace
macro global trace macro description
macro global description show parser macro
Macro Context Name Service
global profile-global Set DSCP mappings and enable
RSTP.
Switch Management Commands 1839
Command Mode
Global Configuration mode
User Guidelines
The predefined macros are useful in globally configuring the switch or a
specific interface in the configuration context indicated. The macros contain
a short series of commands with suggested settings for the switch or interface
when used in a particular type of service.
Macros consist of text commands with one command per line. Enter the
commands and terminate macro input mode by entering a single at sign (@)
on a line by itself.
A macro may utilize up to 3 parameters. Parameters are text strings that begin
with a dollar sign ($). Parameters are substituted by specifying the parameter
on the command line when the macro is applied.
Macros may be applied to a specific interface, a range of interfaces, or to the
global configuration. Up to 50 user-defined macros may be configured.
interface profile-desktop Configure port security and
spanning-tree portfast for a desktop
user.
interface profile-phone Enable an interface for the Voice
VLAN service.
interface profile-switch Configure a trunk mode port for a
switch.
interface profile-router Configure a trunk mode port for a
router.
interface profile-wireless Configure a port for connection to a
wireless AP.
global profile-compellent-nas Configure a port for connection to a
Compellent NAS.
Macro Context Name Service
Switch Management Commands 1840
macro global apply
Use the macro global apply command in Global Configuration mode to
apply a macro.
Syntax
macro global apply macro-name [parameter value] [parameter
value][parameter value]
• macro-name—The name of the macro.
•
parameter
—
The name of the parameter recognized by the macro. The
parameter must begin with a dollar sign ($).
• value—The string to be substituted within the macro for the specified
parameter name.
Default Configuration
No parameters are substituted unless supplied on the command line.
Command Mode
Global Configuration mode
User Guidelines
Commands applied are additive in nature. That is, they do not remove
existing configuration information by default.
macro global trace
Use the macro global trace command in Global Configuration mode to apply
and trace a macro. The trace command will display each line of the macro as
it is executed and list any errors encountered.
Syntax
macro global trace macro-name [parameter value] [parameter
value][parameter value]
• macro-name—The name of the macro.
Switch Management Commands 1841
• parameter—The name of the parameter recognized by the macro. The
parameter must begin with a dollar sign ($).
• value—The string to be substituted within the macro for the specified
parameter name.
Default Configuration
No parameters are substituted unless supplied on the command line.
Command Mode
Global Configuration mode
User Guidelines
The line number of the first error encountered is printed. The script is
aborted after the first error.
Commands applied are additive in nature. That is, they do not remove
existing configuration information by default.
macro global description
Use the macro global description command in Global Configuration mode
to append a line to the global macro description. Use the no form of the
command to clear the description.
Syntax
macro global description line
• line—The macro description. All text up to the new line is included in
the description.
Default Configuration
There is no description by default.
Command Mode
Global Configuration mode
Switch Management Commands 1842
User Guidelines
This command is intended to give the administrator an easy way to remember
which macros have been applied globally. All text up to the new line is
included in the description. The line is appended to the global description.
macro apply
Use the macro apply command in Interface Configuration mode to apply a
macro.
Syntax
macro apply macro-name [parameter value] [parameter value][parameter
value]
• macro-name—The name of the macro.
• parameter—The name of the parameter recognized by the macro. The
parameter must begin with a dollar sign ($).
• value—The string to be substituted within the macro for the specified
parameter name.
Default Configuration
No parameters are substituted unless supplied on the command line.
Command Mode
Interface Configuration mode
User Guidelines
Commands applied are additive in nature. That is, they do not remove
existing configuration information by default.
macro trace
Use the macro trace command in Interface Configuration mode to apply and
trace a macro. The command will display each line of the macro as it is
executed and list any errors encountered.
Switch Management Commands 1843
Syntax
macro trace macro-name [parameter value] [parameter value][parameter
value]
no macro name name
• macro-name—The name of the macro.
• parameter—The name of the parameter recognized by the macro. The
parameter must begin with a dollar sign ($).
• value—The string to be substituted within the macro for the specified
parameter name.
Default Configuration
No parameters are substituted unless supplied on the command line.
Command Mode
Interface Configuration mode
User Guidelines
The line number of the first error encountered is printed. The script is
aborted after the first error.
Commands applied are additive in nature. That is, they do not remove
existing configuration information by default.
macro description
Use the macro description command in Interface Configuration mode to
append a line to the macro description. Use the no form of the command to
clear the description.
Syntax
macro description line
• line—The macro description. All text up to the new line is included in
the description.
Switch Management Commands 1844
Default Configuration
There is no description by default.
Command Mode
Interface Configuration mode
User Guidelines
This command is intended to give the administrator an easy way to remember
which macros have been applied to an interface. All text up to the new line is
included in the description. The line is appended to the interface description.
show parser macro
Use the show parser macro command to display information about defined
macros.
Syntax
show parser macro [brief | description [interface interface-id] | name macro
• brief—Shows the list of defined macros and their type.
• description—Shows the macro descriptions.
• name—Shows an individual macro, including its contents.
• macro—The name of the macro to display.
• interface-id—The interface for which to show the macro description.
Default Configuration
No parameters are substituted unless supplied on the command line.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
There are no user guidelines for this command.
Switch Management Commands 1845
Clock Commands
Real-time Clock
The Dell EMC Networking supports a real-time clock that maintains the
system time across reboots. The system time is used to timestamp messages
in the logging subsystem as well as for the application of time based ACLs.
The administrator has the ability to configure and view the current time, time
zone, and summer time settings.
The earliest date that can be configured is Jan 1, 2010.
Simple Network Time Protocol
The Simple Network Time Protocol (SNTP) is widely used for synchronizing
network resources. SNTP Version 4 is described in RFC 2030. SNTP is an
adaptation of the Network Time Protocol (RFC 1305) useful for situations
where the full performance of NTP is not justified. SNTP can operate in
unicast mode (point-to-point) or broadcast mode (point-to-multipoint).
Various NTP implementations can operate as either a client or a server. To an
NTP or SNTP server, NTP and SNTP clients are indistinguishable. Likewise,
to an NTP or SNTP client, NTP and SNTP servers are indistinguishable.
Furthermore, any version of NTP is compatible with any other version of NTP.
Dell EMC Networking SNTP implements the client side of SNTP.
Support for IPv6 address configuration is provided to the existing SNTP
client. The end user can configure either an IPv4 or IPv6 address or a host
name for an SNTP server among the list of servers. In unicast mode, one of
the servers from the list is selected as the active server to be used for polling
based on priority and configured order. The servers are treated alike
independent of IPv4 or IPv6 or hostname address formats. At any given point
of time, the client operates in unicast or broadcast mode. In broadcast mode,
SNTP client listens on the well known multicast group address 224.0.1.1
(reserved for NTP) for server packets from IPv4 networks on port number 123.
On IPv6 networks, the SNTP client listens to the link-local scoped IANA
multicast address ff02::101 (reserved for SNTP) for server packets on port
number 123. The client logic to handle packet contents doesn’t change with
support for IPv6 networks.
Switch Management Commands 1846
Commands in this Section
This section explains the following commands:
show sntp configuration
Use the show sntp configuration command to show the configuration of the
Simple Network Time Protocol (SNTP).
Syntax
show sntp configuration
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
Loopback interfaces are not supported on the N1100-ON Series switches.
show sntp configuration sntp trusted-key
show sntp server sntp unicast client enable
show sntp status clock set
sntp authenticate clock timezone hours-offset
sntp authentication-key no clock timezone
sntp broadcast client enable clock summer-time recurring
sntp client poll timer clock summer-time date
sntp server no clock summer-time
sntp source-interface show clock
Switch Management Commands 1847
Example
The following example displays the current SNTP configuration of the
device.
console#show sntp configuration
Polling interval: 64 seconds
MD5 Authentication keys:
Authentication is not required for synchronization.
Trusted keys: No trusted keys
No trusted keys.
Unicast clients: Disable
Unicast servers:
Server Key Polling Priority Source Interface
-------------- ----------- ----------- ---------- ----------------
10.27.128.21 Disabled Enabled 1 Loopback 1
show sntp server
Use the show sntp server command to display the preconfigured SNTP
servers. The configured servers can be either IPv4 or IPv6 format.
Syntax
show sntp server
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec, Global Configuration mode and all Configuration submodes
User Guidelines
This command has no user guidelines.
Examples
console#show sntp server
Server Host Address: 2001::01
Server Type: IPv6
Switch Management Commands 1848
Server Stratum: 2
Server Reference Id: NTP Srv: 158.108.96.32
Server Mode: Server
Server Maximum Entries: 3
Server Current Entries: 2
SNTP Servers
------------
Host Address: 2001::01
Address Type: IPv6
Priority: 1
Version: 4
Port: 123
Last Update Time: Dec 22 11:10:00 2009
Last Attempt Time: Dec 22 11:10:00 2009
Last Update Status: Success
Total Unicast Requests: 955
Failed Unicast Requests: 1
Host Address: 3.north-america.pool.ntp.org
Address Type: DNS
Priority: 1
Version: 4
Port: 123
Last Update Time: Dec 22 07:30:31 2009
Last Attempt Time: Dec 22 07:32:41 2009
Last Update Status: Server Unsynchronized
Total Unicast Requests: 157
Failed Unicast Requests: 2
show sntp status
Use the show sntp status command to show the status of the Simple Network
Time Protocol (SNTP).
Syntax
show sntp status
Default Configuration
This command has no default configuration.
Switch Management Commands 1849
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
This command has no user guidelines.
Examples
The following example shows the status of the SNTP.
console#show sntp status
Client Mode: Unicast
Last Update Time: Mar 8 18:43:56 2017
Unicast servers:
Server Status Last response
--------------- ---------------------- --------------------------
pool.ntp.org Success 18:43:56 Mar 8 2017
23.101.187.68 Other 00:00:00 Jan 1 1970
sntp authenticate
Use the sntp authenticate command in Global Configuration mode to
require server authentication for received Network Time Protocol (NTP)
traffic. To disable the feature, use the no form of this command.
Syntax
sntp authenticate
no sntp authenticate
Default Configuration
No authentication.
Command Mode
Global Configuration mode
User Guidelines
The command is relevant for both Unicast and Broadcast.
Switch Management Commands 1850
Example
The following example, after defining the authentication key for SNTP, grants
authentication.
console(config)# sntp authentication-key 8 md5 ClkKey
console(config)# sntp trusted-key 8
console(config)# sntp authenticate
sntp authentication-key
Use the sntp authentication-key command in Global Configuration mode to
define an authentication key for Simple Network Time Protocol (SNTP). To
remove the authentication key for SNTP, use the no form of this command.
Syntax
sntp authentication-key key-number md5 value
no sntp authentication-key number
• key-number—number (Range: 1–4294967295)
• value—value (Range: 1-8 characters)
Default value
No authentication is defined.
Command Mode
Global Configuration mode
User Guidelines
This command has no user guidelines.
Examples
The following examples define the authentication key for SNTP.
console(config)# sntp authentication-key 8 md5 04080605
console(config)# sntp trusted-key 8
console(config)# sntp authenticate
Switch Management Commands 1851
sntp broadcast client enable
Use the sntp broadcast client enable command in Global Configuration
mode to enable a Simple Network Time Protocol (SNTP) Broadcast client. To
disable an SNTP Broadcast client, use the no form of this command.
Syntax
sntp broadcast client enable
no sntp broadcast client enable
Default Configuration
The SNTP Broadcast client is disabled.
Command Mode
Global Configuration mode
User Guidelines
This command has no user guidelines.
Example
The following example enables a Simple Network Time Protocol (SNTP)
Broadcast client.
console(config)# sntp broadcast client enable
sntp client poll timer
Use the sntp client poll timer command in Global Configuration mode to set
the polling time for the Simple Network Time Protocol (SNTP) client. To
return to the default settings, use the no form of this command.
Syntax
sntp client poll timer seconds
no sntp client poll timer
• seconds — Polling interval. (Range: 64-1024 seconds, in powers of 2, i.e.,
64, 128, 256, 512 or 1024.)
Switch Management Commands 1852
Default Configuration
The default polling interval is 64 seconds.
Command Mode
Global Configuration mode
User Guidelines
If a user enters a value which is not an exact power of two, the nearest power-
of-two value is applied.
Example
The following example sets the polling time for the Simple Network Time
Protocol (SNTP) client to 1024 seconds.
console(config)# sntp client poll timer 1024
sntp server
Use the sntp server command in Global Configuration mode to configure an
SNTP server address or a host name. The server address can be either an IPv4
address or an IPv6 address. Use the no form of this command to unconfigure
an SNTP server address or a host name.
Syntax
sntp server {ip-address | ipv6-address | hostname} [priority priority][key
key_id][poll]
no sntp server {ip-address | ipv6-address | hostname}
• ip-address — IP address of the server.
• hostname — Hostname of the server. (Range: 1-158 characters)
• priority—The relative priority of the SNTP server (Range 1-8).
• poll—Enable SNTP server polling.
• key_id—The index of the authentication key to send to the SNTP server
(Range 1-4294967295).
Switch Management Commands 1853
Default Configuration
This command has no default configuration.
Command Mode
Global Configuration mode
User Guidelines
The SNTP authentication parameter is an MD5 checksum sent to the NTP
server. The key index identified in the sntp server command should be
configured with the sntp authentication-key command.
Example
The following example configures the device to accept Simple Network Time
Protocol (SNTP) traffic from the server at IP address 192.1.1.1.
console(config)# sntp server 192.1.1.1
sntp source-interface
Use the sntp source-interface command to select the interface from which to
use the IP address in the source IP address field of transmitted SNTP packets.
Use the no form of the command to revert to the default IP address.
Syntax
sntp source-interface {loopback loopback-id | vlan vlan-id}
no sntp source-interface
• loopback-id — A loopback interface identifier.
• vlan-id — A VLAN identifier.
Default Configuration
By default, the switch uses the assigned switch IP address as the source IP
address for SNTP packets. This is either the IP address assigned to the VLAN
from which the SNTP packet originates or the out-of-band interface IP
address.
Switch Management Commands 1854
Command Mode
Global Configuration
User Guidelines
The source interface must have an assigned IP address (either manually or via
another method such as DHCP). This command is not supported on Dell
EMC N1100-ON switches. Dell EMC N1100-ON switches support
configuration of a single IP address in interface vlan configuration mode.
That IP address is used as the source interface address for this function.
Command History
Introduced in version 6.3.0.1 firmware.
Example
console#conf
console(config)#interface vlan 1
console(config-if-vlan1)#ip address dhcp
console(config-if-vlan1)#exit
console(config)#sntp source-interface vlan 1
sntp trusted-key
Use the sntp trusted-key command in Global Configuration mode to
authenticate the identity of a system to which Simple Network Time Protocol
(SNTP) will synchronize. To disable authentication of the identity of the
system, use the no form of this command.
Syntax
sntp trusted-key key-number
no sntp trusted-key key-number
• key-number — Key number of authentication key to be trusted. (Range:
1–4294967295)
Default Configuration
No keys are trusted.
Switch Management Commands 1855
Command Mode
Global Configuration mode
User Guidelines
This command is relevant for both received Unicast and Broadcast.
Example
The following defines SNTP trusted-key.
console(config)# sntp authentication-key 8 md5 ClkKey
console(config)# sntp trusted-key 8
console(config)# sntp authenticate
sntp unicast client enable
Use the sntp unicast client enable command in Global Configuration mode
to enable a client to use Simple Network Time Protocol (SNTP) predefined
Unicast clients. To disable an SNTP Unicast client, use the no form of this
command.
Syntax
sntp unicast client enable
no sntp unicast client enable
Default Configuration
The SNTP Unicast client is disabled.
Command Mode
Global Configuration mode
User Guidelines
Use the sntp server command to define SNTP servers.
Examples
The following example enables the device to use Simple Network Time
Protocol (SNTP) to request and accept SNTP traffic from servers.
Switch Management Commands 1856
console(config)# sntp unicast client enable
clock set
Use the clock set command to manually set the system time.
Syntax
clock set {<hh:mm:ss> | <mm/dd/yyyy>}
Default Configuration
The system time is local.
Command Mode
Global Configuration
User Guidelines
It is advisable to set both the time and date.
Examples
console(config)#clock set 19:20:31
console(config)#clock set 04/01/2019
clock timezone hours-offset
Use the clock timezone [hours-offset] [minutes minutes-offset] [zone
acronym] command to set the offset to Coordinated Universal Time (UTC).
If the optional parameters are not specified, they will be read as either '0' or
'\0, as appropriate.
Syntax
clock timezone hours-offset [minutes minutes-offset] [zone acronym]
• hours-offset — Hours difference from UTC. (Range: –12 to +13)
• minutes-offset — Minutes difference from UTC. (Range: 0–59)
• acronym — The acronym for the time zone. (Range: Up to four
characters)
Switch Management Commands 1857
Command Mode
Global Configuration
Default Value
No default setting
User Guidelines
No specific guidelines
Example
console(config)#clock timezone -5 minutes 30 zone IST
no clock timezone
Use the no clock timezone command to reset the time zone settings.
Syntax
no clock timezone
Default Configuration
This command has no default configuration.
Command Mode
Global Configuration
User Guidelines
This command has no specific user guidelines.
Example
console(config)#no clock timezone
Switch Management Commands 1858
clock summer-time recurring
Use the clock summer-time recurring {usa | eu | {week day month hh:mm
week day month hh:mm}} [offset offset] [zone acronym] command to set
the summertime offset to UTC recursively every year. If the optional
parameters are not specified, they are read as either '0' or '\0', as appropriate.
Syntax
clock summer-time recurring {usa | eu | {week day month hh:mm week day
month hh:mm}} [offset offset] [zone acronym]
• week — Week of the month. (Range: 1–5, first, last)
• day — Day of the week. (Range: The first three letters by name; sun, for
example.)
• month — Month. (Range: The first three letters by name; jan, for
example.)
• hh:mm — Time in 24-hour format in hours and minutes. (Range: hh: 0–
23, mm: 0–59)
• offset — Number of minutes to add during the summertime. (Range:1–
1440)
• acronym — The acronym for the time zone to be displayed when
summertime is in effect. (Range: Up to four characters)
Default Value
No default setting
Command Mode
Global Configuration
User Guidelines
No specific guidelines
Examples
console(config)# clock summer-time recurring 1 sun jan 00:10 2 mon mar 10:00
offset 1 zone ABC
Switch Management Commands 1859
clock summer-time date
Use the clock summer-time date {{date|month}|{month|date}} year
hh:mm {{date|month}|{month|date}} year hh:mm [offset offset] [zone
acronym] command to set the summertime offset to UTC. If the optional
parameters are not specified, they are read as either '0' or '\0', as appropriate.
Syntax
clock summer-time date {date | month} {month | date} year hh:mm {date
| month} {month | date} year hh:mm [offset offset] [zone acronym]
• date — Day of the month. (Range: 1–31)
• month — Month. (Range: The first three letters by name; jan, for
example.)
• year — Year. (Range: 2000–2097)
• hh:mm — Time in 24-hour format in hours and minutes. (Range: hh: 0–
23, mm: 0–59)
• offset — Number of minutes to add during the summertime. (Range: 1–
1440)
• acronym — The acronym for the time zone to be displayed when
summertime is in effect. (Range: Up to four upper or lower case
alphabetic characters)
Default Configuration
This command has no default configuration.
Command Mode
Global Configuration
User Guidelines
No specific guidelines
Examples
console(config)# clock summer-time date 1 Apr 2014 02:00 28 Oct 2014 02:00
offset 60 zone EST
or
Switch Management Commands 1860
console(config)# clock summer-time date Apr 1 2014 02:00 Oct 28 2014 02:00
offset 60 zone EST
no clock summer-time
Use the no clock summer-time command to reset the summertime
configuration.
Syntax
no clock summer-time
Default Configuration
This command has no default configuration.
Command Mode
Global Configuration
User Guidelines
No specific guidelines
Example
console(config)#no clock summer-time
show clock
Use the show clock command to display the time and date from the system
clock. Use the show clock detail command to show the time zone and
summertime configuration.
Syntax
show clock [detail]
Default Configuration
This command has no default configuration.
Switch Management Commands 1861
Command Mode
User Exec, Privileged Exec, Global Configuration mode and all Configuration
submodes
User Guidelines
This command has no user guidelines.
Example
The following example shows the time and date only.
console# show clock
15:29:03 PDT(UTC-7) Jun 17 2014
Time source is SNTP
The following example shows the time, date, timezone, and summertime
configuration.
console# show clock detail
15:29:03 PDT(UTC-7) Jun 17 2014
Time source is SNTP
Time zone:
Acronym is PST
Offset is UTC-7
Summertime:
Acronym is PDT
Recurring every year.
Begins at first Sunday of April at 2:00.
Ends at last Sunday of October at 2:00.
Offset is 60 minutes.
The following example displays the time and date from the system clock
console>show clock
15:29:03 Jun 17 2014
Time source is SNTP
Switch Management Commands 1862
Command Line Configuration
Scripting Commands
The Configuration Scripting feature allows the user to generate text-
formatted files representing the current system configuration. These
configuration script files can be uploaded to a computer and edited, then
downloaded to the system and applied to the system. This feature allows the
flexibility of creating command configuration scripts that can be applied to
several switches with minor or no modifications.
Commands applied from a script are additive in nature. That is, they modify,
but do not automatically replace the current configuration. Any valid
command can be placed in a script, including show commands.
Scripts execute in Privileged Exec mode. The script author must add a
command (configure) in order to enter Global Configuration mode.
Commands in this Section
This section explains the following commands:
script apply
Use the script apply command to apply the commands in the script to the
switch.
Syntax
script apply scriptname
• scriptname — Name of the script file to apply. (Range 1–31 characters)
There are no user guidelines for this
command.
script show
script delete script validate
script list
–
Switch Management Commands 1863
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode
User Guidelines
This command has no user guidelines.
Example
The following example applies the config.scr script to the switch.
console#script apply config.scr
script delete
Use the script delete command to delete a specified script.
Syntax
script delete {scriptname | all}
• scriptname — Script name of the file being deleted. (Range 1-31
characters)
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode
User Guidelines
This command has no user guidelines.
Example
The following example deletes all scripts from the switch.
console#script delete all
Switch Management Commands 1864
script list
Use the script list command to list all scripts present on the switch as well as
the remaining available space.
Syntax
script list
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode
User Guidelines
This command has no user guidelines.
Example
The following example displays all scripts present on the switch.
console#script list
Configuration Script Name Size(Bytes)
-------------------------------- -----------
0 configuration script(s) found.
2048 Kbytes free.
script show
Use the script show command to display the contents of a script file.
Syntax
script show scriptname
• scriptname — Name of the script file to be displayed. (Range: 1-31
characters)
Default Configuration
This command has no default configuration.
Switch Management Commands 1865
Command Mode
Privileged Exec mode
User Guidelines
This command has no user guidelines.
Example
The following example displays the contents of the script file config.scr.
console#script show config.scr
interface gigabitethernet 1/0/1
ip address 176.242.100.100 255.255.255.0
exit
script validate
Use the script validate command to validate a script file by parsing each line
in the script file.The validate option is intended for use as a tool in script
development. Validation identifies potential problems though it may not
identify all problems with a given script.
Syntax
script validate scriptname
• scriptname — Name of the script file being validated. (Range: 1-31
characters)
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode
User Guidelines
This command has no user guidelines.
Switch Management Commands 1866
Example
The following example validates the contents of the script file config.scr.
console#script validate config.scr
Switch Management Commands 1867
Configuration and Image File
Commands
File System Commands
CLI commands allow the user to show the contents of the current directory in
the flash file system (dir command). These files may also be deleted from the
flash using the delete command or renamed with the rename command. Also,
the syntax of the copy command has been changed slightly to add additional
flash targets and sources for the above commands.
Command Line Interface Scripting
The configuration scripting feature allows the user to save the current Dell
EMC Networking configuration in text format. To modify the configuration
script file, follow these procedures:
1
Upload the file to a personal computer.
2
Edit the file.
3
Download the file to a Dell EMC Networking switch.
4
Apply it to the Dell EMC Networking system. With this feature in place,
the Dell EMC Networking administrator has the flexibility of creating
configuration scripts and then applying the scripts to several devices.
Commands in this Section
This section explains the following commands:
boot system rename
clear config show backup-config
copy show bootvar
delete show running-config
dir show startup-config
erase write
Switch Management Commands 1868
boot system
Use the boot system command to specify the system image that the device
loads at startup.
Syntax
boot system [unit-id][active|backup]
•unit-id—Unit to be used for this operation. If absent, command
executes on this node.
•active—Boot from the currently active image.
•backup—Boot from the backup image.
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode
User Guidelines
Use the show bootvar command to find out which image is the active image.
Example
console#boot system ?
<unit> Unit to be used for this operation. If absent,
command executes on this node.
active Marks the given image as active for subsequent
re-boots.
backup Marks the given image as active for subsequent
re-boots.
console#show version
Machine Description............... Dell Networking Switch
System Model ID................... N4032
Machine Type...................... Dell Networking N4032
filedescr
Switch Management Commands 1869
Serial Number..................... X00-32C-10
Manufacturer...................... 0xbc00
Burned In MAC Address............. 001E.C9F0.0039
System Object ID.................. 1.3.6.1.4.1.674.10895.3042
CPU Version....................... XLP308L
SOC Version....................... BCM56842_A1
HW Version........................ 1
CPLD Version...................... 17
unit active backup current-active next-active
---- ----------- ----------- -------------- --------------
1 6.0.0.1 6.0.0.0 6.0.0.1 6.0.0.1
clear config
Use the clear config command to restore the switch to the default
configuration.
Syntax
clear config
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode
User Guidelines
This command has no user guidelines.
Example
The following example restores the switch to its default configuration.
console#clear config
copy
Use the copy command to copy files within the switch and to upload and
download files from and to the switch.
Switch Management Commands 1870
Syntax
copy
source
-url
destination-url
Parameter Description
source-url The location URL or or reserved keyword of the source file being
copied. (Range: 1-160 characters.)
List of valid source parameters for uploading from the switch:
backup-config Uploads Backup Config file.
active|backup Uploads code file.
log-files Uploads the system logs.
operational-log Uploads Operational Log file.
running-config Uploads system config file.
script <filename> Uploads Configuration Script file.
startup-config Uploads Startup Config file.
startup-log Uploads Startup Log file.
application filename Uploads a PYTHON application.
core-dump filename Uploads a Core Dump file.
crashlog [crashlog# |
kernel crashlog# | data
crashlog#] [unit unit#]
A crash log file on the stack master or a
stack member.
Valid source URLs for downloading to the switch:
tftp://{ipaddress | hostname}/filepath/filename
scp://{user@ipaddresss | hostname}/filepath/filename
sftp://{user@ipaddress | hostname}/filepath/filename
ftp://{user@ipaddress | hostname}/filepath/filename
flash://filepath/filename
usb://filepath/filename
Switch Management Commands 1871
destination-url The URL or reserved keyword of the destination file. (Range: 1-160
characters.
List of valid destination parameters for downloading to the switch:
application [filename] Download a PYTHON application.
backup-config Downloads a backup config file using FTP,
SFTP, or TFTP.
ca-root [index] A Certificate Authority (CA) root or
intermediate X.509 PEM-encoded
certificate file. The contents of the source
URL are copied into the CAindex.pem file
on the switch. The optional index can
range from 1-8. If no index is given, the
certificate is placed in the CA.pem file.
client-key[index] A client private key file. The contents of
the source URL are copied into the
clientindex.key file on the switch. The
optional index can range from 1-8. If no
index is specified, the private key is placed
into the client.key file.
client-ssl-crt[index] A client certificate file. The contents of
the source URL are copied into the
clientindex.pem file on the switch. The
optional index can range from 1-8. If no
index parameter is specified, the
certificate is placed in the client.pem file.
active|backup Downloads an image file by FTP, SFTP, or
TFTP.
openflow-ssl-ca-cert A signed Certificate Authority (CA) root
or intermediate certificate file. The
contents of the source URL are copied
into the of-cacert.pem file on the switch.
openflow-ssl-priv-key An OpenFlow client private key file. The
contents of the source URL are copied
into the of-privkey.pem file on the switch.
Parameter Description
Switch Management Commands 1872
The following list describes syntax keywords.
• source-url — The location URL or reserved keyword of the source file
being copied. (Range: 1–160 characters.)
• destination-url — The URL or reserved keyword of the destination file.
(Range: 1–160 characters.)
• ipaddr — The IPv4 or IPv6 address of the server.
• hostname — Hostname of the server. (Range: 1–158 characters). The
command allows spaces in the host name when specified in double
quotes.
• filepath — The path to the file on the server or USB drive or an absolute
or relative path on the switch. This is an optional parameter that should
only be entered if needed.
• filename — The name of the file on the server or USB drive (source-url).
The filename parameter is required for the tftp, ftp, scp, sftp, flash and
usb destination URLs. For an application, if the optional filename
parameter is given for an archive in the destination url, it must have a
.tar or .tgz extension. If the destination filename is not given, the
destination-url
(cont.)
openflow-ssl-cert An OpenFlow client certificate file. The
contents of the source URL are copied
into the of-cert.pem file on the switch.
script Downloads a configuration script by FTP,
SFTP, or TFTP.
startup-config Downloads a startup configuration file
using FTP or TFTP.
ias-users Downloads the ias-users database file.
Valid destination URLs for uploading from the switch:
tftp://{ipaddress | hostname}/filepath/filename
ftp://<user>@<ipaddr|hostname>/<path>/<filename>
scp://{user@ipaddresss | hostname}/filepath/filename
sftp://{user@ipaddress | hostname}/filepath/filename
flash://filename
usb://filepath/filename
Parameter Description
Switch Management Commands 1873
filename is extracted from the source url. If the filename has a .tar or
.tgz extension, the archive is unpacked in the user-apps directory and
deleted after unpacking. If there is an error during unpacking, the file is
deleted anyway. If the file name does not include a .tar or .tgz extension,
it is simply copied into the user-apps directory as is.
• username — The user name for logging into the remote server via SSH.
• crashlog#—Indicates the index of the log on the local or remote unit
(Range 0-4). Index 0 indicates the most recent crash log. Index 4
specifies the oldest crash log.
• unit—Indicates the stack unit number from which to retrieve the log. If
no unit is specified, the file is copied from the stack master.
• kernel—Only copies the kernel crash log.
• data—Only copies the crash summary data.
The following table lists and describes reserved keywords.
Reserved
Keyword
Description
application Represents an application.
running-config Represents the current running configuration file.
startup-config Represents the startup configuration file.
startup-log Represents the startup syslog file. This can only be the source of a
copy operation.
operational-log Represents the operational syslog file. This can only be the source
of a copy operation.
script scriptname Represents a CLI script file.
active|backup Represents the software image file. When “backup” is the target of
a copy command, it refers to the backup image. When “active” is
the source of a copy command, it refers to the active image. If the
switch is the destination, the file will be distributed to all units in
the stack.
ftp: Source or destination URL for an FTP network server. The syntax
for this alias is ftp://ipaddr/filepath/filename image.
Switch Management Commands 1874
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode
User Guidelines
When copying files from the switch, match a source URL with a destination
URL. URLs may not exceed 160 characters in length, including filename, file
path, hostname, ip address, user, and reserved keywords.
When copying scripts to the switch, use the script <filename> target syntax.
Internally, all scripts, including the startup-config and backup-config, are
stored with a header. The header is added when the script is downloaded to
the switch and removed when the script is uploaded from the switch. Using
the flash://<filename> syntax as the target or source bypasses adding of the
script header, ensuring that when a script is applied on the switch which was
previously copied to the switch using the flash://<filename> syntax, a syntax
error will result.
Script download performs syntax checking of downloaded scripts. If a syntax
error is detected, the user is prompted to save the file. If no error is detected,
the file is saved using the target file name.
tftp: Source or destination URL for a TFTP network server. The syntax
for this alias is tftp:[[//location]/directory]/filename. An out-of-
band IP address can be specified as described in the User
Guidelines.
usb: Source or destination URL for a file on a mounted USB file
system.
flash: Source or destination URL for the switch flash-based file system.
backup-config Represents the backup configuration file.
unit Indicates which unit in the stack is the target of the copy
command.
Reserved
Keyword
Description
Switch Management Commands 1875
Downloaded scripts are executed from privileged exec mode and should
contain a configure command as the first line of the script in order to enter
global configuration mode.
To configure TLS to use a particular CA root certificate with a client
certificate and client key for connecting to a SYSLOG server, all three of the
files must have the same index as is configured for the SYSLOG server.
If a CA root certificate, client certificate, or client key file is downloaded with
no index specified, it becomes the default set of certificates/key file for TLS
used when connecting to any SYSLOG server not configured with an index.
CA Root certificates may be self signed or signed by a certificate authority.
Applications may be installed on the switch in the user-apps directory. To
copy a single application to the switch, use the copy <source-url>
application syntax where the source-url identifies a single file. The switch will
extract the application file name from the source-url.
To copy a package of related application files to the switch, tar the files into
an archive (compressed or uncompressed). The switch will unpack the tarball
in the user-apps directory, and remove the downloaded archive file.
Examples
Example – Backing up the running-config
console#copy running-config backup-config
This operation may take a few minutes.
Management interfaces will not be available during this time.
Are you sure you want to save? (y/n) y
Configuration saved!
Example – Downloading new code to the switch
console#copy tftp://10.27.9.99/jmclendo/N4000v6.0.1.3.stk backup
Transfer Mode.................................. TFTP
Server IP Address.............................. 10.27.9.99
Source File Path............................... jmclendo/
Source Filename................................ N4000v6.0.1.3.stk
Data Type...................................... Code
Destination Filename........................... backup
Management access will be blocked for the duration of the transfer
Are you sure you want to start? (y/n) y
Switch Management Commands 1876
File transfer in progress. Management access will be blocked for the duration
of the transfer. please wait...
TFTP Code transfer starting...
17128797 bytes transferred...
File contents are valid. Copying file to flash...
Attempting to send the STK file to other units in the stack...
File transfer operation completed successfully.
console#show bootvar
Image Descriptions
active :
backup :
Images currently available on Flash
unit active backup current-active next-active
----- ------------ ------------ ----------------- -----------------
1 6.0.0.8 6.0.1.3 6.0.0.8 6.0.0.8
After the file transfer completes, use the boot system command to select the
new image to run.
Example – Downloading and applying ias users file
console#copy tftp://10.131.17.104/aaa_users.txt ias-users
Transfer Mode.................................. TFTP
Server IP Address.............................. 10.131.17.104
File Path...................................... ./
File Name...................................... aaa_users.txt
Data Type...................................... IAS Users
Management access will be blocked for the duration of the transfer
Are you sure you want to start? (y/n) y
File transfer operation completed successfully.
Validating and updating the users to the IAS users database.
Updated IAS users database successfully.
Switch Management Commands 1877
Example – Script Download
console#copy tftp://10.27.9.99/jmclendo/max-acl.scr script maxacl.scr
Example – USB copy operations
console#copy usb:/start-config startup-config
console#copy operational-log usb://olog.txt
console#copy usb://backup-config.txt backup-config
console#copy active usb://image1.stk
console#copy flash://crashlogs/crash.0 usb://crash.0
Example – Crash Log
This example copies the most recent crash log from stack unit 5 to the TFTP
server located at 10.27.9.99. The crash dump is transferred to the TFTP server
into subdirectory ~/jcm and is named crashlog.txt
console#copy core-dump 0 unit 5 tftp://10.27.9.99/jcm/crashlog.txt
Example – Application Install
Install a single application file named hiveagent_pr_s into the user-apps
directory:
console#copy tftp://172.25.122.22/hiveagent_pr_s application
Install an application package:
On the source device (a Linux workstation is shown here), perform the
following steps (aggregates hiveagent_pr hiveagent_pr_s into a compressed
tarball ha.tgz):
linux>tar czf ha.tgz hiveagent_pr hiveagent_pr_s
On the switch, issue the following command:
console#copy tftp://172.25.122.22/ha.tgz application
See what files are installed:
console#show application files
OpEN application process directory contents:
62 SupportAssist
53926 ah_ha.conf
Switch Management Commands 1878
53926 ah_ha.conf_s
74062 hiveagent
1143002 hiveagent_pr
1143002 hiveagent_pr_s
10517 sa-main.pyc
2544 saCommitUpl.pyc
3461 saGetConfig.pyc
4465 saGlobal.pyc
12464 saSendChunk.pyc
3729 saStartUpl.pyc
8707 saSubmitTop.pyc
16358 saUtil.pyc
Total bytes for all files = 2530225
console#dir user-apps
Attr Size(bytes) Creation Time Name
drwx 1168 Jul 25 2016 12:23:33 .
drwx 4088 Jul 25 2016 12:23:44 ..
-rwx 53926 May 05 2016 12:17:12 ah_ha.conf
-rw 8707 Jul 19 2016 13:44:01 saSubmitTop.pyc
-rw 2544 Jul 19 2016 13:44:01 saCommitUpl.pyc
-rw 16358 Jul 19 2016 13:44:01 saUtil.pyc
-rw 10517 Jul 19 2016 13:44:00 sa-main.pyc
-rw 12464 Jul 19 2016 13:44:01 saSendChunk.pyc
-rw 4465 Jul 19 2016 13:44:01 saGlobal.pyc
-rwx 74062 May 05 2016 12:17:12 hiveagent
-rw 3729 Jul 19 2016 13:44:01 saStartUpl.pyc
-rwx 1143002 May 05 2016 12:17:12 hiveagent_pr_s
-rwx 62 Jul 19 2016 13:44:02 SupportAssist
-rw 3461 Jul 19 2016 13:44:01 saGetConfig.pyc
-rwx 53926 May 05 2016 12:17:12 ah_ha.conf_s
-rwx 1143002 May 05 2016 12:17:12 hiveagent_pr
Total Size: 215265280
Bytes Used: 2535481
Bytes Free: 212729799
Command History
Description and options revised in 6.3.5 release.
Switch Management Commands 1879
delete
Use the delete command to delete files from flash. Files cannot be deleted
from the USB device.
Syntax
delete {
filename
| backup | backup-config | startup-config | core-dump-file
{file-name | all}
• filename — Name of the file to be deleted.
•backup—Deletes the backup.
•backup-config—Deletes the backup configuration.
•startup-config—Deletes the startup configuration.
•core-dump-file file-name - Delete the specified core dump file
•core-dump-file all – Delete all core dump files.
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode
User Guidelines
The file name may optionally include the path to the file, e.g., delete
crashlogs/crash.0.
Example
console#delete file1.scr
Delete file1.scr (Y/N)?y
dir
Use the dir command to print the contents of the flash file system or of a
subdirectory.
Switch Management Commands 1880
Syntax
dir [subdir]
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode
User Guidelines
This command has no user guidelines.
Example
console#dir
Attr Size(bytes) Creation Time Name
drwx 2640 Feb 02 2022 00:26:43 .
drwx 0 Feb 19 2014 15:22:53 ..
-rw- 96 Jan 28 2022 23:05:45 snmpOprData.cfg
-rw- 156 Jan 01 1970 00:03:14 dh512.pem
-rw- 14363703 Jan 22 2022 03:36:08 image1
-rw- 18335232 Dec 31 2021 01:03:06 image2
-rw- 64 Oct 03 2029 01:46:00 logNvmSave.bin
-rw- 37549 Jan 01 1970 00:03:02 xacl1.scr
-rw- 245 Jan 01 1970 00:03:14 dh1024.pem
drwx 160 Dec 30 2021 03:24:26 user-apps
-rw- 0 Jan 28 2022 23:05:12 olog0.txt
-rw- 2497 Jan 21 2022 22:37:38 fastpath.cfg
Total Size: 1001914368
Bytes Used: 128319488
Bytes Free: 873594880
erase
Use the erase command to erase the startup configuration, the backup
configuration, or the backup image, or a Dell-supplied application.
Switch Management Commands 1881
Syntax
erase {filename | startup-config | backup | backup-config | application
filename}
•filename—The name of a file on the flash drive.
•startup-config—Erases the contents of the startup configuration file.
•backup—Erase the backup image.
•backup-config—Erases the backup configuration.
•application filename—Erases a Dell-supplied application.
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode
User Guidelines
This command is not supported on USB drives.
filedescr
Use the filedescr command to add a description to a switch image. Use the
no version of this command to remove the description from the filename.
Syntax
filedescr {active | backup} description
no filedescr {active | backup}
•active | backup—Image file.
• description—Block of descriptive text. (Range: 0-128 characters)
Default Configuration
No description is attached to the active or backup image.
Use the
show bootvar
command to display the image description.
Switch Management Commands 1882
Command Mode
Privileged Exec mode
User Guidelines
The description accepts any printable characters except a question mark.
Enclose the string in double quotes to include spaces within the description.
The surrounding quotes are not used as part of the description. The CLI does
not filter illegal combinations of characters on entry and may accept entries
up to the first illegal character or reject the entry entirely.
Command History
Updated in version 6.3.0.1 firmware.
Example
The following example attaches a file description to the active image.
console#filedescr active “backedup on 03-22-05”
rename
Use the rename command to rename a file present in flash.
Syntax
rename
source
dest
• source — Source file name
• dest — Destination file name
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode
User Guidelines
Renaming the image1 or image2 files may cause the switch to not boot.
Switch Management Commands 1883
Example
console#rename file1.scr file2.scr
show backup-config
Use the show backup-config command to display the contents of the backup
configuration file.
Syntax
show backup-config
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
This command has no user guidelines.
Example
The following example shows backup-config data.
console#show backup-config
!Current Configuration:
!System Description “Dell Networking N4032, 6.0.0.0, Linux 2.6.32.9"
!System Software Version 6.0.0.0
!Cut-through mode is configured as disabled
!
configure
slot 1/0 1 ! Dell Networking N4032
stack
member 1 1 ! N4032
exit
interface vlan 1
exit
snmp-server engineid local 800002a203001122334455
exit
Switch Management Commands 1884
show bootvar
Use the show bootvar command in User Exec mode to display the active
system image file that the device loads at startup.
Syntax
show bootvar [unit]
• unit —Unit number.
Default Configuration
This command has no default configuration.
Command Mode
User Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
This command has no user guidelines.
Example
The following example displays the active system image file that the device
loads at startup.
console(config)#show bootvar
Image Descriptions
active :
backup :
Images currently available on Flash
unit active backup current-active next-active
----- ------------ ------------ ----------------- -----------------
1 6.0.0.0 9.25.16.57 6.0.0.0 6.0.0.0
Switch Management Commands 1885
show running-config
Use the show running-config command to display the contents of the
currently running configuration file, including banner configuration.
NOTE: All non-default configurations for the Captive Portal branding images and
encoded Unicode are not displayed via the standard show running-config
command. If desired, you can view this data in the script files or by using the all
mode for the show running-config command. In addition, please note that this non-
readable data is contained and displayed at the end of the script files.
Syntax
show running-config [all | interface interface-id [all] |scriptname]
•all—Display or capture the complete configuration, including settings
equal to the defaults.
• interface-id—An interface identifier (logical or physical). Limits the
display to the specified interface.
• scriptname—If the optional scriptname is provided, the output is
redirected to a script file.
NOTE: If you issue the show running-config command from a serial connection,
access to the switch through remote connections (such as Telnet) is suspended
while the output is being generated and displayed.
Default Configuration
By default, the show running-config command displays non-default values.
Default configuration values are suppressed in the output. Use the all
parameter to display both default and non-default values.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
This command has no user guidelines.
Switch Management Commands 1886
Example
This example shows the truncated output for the configuration of interface
Gi1/0/1. Since the all parameter is given, both the non-default and the
default values are shown.
console#show running-config interface gi1/0/1 all
speed auto
storm-control broadcast level 5
storm-control broadcast level 5
no storm-control broadcast
storm-control multicast level 5
storm-control multicast level 5
no storm-control multicast
storm-control unicast level 5
no storm-control unicast
lacp port-priority 1
lacp timeout long
no classofservice trust
cos-queue min-bandwidth 0 0 0 0 0 0 0
traffic-shape 0 Kbps
no switchport voice detect auto
no ip dhcp snooping trust
no ip dhcp snooping log-invalid
no dhcp l2relay
no dhcp l2relay trust
no ip dhcp snooping limit
no ipv6 dhcp snooping trust
no ipv6 dhcp snooping log-invalid
no ipv6 dhcp snooping limit
no ip verify source
no ipv6 verify source
no ip arp inspection trust
no ip arp inspection limit
show startup-config
Use the show startup-config command to display the startup configuration
file contents.
Syntax
show startup-config
Switch Management Commands 1887
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
This command has no user guidelines.
Example
The following example displays the contents of the startup-config file.
console(config)#show startup-config
!Current Configuration:
!System Description “Dell Networking N4064F, 6.1.0.1, Linux 2.6.32.9"
!System Software Version 6.1.0.1
!Cut-through mode is configured as disabled
!
configure
slot 1/0 5 ! Dell Networking N4064F
slot 1/1 8 ! Dell 10GBase-T Card
stack
member 1 4 ! N4064F
exit
interface vlan 1
exit
snmp-server engineid local 800002a203000277994433
exit
write
Use the write command to copy the running configuration image to the
startup configuration.
Syntax
write
Switch Management Commands 1888
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode
User Guidelines
This command is equivalent to the copy running-config startup-config
command functionally.
Example
console#write
Switch Management Commands 1889
DHCP Client Commands
Dell EMC Networking switches support an embedded DHCP client. Any IP
interface can use DHCP to obtain an IP address. The DHCP client can run
on multiple interfaces simultaneously.
For IPv4, an IP interface can either use manually configured addresses or be
enabled for DHCP. The options are mutually exclusive. When the operator
enables DHCPv4 on an IP interface, all manually configured IP addresses on
that interface are removed from the running configuration. When the
operator configures an IP address, the system automatically releases any IPv4
address assigned by a DHCP server and disables DHCPv4 on the interface.
For IPv6, DHCP can coexist with configured addresses. The operator may
enable DHCPv6 and configure IPv6 addresses on the same interface. Only a
single in-band interface can be configured as a DHCPv6 client.
DHCP is disabled by default on all in-band interfaces.
The DHCP client retains an IP address even if the IP interface goes down.
The client does not attempt to renew its IP address until the lease expires,
regardless of changes in link state.
The operator may renew or release an IP address at any time using the new
release dhcp
and
renew dhcp
CLI commands (or web or SNMP equivalents).
When an IPv6 address is leased from a DHCP server, the address has a mask
length of 128. A local route for the network is only installed if the router
receives and accepts IPv6 router advertisements on the interface. Because
router advertisements are not accepted on a routing interface, a leased IPv6
address on a routing interface is not necessarily useful.
Commands in this Section
This section explains the following commands:
release dhcp
–
renew dhcp show dhcp lease
Switch Management Commands 1890
release dhcp
Use the release dhcp command to force the DHCPv4 client to release a
leased address.
Syntax
release dhcp interface-id
• interface-id—Any valid VLAN interface. See
Interface Naming
Conventions
for interface representation.
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec
User Guidelines
The DHCP client sends a DHCP RELEASE message telling the DHCP
server that it no longer needs the IP address, and that the IP address can be
reassigned to another client. The interface method does not change and will
still be DHCP even after issuing this command. To lease an IP address again,
issue either the renew dhcp interface-id command below or ip address dhcp
(Interface Configuration) command in interface mode. If the IPv4 address
on the interface was not assigned by DHCP, then the command fails and
displays the following error message: Error! Interface does not have a DHCP
originated address.
The release dhcp option is applicable only for IP interfaces and not for the
Out-of-Band port. Use the ip address (Out-of-Band) none command on the
Out-of-Band interface to clear a DHCP-acquired address.
Example
console#release dhcp vlan 2
renew dhcp
Use the renew dhcp command to force the DHCP client to immediately
renew an IPv4 address lease.
Switch Management Commands 1891
Syntax
renew dhcp {interface-id | out-of-band}
• interface-id—Any valid IP interface. See
Interface Naming Conventions
for interface representation.
•out-of-band—Keyword to identify the out-of-band interface. The
DHCP client renews the leased address on this interface.
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec
User Guidelines
If the interface has a leased IPv4 address when this command is issued, the
DHCP client sends a DHCP REQUEST message telling the DHCP server
that it wants to continue using the IP address. If DHCP is enabled on the
interface, but the interface does not currently have an IPv4 address (for
example, if the address was previously released), then the DHCP client sends
a DISCOVER to acquire a new address. If DHCP is not enabled on the
interface, then the command fails and displays the following error message:
DHCP is not enabled on this interface
The renew dhcp option is applicable only for IP interfaces and not for the
Out-of-Band port. Use the ip address out-of-band none command on the
Out-of-Band interface to clear a DHCP-acquired address.
Examples
The first example is for IP interfaces.
console#renew dhcp vlan 2
The second example is for an out-of-band port.
console#renew dhcp out-of-band
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show dhcp lease
Use the show dhcp lease command to display IPv4 addresses leased from a
DHCP server.
Syntax
show dhcp lease [interface {out-of-band | vlan vlan-id}]
•out-of-band—The out-of-band interface.
•vlan-id—The VLAN identifier.
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec, Global Configuration mode and all Configuration submodes
User Guidelines
This command lists all IPv4 addresses currently leased from a DHCP server
on an IP interface. This command only applies to IP interfaces. To see the
IPv4 address leased on the out-of-band interface, use the command
Maximum Next Hops.............................. 16
out-of-band.
This command output provides the following information.
Term Description
IP address, Subnet
mask
The IP address and network mask leased from the DHCP server.
DHCP Lease server The IPv4 address of the DHCP server that leased the address.
State State of the DHCPv4 Client on this interface.
DHCP transaction
id
The transaction ID of the DHCPv4 Client.
Lease The duration that the IP address was leased by the server.
Renewal The time when the next DHCP renew Request is scheduled to
renew the leased IP address.
Rebind The time when the DHCP Rebind process is scheduled.
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Examples
The following example shows the output from this command when the
device has leased two IPv4 addresses from the DHCP server.
console#show dhcp lease
IP address: 10.27.22.186 on interface Vl1
Subnet mask: 255.255.252.0
DHCP lease server: 10.27.192.22, State: 5 Bound
DHCP transaction id: 0xc9e6803a
Lease: 2 days 23 hrs 47 mins 24 secs
Renewal: 1 days 11 hrs 47 mins 24 secs
Rebind: 2 days 14 hrs 47 mins 24 secs
Retry count: 0
Retry count Number of times the DHCPv4 client sent a DHCP REQUEST
message to which the server did not respond.
Term Description
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DHCP Server Commands
Dell EMC Networking N2000/N2100/N3000/N3100/N4000 Series
Switches
DHCP is based on the Bootstrap Protocol (BOOTP). It also captures the
behavior of BOOTP relay agents and DHCP participants can inter operate
with BOOTP participants.
The host RFC’s standardize the configuration parameters which can be
supplied by the DHCP server to the client. After obtaining parameters via
DHCP, a DHCP client should be able to exchange packets with any other host
in the Internet. DHCP is based on a client-server model.
DHCP consists of the following components:
• A protocol for delivering host-specific configuration parameters from a
DHCP server to a host.
• A mechanism for allocation of network addresses to hosts.
DHCP offers the following features and benefits:
• It supports the definition of “pools” of IP addresses that can be allocated
to clients by the server. Many implementations use the term scope instead
of pool.
• Configuration settings like the subnet mask, default router, DNS server,
that are required to make TCP/ IP work correctly can be passed to the
client using DHCP.
• DHCP is supported by most TCP/ IP routers this allows it to allocate an IP
address according to the subnet the original request came from. This
means that a single DHCP server can be used in multiple subnets and that
there is no need to reconfigure a client that changed subnets.
• Addresses can be leased out for a specific duration after which they need to
be explicitly renewed. This allows DHCP to reclaim expired addresses and
put them back into the unallocated pool.
• Internet access cost is greatly reduced by using automatic assignment as
Static IP addresses are considerably more expensive to purchase than are
automatically allocated IP addresses.
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• Using DHCP a centralized management policy can be implemented as the
DHCP server keeps information about all the subnets. This allows a
system operator to update a single server when configuration changes take
place.
Commands in this Section
This section explains the following commands:
ip dhcp pool
Use the ip dhcp pool command in Global Configuration mode to define a
DHCP address pool that can be used to supply addressing information to
DHCP clients. Upon successful completion, this command puts the user into
DHCP Pool Configuration mode. Use the no form of the command to
remove an address pool definition.
Syntax
ip dhcp pool [pool-name]
ip dhcp pool dns-server (IP
DHCP Pool
Config)
ip dhcp ping
packets
service dhcp
bootfile domain-name (IP
DHCP Pool
Config)
lease sntp
clear ip dhcp
binding
hardware-address netbios-name-
server
show ip dhcp binding
clear ip dhcp
conflict
host netbios-node-type show ip dhcp conflict
client-identifier ip dhcp bootp
automatic
network show ip dhcp global
configuration
client-name ip dhcp conflict
logging
next-server show ip dhcp pool
default-router ip dhcp excluded-
address
option show ip dhcp server
statistics
Switch Management Commands 1896
no ip dhcp pool [pool-name]
• pool-name—The name of an existing or new DHCP address pool. The
pool name can be up to 31 characters in length and can contain the
following characters: a-z, A-Z, 0-9, ’-’, ’_’, ’ ’. Enclose the entire pool name
in quotes if an embedded blank is to appear in the pool name.
Default Configuration
The command has no default configuration.
Command Mode
Global Configuration mode
User Guidelines
This capability requires the DHCP service to be enabled. Enable the DHCP
service using the service dhcp command. Dell EMC Networking supports
dynamic, automatic, and manual address assignment. Dynamic address
assignment leases an address to the client for a limited period of time.
Automatic assignment assigns a permanent address to a client. Manual
(static) assignment simply conveys an address assigned by the administrator
to the client.
In DHCP Pool Configuration mode, the administrator can configure the
address space and other parameters to be supplied to DHCP clients. By
default, the DHCP server assumes that all addresses specified are available for
assignment to clients. Use the
ip dhcp excluded-address
command in Global
Configuration mode to specify addresses that should never be assigned to
DHCP clients.
To configure a dynamic DHCP address pool, configure the following pool
properties using the listed DHCP pool commands:
• Address pool subnet and mask – network
• Client domain name – domain-name
• Client DNS server – dns-server
• NetBIOS WINS Server – netbios-name-server
• NetBIOS Node Type – netbios-node-type
• Client default router – default-router
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• Client address lease time – lease
Administrators may also configure manual bindings for clients using the host
command in DHCP Pool Configuration mode. This is the most often used
for DHCP clients for which the administrator wishes to reserve an ip address,
for example a computer server or a printer. A DHCP pool can contain
automatic or dynamic address assignments or a single static address
assignment.
To configure a manual address binding, configure the pool properties using
the DHCP pool commands listed below. It is only necessary to configure a
DHCP client identifier or a BOOTP client MAC address for a manual
binding. To configure a manual binding, the client identifier or hardware
address must be specified before specifying the host address.
• DHCP client identifier – client-identifier
• BOOTP client MAC address – hardware-address
• Host address – host
• Client name (optional) – client-name
Examples
Example 1 – Manual Address Pool
console(config)#service dhcp
console (config)#ip dhcp pool “Printer LP32 R1-101”
console(config-dhcp-pool)#client-identifier 00:23:12:43:23:54
console(config-dhcp-pool)#host 10.1.1.1 255.255.255.255
console(config-dhcp-pool)#client-name PRT_PCL_LP32_R1-101
Example 2 – Dynamic Address Pool
console(config)#service dhcp
console(config)#ip dhcp pool “Windows PCs”
console(config-dhcp-pool)#network 192.168.21.0 /24
console(config-dhcp-pool)#domain-name power-connect.com
console(config-dhcp-pool)#dns-server 192.168.22.3 192.168.23.3
console(config-dhcp-pool)#netbios-name-server 192.168.22.2 192.168.23.2
console(config-dhcp-pool)#netbios-node-type h-node
console(config-dhcp-pool)#lease 2 12
console(config-dhcp-pool)#default-router 192.168.22.1 192.168.23.1
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bootfile
Use the bootfile command in DHCP Pool Configuration mode to set the
name of the image for the DHCP client to load. Use the no form of the
command to remove the bootfile configuration. Use the
show ip dhcp pool
command to display pool configuration parameters.
Syntax
bootfile filename
no bootfile
• filename—The name of the file for the DHCP client to load.
Default Configuration
There is no default bootfile filename.
Command Mode
DHCP Pool Configuration mode
User Guidelines
This command has no user guidelines.
Example
console(config-dhcp-pool)#bootfile ntldr
clear ip dhcp binding
Use the clear ip dhcp binding command to remove automatic DHCP server
bindings.
Syntax
clear ip dhcp binding {ip-address | *}
•*—Clear all automatic dhcp bindings.
•ip-address—Clear a specific binding.
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Default Configuration
The command has no default configuration.
Command Mode
Privileged Exec mode
User Guidelines
This command has no user guidelines.
Example
console#clear ip dhcp binding 1.2.3.4
clear ip dhcp conflict
Use the clear ip dhcp conflict command to remove DHCP server address
conflicts. Use the
show ip dhcp conflict
command to display address conflicts
detected by the DHCP server.
Syntax
clear ip dhcp conflict {ip-address | *}
•*—Clear all automatic dhcp bindings.
•ip-address—Clear a specific address conflict.
Default Configuration
The command has no default configuration.
Command Mode
Privileged Exec mode
User Guidelines
This command has no user guidelines.
Example
console#clear ip dhcp conflict *
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client-identifier
Use the client-identifier command in DHCP Pool Configuration mode to
identify a Microsoft DHCP client to be manually assigned an address. Use the
no form of the command to remove the client identifier configuration.
Syntax
client-identifier unique-identifier
no client-identifier
• unique-identifier—The identifier of the Microsoft DHCP client. The
client identifier is specified as 7 bytes of the form
XX:XX:XX:XX:XX:XX:XX where X is a hexadecimal digit.
Default Configuration
This command has no default configuration.
Command Mode
DHCP Pool Configuration mode
User Guidelines
For Microsoft DHCP clients, the identifier consists of the media type
followed by the MAC address of the client. The media type 01 indicates
Ethernet media.
Use the
show ip dhcp pool
command to display pool configuration
parameters.
Example
console(config-dhcp-pool)#client-identifier 01:03:13:18:22:33:11
console(config-dhcp-pool)#host 192.168.21.34 32
client-name
Use the client-name command in DHCP Pool Configuration mode to specify
the host name of a DHCP client. Use the no form of the command to remove
the client name configuration.
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Syntax
client-name name
no client-name
• name—The name of the DHCP client. The client name is specified as up
to 31 printable characters.
Default Configuration
There is no default client name.
Command Mode
DHCP Pool Configuration mode
User Guidelines
Use the
show ip dhcp pool
command to display pool configuration
parameters. The client name should not include the domain name as it is
specified separately by the
domain-name (IP DHCP Pool Config)
command. It
is not recommended to use embedded blanks in client names.
Question marks are not allowed in the client name. Enclose the client name
in quotes if a blank appears in the name.
Example
console(config-dhcp-pool)#client-identifier 01:03:13:18:22:33:11
console(config-dhcp-pool)#host 192.168.21.34 32
console(config-dhcp-pool)#client-name Line_Printer_Hallway
default-router
Use the default-router command in DHCP Pool Configuration mode to set
the IPv4 address of one or more routers for the DHCP client to use. Use the
no form of the command to remove the default router configuration. Use the
show ip dhcp pool
command to display pool configuration parameters.
Syntax
default-router {ip-address1}[ip address2]
no default-router
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• ip-address1—The IPv4 address of the first default router for the DHCP
client.
• ip-address2—The IPv4 address of the second default router for the DHCP
client.
Default Configuration
No default router is configured.
Command Mode
DHCP Pool Configuration mode
User Guidelines
This command has no user guidelines.
Example
console(config-dhcp-pool)#default-router 192.168.22.1 192.168.23.1
dns-server (IP DHCP Pool Config)
Use the dns-server command in IP DHCP Pool Configuration mode to set
the IP DNS server address which is provided to a DHCP client by the DHCP
server. DNS server address is configured for stateless server support.
Syntax
dns-server ip-address1
no dns-server
• ip-address1—A valid IPv4 address.
Default Configuration
This command has no default configuration.
Command Mode
IP DHCP Pool Configuration mode
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User Guidelines
This command has no user guidelines.
domain-name (IP DHCP Pool Config)
Use the domain-name command in IP DHCP Pool Configuration mode to
set the DNS domain name which is provided to a DHCP client by the DHCP
server. The DNS name is an alphanumeric string up to 255 characters in
length. Use the no form of the command to remove the domain name.
Syntax
domain-name domain
no domain-name domain
• domain — DHCP domain name. (Range: 1–255 characters)
Default Configuration
This command has no default configuration.
Command Mode
IP DHCP Pool Configuration mode
hardware-address
Use the hardware-address command in DHCP Pool Configuration mode to
specify the MAC address of a client to be manually assigned an address. Use
the no form of the command to remove the MAC address assignment.
Syntax
hardware-address hardware-address
no hardware-address
• hardware-address—MAC address of the client. Either the
XXXX.XXXX.XXXX or XX:XX:XX:XX:XX:XX form of MAC address may
be used where X is a hexadecimal digit.
Switch Management Commands 1904
Default Configuration
There are no default MAC address manual bindings.
Command Mode
DHCP Pool Configuration mode
User Guidelines
Use the
show ip dhcp pool
command to display pool configuration
parameters. It may be necessary to use the no host command prior to
executing the no hardware-address command.
Example
console(config-dhcp-pool)#hardware-address 00:23:12:43:23:54
console(config-dhcp-pool)#host 192.168.21.131 32
host
Use the host command in DHCP Pool Configuration mode to specify a
manual binding for a DHCP client host. Use the no form of the command to
remove the manual binding.
Syntax
host ip-address [netmask|prefix-length]
no host
•ip-address—IPv4 address to be manually assigned to the host identified by
the client identifier.
•netmask—An IPv4 address indicating the applicable bits of the address,
typically 255.255.255.255.
•prefix-length—A decimal number ranging from 1-30.
Default Configuration
The default is a 1 day lease.
Command Mode
DHCP Pool Configuration mode
Switch Management Commands 1905
User Guidelines
Use the
client-identifier
or
hardware-address
command prior to using this
command for an address pool. Use the
show ip dhcp pool
command to display
pool configuration parameters.
Example
console(config-dhcp-pool)#client-identifier 00:23:12:43:23:54
console(config-dhcp-pool)#host 192.168.21.131 32
ip dhcp bootp automatic
Use the ip dhcp bootp automatic command in Global Configuration mode
to enable automatic BOOTP address assignment. By default, BOOTP clients
are not automatically assigned addresses, although they may be assigned a
static address. Use the no form of the command to disable automatic BOOTP
client address assignment. Use the
show ip dhcp global configuration
command to display the automatic address assignment configuration.
Syntax
ip dhcp bootp automatic
no ip dhcp bootp automatic
Default Configuration
Automatic BOOTP client address assignment is disabled by default.
Command Mode
Global Configuration mode
User Guidelines
This command has no user guidelines.
Example
console#ip dhcp bootp automatic
Switch Management Commands 1906
ip dhcp conflict logging
Use the ip dhcp conflict logging command in Global Configuration mode to
enable DHCP address conflict detection. Use the no form of the command to
disable DHCP conflict logging.
Syntax
ip dhcp conflict logging
no ip dhcp conflict logging
Default Configuration
Conflict logging is enabled by default.
Command Mode
Global Configuration mode
User Guidelines
This command has no user guidelines.
Example
console#ip dhcp conflict logging
ip dhcp excluded-address
Use the ip dhcp excluded-address command in Global Configuration mode
to exclude one or more DHCP addresses from automatic assignment. Use the
no form of the command to allow automatic address assignment for the
specified address or address range.
Syntax
ip dhcp excluded-address low-address {high-address}
no ip dhcp excluded-address low-address {high-address}
• low-address —An IPv4 address indicating the starting range for exclusion
from automatic DHCP address assignment.
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• high-address—An IPv4 address indicating the ending range for exclusion
from automatic DHCP address assignment. The high-address must be
numerically greater than the low-address.
Default Configuration
By default, no IP addresses are excluded from the lists configured by the IP
DHCP pool configuration.
Command Mode
Global Configuration mode
User Guidelines
This command has no user guidelines.
Example
console#ip dhcp excluded-address 192.168.20.1 192.168.20.3
ip dhcp ping packets
Use the ip dhcp ping packets command in Global Configuration mode to
configure the number of pings sent to detect if an address is in use prior to
assigning an address from the DHCP pool. If neither ping is answered, the
DHCP server presumes the address is not in use and assigns the selected IP
address.
Syntax
ip dhcp ping packets {0, 2-10}
no ip dhcp ping packets
•
count
—
The number of ping packets sent to detect an address in use. The
default is 2 packets. Range 0, 2-10. A value of 0 turns off address detection. Use
the no form of the command to return the setting to the default value.
Default Configuration
The command has no default configuration.
Switch Management Commands 1908
Command Mode
Global Configuration mode
User Guidelines
This command has no user guidelines.
Example
console#ip dhcp ping packets 5
lease
Use the lease command in DHCP Pool Configuration mode to set the period
for which a dynamically assigned DHCP address is valid. Use the infinite
parameter to indicate that addresses are to be automatically assigned. Use the
no form of the command to return the lease configuration to the default. Use
the
show ip dhcp pool
command to display pool configuration parameters.
Use the
show ip dhcp binding
command to display the expiration time of the
leased IP address.
Syntax
lease {days[hours][minutes]|infinite}
no lease
• days—The number of days for the lease duration. Range 0-59. Default is 1.
• hours—The number of hours for the lease duration. Range 0-23. There is
no default.
• minutes—The number of minutes for the lease duration. Range 0-59.
There is no default.
•infinite—The lease expires in 60 days.
Default Configuration
The default lease is 1 day.
Command Mode
DHCP Pool Configuration mode
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User Guidelines
The Dell EMC Networking DHCP server does not offer infinite duration
DHCP leases. The maximum lease offered is 60 days, which corresponds to
an “infinite” setting in the UI.
Example
The following examples sets a lease period of 1 day, 12 minutes and 59
seconds.
console(config)#ip dhcp pool asd
console(config-dhcp-pool)#network 10.0.0.0 255.0.0.0
console(config-dhcp-pool)#lease 1 12 59
console(config-dhcp-pool)#exit
console(config)#show ip dhcp pool asd
Pool: asd
Pool Type...................................... Network
Network........................................ 10.0.0.0 255.0.0.0
Lease Time..................................... 1 days 12 hrs 59 mins
netbios-name-server
Use the netbios-name-server command in DHCP Pool Configuration mode
to configure the IPv4 address of the Windows Internet Naming Service
(WINS) for a Microsoft DHCP client. Use the no form of the command to
remove the NetBIOS name server configuration.
Syntax
netbios-name-server ip-address [ip-address2...ip-address8]
no netbios-name-server
• ip-address—IPv4 address
Default Configuration
There is no default name server configured.
Command Mode
DHCP Pool Configuration mode
Switch Management Commands 1910
User Guidelines
Use the
show ip dhcp pool
command to display pool configuration
parameters. Up to eight name server addresses may be specified. The
NetBIOS WINS information is conveyed in the Option 44 TLV of the DHCP
OFFER, DCHP ACK, DHCP INFORM ACK and DHCP BOOTREPLY
messages.
Example
console(config-dhcp-pool)#netbios-name-server 192.168.21.1 192.168.22.1
netbios-node-type
Use the netbios-node-type command in DHCP Pool Configuration mode to
set the NetBIOS node type for a Microsoft DHCP client. Use the no form of
the command to remove the netbios node configuration.
Syntax
netbios-node-type type
no netbios-node-type
• type—The NetBIOS node type can be b-node, h-node, m-node or p-node.
Default Configuration
There is no default NetBIOS node type configured.
Command Mode
DHCP Pool Configuration mode
User Guidelines
Use the
show ip dhcp pool
command to display pool configuration
parameters. The NetBIOS node type information is conveyed in the Option
46 TLV of the DHCP OFFER, DHCP ACK, DHCP INFORM ACK and
DHCP BOOTREPLY messages. Supported NetBIOS node types are:
• broadcast (b-node)
• peer-to-peer (p-node)
• mixed (m-node)
Switch Management Commands 1911
• hybrid (h-node)
Example
console(config-dhcp-pool)#netbios-node-type h-node
network
Use the network command in IP DHCP Pool Configuration mode to define a
pool of IPv4 addresses for distributing to clients.
Syntax
network network-number [mask | prefix-length]
• network-number—A valid IPv4 address
• mask—A valid IPv4 network mask with contiguous left-aligned bits.
• prefix-length—An integer indicating the number of leftmost bits in the
network-number to use as a prefix for allocating cells.
Default Configuration
This command has no default configuration.
Command Mode
IP DHCP Pool Configuration mode
next-server
Use the next-server command in DHCP Pool Configuration mode to set the
IPv4 address of the TFTP server to be used during auto-install. Use the no
form of the command to remove the next server configuration.
Syntax
next-server ip-address
no next-server
• ip-address—The IPv4 address of the TFTP server to use during auto-
configuration.
Switch Management Commands 1912
Default Configuration
There is no default IPv4 next server configured.
Command Mode
DHCP Pool Configuration mode
User Guidelines
Use the
show ip dhcp pool
command to display pool configuration
parameters. The IPv4 address is conveyed in the SIADDR field of the DHCP
OFFER, DHCP ACK, DHCP INFORM ACK and DHCP BOOTREPLY
messages.
Example
console(config-dhcp-pool)#next-server 192.168.21.2
option
Use the option command in DHCP Pool Configuration mode to supply
arbitrary configuration information to a DHCP client. Use the no form of the
command to remove the option configuration. Use the
show ip dhcp pool
command to display pool configuration parameters.
Syntax
option code {ascii string1|hex[string1...string8]|ip[ip-address1...ip-
address8]}
no option code
• code—The DHCP TLV option code.
• ascii string1—An ASCII character string. Strings with embedded blanks
must be wholly contained in quotes.
• hex string1—A hexadecimal string containing the characters [0-9A-F].
The string should not begin with 0x. A hex string consists of two characters
which are parsed to fill a single byte. Multiple values are separated by
blanks.
• ip-address1—An IPv4 address in dotted decimal notation.
Switch Management Commands 1913
Default Configuration
There is no default option configured.
Command Mode
DHCP Pool Configuration mode
User Guidelines
The option information must match the selected option type and length.
Options cannot be longer than 255 characters in length. The option
information is conveyed in the TLV specified by the code parameter in the
DHCP OFFER, DHCP ACK, DHCP INFORM ACK and DHCP
BOOTREPLY messages.
Option 125 strings must conform to the relevant TLV format as specified in
RFC 3925 beginning with a 2 byte pad filled in by the switch (option code
125 and option length), the 2 byte enterprise number, the data length and the
sub-option values. For example, option 125 might be written on the
command line as:
option 125 hex 0000.02a2.1205.1061.7574.6f69.6e73.7461.6c6c.5f64.6863.70
which translates to:
• 0x0000 - Two byte pad filled in by switch (option-code 125 and option-len)
• 0x02A2 - Dell Vendor code 674
• 0x12 - TLV length - 18 bytes
• 0x05 - Sub-option code 5
• 0x10 - Sub-option length - 16 bytes
• 0x6175746f696e7374616c6c5f646863.70 - Sub-option value
“autoinstall_dhcp”
Options that accept only fixed length strings need only have the relevant data
bytes specified on the command line. The switch will build the TLV and
insert the specified data bytes into the option. Refer to the relevant
documentation for the DHCP client to identify what information, if any, is
accepted by the client in DHCP Option 125.
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Table 8-1 lists the other options that can be configured and their fixed length,
minimum length, and length multiple requirements. Refer to the relevant
documentation for the DHCP client to identify what information, if any, is
accepted by the client for the options listed below.
Table 8-1. Option Codes and Lengths
Option Code Fixed Length Minimum Length Multiple Of
2 (Time Offset) 4 – –
4 (Time Server) – 4 4
7 (Log Server) – 4 4
8 (Cookie Server) – 4 4
9 (LPR Server) – 4 4
10 (Impress Server) – 4 4
11 (Resource Location
Server)
–44
12 (Host Name) – 1 –
13 (Boot File Size) 2 – –
14 (Merit File Dump) – 1 –
16 (Swap Server) 4 – –
17 (Root Path) – 1 –
18 (Extensions Path) – 1 –
19 (IP Forwarding
Enable)
1––
20 (Non-local Source
Routing)
1––
21 (Policy Filter) – 8 8
22 (Max Datagram
Reassembly)
2––
23 (IP TTL) 1 – –
24 (Path MTU Aging) 4 – –
25 (Path MTU Plateau) – 2 2
Switch Management Commands 1915
26 (Interface MTU) 2 – –
27 (Subnets are local) 1 – –
28 (Broadcast Address) 4 – –
29 (Perform Mask) 1 – –
30 (Mask Supplier) 1 – –
31 (Perform Router
Discovery)
1––
32 (Router Solicitation
Address)
4––
33 (Static Router Option) – 8 8
34 (Trailer
Encapsulation)
1––
35 (ARP Cache Timeout) 4 – –
36 (Ethernet
Encapsulation)
1––
37 (TCP TTL) 1 – –
38 (TCP Keepalive
Interval)
4––
39 (TCP Keepalive
Garbage)
1––
40 (Network Information
Service)
–1–
41 (Network Information
Servers)
–44
42 (NTP Servers) – 4 4
43 (Vendor Specific
Information)
1––
45 (NetBIOS Datagram
Distribution)
–44
47 (Netbois Scope) – 1 –
Table 8-1. Option Codes and Lengths (continued)
Option Code Fixed Length Minimum Length Multiple Of
Switch Management Commands 1916
Options 19, 20, 27, 29, 30, 31, 34, 36, and 39 only accept hex 00 or hex 01
values.
Example
console(config-dhcp-pool)#option 4 ascii “ntpservice.com “
console(config-dhcp-pool)#option 42 ip 192.168.21.1
console(config-dhcp-pool)#option 29 hex 01
console(config-dhcp-pool)#option 59 hex 00 00 10 01
console(config-dhcp-pool)#option 25 hex 01 ff
48 (X-Windows Font
Server)
–44
49 (X-Windows Display
Manager)
–44
58 (Renewal Time T1) 4 – –
59 (Rebinding Time T2) 4 – –
60 (Vendor Class) – 1 –
64 (NIS Domain) – 1 –
65 (NIS Servers) – 4 4
66 (TFTP Server) – 1 –
68 (Mobile IP Home
Agent)
–04
69 (SMTP Server) – 4 4
70 (POP3 Server) – 4 4
71 (NNTP Server) – 4 4
72 (WWW Server) – 4 4
73 (Finger Server) – 4 4
74 (IRC Server) – 4 4
75 (Streettalk Server) – 4 4
76 (STDA Server) – 4 4
Table 8-1. Option Codes and Lengths (continued)
Option Code Fixed Length Minimum Length Multiple Of
Switch Management Commands 1917
service dhcp
Use the service dhcp command in Global Configuration mode to enable the
local IPv4 DHCP server on the switch. Use the no form of the command to
disable the DHCPv4 service.
Syntax
service dhcp
no service dhcp
Default Configuration
The service is disabled by default.
Command Mode
Global Configuration mode
User Guidelines
This command has no user guidelines.
sntp
Use the sntp command in DHCP Pool Configuration mode to set the IPv4
address of the NTP server to be used for time synchronization of the client.
Use the no form of the command to remove the NTP server configuration.
Syntax
sntp ip-address
no sntp
• ip-address—The IPv4 address of the NTP server to use for time services.
Default Configuration
There is no default IPv4 NTP server configured.
Command Mode
DHCP Pool Configuration mode
Switch Management Commands 1918
User Guidelines
Use the
show ip dhcp pool
command to display pool configuration
parameters. The IPv4 address of the NTP server is conveyed in the Option 42
TLV of the DHCP OFFER, DHCP ACK, DHCP INFORM ACK and DHCP
BOOTREPLY messages.
Example
console(config-dhcp-pool)#sntp 192.168.21.2
show ip dhcp binding
Use the show ip dhcp binding command to display the configured DHCP
bindings.
Syntax
show ip dhcp binding [address]
•address—A valid IPv4 address
Default Configuration
The command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
This command has no user guidelines.
Example
console(config)# show ip dhcp binding
IP address Hardware Address Expires Type client-DUID
----------- ----------------- --------- ----- --------------
10.10.10.3 00:0e:c6:88:0e:98 00:23:56 Auto
00:01:01:02:03:04:05:06:00:0e:c6:88:0e:98
Switch Management Commands 1919
show ip dhcp conflict
Use the show ip dhcp conflict command in User Exec mode to display
DHCP address conflicts for all relevant interfaces or a specified interface. If
an interface is specified, the optional statistics parameter is available to view
statistics for the specified interface.
Syntax
show ip dhcp conflict [address]
• address—A valid IPv4 address for which the conflict information is
desired.
Default Configuration
The command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
This command has no user guidelines.
show ip dhcp global configuration
Use the show ip dhcp global configuration command to display the DHCP
global configuration.
Syntax
show ip dhcp server statistics
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
Switch Management Commands 1920
User Guidelines
This command has no user guidelines.
Example
console#show ip dhcp server statistics
show ip dhcp pool
Use the show ip dhcp pool command in User Exec or Privileged Exec mode
to display the configured DHCP pool or pools. If no pool name is specified,
information about all pools is displayed.
Syntax
show ip dhcp pool [all | poolname]
• poolname—Name of the pool. (Range: 1-32 characters)
Default Configuration
This command has no default configuration.
Command Mode
User Exec, Privileged Exec mode, Global Configuration mode and all
Configuration submodes
User Guidelines
This command has no user guidelines.
show ip dhcp server statistics
Use the show ip dhcp server statistics command to display the DHCP server
binding and message counters.
Syntax
show ip dhcp server statistics
Default Configuration
This command has no default configuration.
Switch Management Commands 1921
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
This command has no user guidelines.
Example
console#show ip dhcp server statistics
Automatic Bindings............................. 100
Expired Bindings............................... 32
Malformed Bindings............................. 0
Messages Received
---------- ----------
DHCP DISCOVER.................................. 132
DHCP REQUEST................................... 132
DHCP DECLINE................................... 0
DHCP RELEASE................................... 32
DHCP INFORM.................................... 0
Messages Sent
---------- ------
DHCP OFFER..................................... 132
DHCP ACK....................................... 132
DHCP NACK...................................... 0
Switch Management Commands 1922
DHCPv6 Server Commands
Dell EMC Networking N2000/N2100/N3000/N3100/N4000 Series
Switches
This section explains the following commands:
clear ipv6 dhcp
Use the clear ipv6 dhcp command to clear DHCPv6 statistics for all
interfaces or for a specific interface.
Syntax
clear ipv6 dhcp {statistics | interface vlan vlan-id statistics}
• vlan-id — Valid VLAN ID.
•statistics — Indicates statistics display if VLAN is specified.
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode
User Guidelines
This command has no user guidelines.
clear ipv6 dhcp service dhcp
dns-server (IPv6 DHCP Pool Config) show ipv6 dhcp
domain-name (IPv6 DHCP Pool Config) show ipv6 dhcp binding
ipv6 dhcp pool show ipv6 dhcp interface (User Exec)
ipv6 dhcp relay show ipv6 dhcp interface (Privileged Exec)
ipv6 dhcp server show ipv6 dhcp pool
prefix-delegation show ipv6 dhcp statistics
Switch Management Commands 1923
Examples
The following examples clears DHCPv6 statistics for VLAN 11.
console#clear ipv6 dhcp interface vlan 11 statistics\
dns-server (IPv6 DHCP Pool Config)
Use the dns-server command in IPv6 DHCP Pool Configuration mode to set
the IPv6 DNS server address which is provided to a DHCPv6 client by the
DHCPv6 server. DNS server address is configured for stateless server support.
Syntax
dns-server ipv6-address
no dns-server ipv6-address
• ipv6-address —Valid IPv6 address.
Default Configuration
This command has no default configuration.
Command Mode
IPv6 DHCP Pool Configuration mode
User Guidelines
This command has no user guidelines.
domain-name (IPv6 DHCP Pool Config)
Use the domain-name command in IPv6 DHCP Pool Configuration mode to
set the DNS domain name which is provided to a DHCPv6 client by the
DHCPv6 server. DNS domain name is configured for stateless server support.
Syntax
domain-name domain
no domain-name domain
• domain — DHCPv6 domain name. (Range: 1–255 characters)
Switch Management Commands 1924
Default Configuration
This command has no default configuration.
Command Mode
IPv6 DHCP Pool Configuration mode
User Guidelines
DHCPv6 pool can have multiple number of domain names with maximum of
8.
Example
The following example sets the DNS domain name “test”, which is provided
to a DHCPv6 client by the DHCPv6 server.
console(config)#ipv6 dhcp pool addrpool
console(config-dhcp6s-pool)#domain-name test
console(config-dhcp6s-pool)#no domain-name test
ipv6 dhcp pool
This capability requires the IPv6 DHCP service to be enabled. Use the service
dhcpv6 command to enable the DHCPv6 service. Use the ipv6 dhcp pool
command in Global Configuration mode to enter IPv6 DHCP Pool
Configuration mode. DHCPv6 pools are used to specify information for
DHCPv6 server to distribute to DHCPv6 clients. These pools are shared
between multiple interfaces over which DHCPv6 server capabilities are
configured.
Syntax
ipv6 dhcp pool pool-name
no ipv6 dhcp pool pool-name
• pool-name — DHCPv6 pool name. (Range: 1-31 characters)
Default Configuration
This command has no default configuration.
Switch Management Commands 1925
Command Mode
Global Configuration mode
User Guidelines
This command has no user guidelines.
Example
The following example enters IPv6 DHCP Pool Configuration mode.
console(config)#service dhcpv6
console(config)#ipv6 dhcp pool addrpool
console(config-dhcp6s-pool)#
ipv6 dhcp relay
Use the ipv6 dhcp relay command in Interface Configuration mode to
configure an interface for DHCPv6 relay functionality.
Syntax
ipv6 dhcp relay {destination relay-address [interface vlan vlan-id] | interface
vlan vlan-id}[remote-id {duid-ifid | user-defined-string}]
•destination — Keyword that sets the relay server IPv6 address.
• relay-address — An IPv6 address of a DHCPv6 relay server.
•interface — Sets the relay server interface.
• vlan-id — A valid VLAN ID.
•
[
remote-id
{
duid-ifid
|
user-defined-string
}]
— The Relay Agent
Information Option “remote ID” suboption to be added to relayed
messages. This can either be the special keyword duid-ifid, which causes
the “remote ID” to be derived from the DHCPv6 server DUID and the
relay interface number, or it can be specified as a user-defined string.
Default Configuration
This command has no default configuration.
Command Mode
Interface Configuration (VLAN, Tunnel) mode
Switch Management Commands 1926
User Guidelines
The IPv6 DHCP service must be enabled to use this feature. Enable the IPv6
DHCP service using the service dhcpv6 command. If relay-address is an IPv6
global address, then relay-interface is not required. If relay-address is a link-
local or multicast address, then relay-interface is required. Finally, a value for
relay-address is not specified, then a value for relay-interface must be
specified and the DHCPV6-ALLAGENTS multicast address (i.e. FF02::1:2)
is used to relay DHCPv6 messages to the relay server. An IP interface (VLAN)
can be configured in DHCP relay mode or DHCP server mode. Configuring
an interface in DHCP relay mode overwrites the DHCP server mode and vice-
versa.
An IP interface configured in relay mode cannot be configured as a DHCP
client (ip address dhcp).
Example
The following example configures VLAN 15 for DHCPv6 relay functionality.
console(config)#service dhcpv6
console(config)#interface vlan 15
console(config-if-vlan15)#ipv6 dhcp relay destination 2020:1::1
ipv6 dhcp server
Use the ipv6 dhcp server command in Interface Configuration mode to
configure DHCPv6 server functionality on an interface. For a particular
interface DHCPv6 server and DHCPv6 relay functions are mutually exclusive.
Syntax
ipv6 dhcp server pool-name [rapid-commit] [preference pref-value]
• pool-name — The name of the DHCPv6 pool containing stateless and/or
prefix delegation parameters
•rapid-commit — An option that allows for an abbreviated exchange
between the client and server.
• pref-value — Preference value
—
used by clients to determine preference
between multiple DHCPv6 servers. (Range: 0-4294967295)
Switch Management Commands 1927
Default Configuration
The default preference value is 20. Rapid commit is not enabled by default.
Command Mode
Interface Configuration (VLAN, Tunnel) mode
User Guidelines
This feature requires the IPv6 DHCP service. Enable the IPv6 DHCP service
using the service dhcpv6 command. The ipv6 dhcp server command enables
DHCP for IPv6 service on a specified interface using the pool for prefix
delegation and other configuration through that interface.
The rapid-commit keyword enables the use of the two-message exchange for
prefix delegation and other configuration. If a client has included a rapid
commit option in the solicit message and the rapid-commit keyword is
enabled for the server, the server responds to the solicit message with a reply
message.
If the preference keyword is configured with a value other than 0, the server
adds a preference option to carry the preference value for the advertise
messages. This action affects the selection of a server by the client. Any
advertise message that does not include a preference option is considered to
have a preference value of 0. If the client receives an advertise message that
includes a preference option with a preference value of 255, the client
immediately sends a request message to the server from which the advertise
message was received.
The DHCP for IPv6 client, server, and relay functions are mutually exclusive
on an interface. When one of these functions is already enabled and a user
tries to configure a different function on the same interface, a message is
displayed.
Example
console#configure
console(config)#service dhcpv6
console(config)# ipv6 dhcp pool pool1
console(config-dhcp6s-pool)# address prefix-delegation 2001::/64
00:01:32:00:32:00
console(config-dhcp6s-pool)# exit
console(config)#interface vlan 10
console(config-if-vlan10)#ipv6 dhcp server pool1
console(config-if-vlan10)#
Switch Management Commands 1928
prefix-delegation
Use the prefix-delegation command in IPv6 DHCP Pool Configuration mode
to define multiple IPv6 prefixes within a pool for distributing to specific
DHCPv6 Prefix delegation clients.
Syntax
prefix-delegation ipv6-prefix/prefix-length client-DUID [name hostname]
[valid-lifetime {valid-lifetime | infinite}] [preferred-lifetime {preferred-
lifetime | infinite}]
no prefix-delegation ipv6-prefix/prefix-length
• prefix/prefix-length—Delegated IPv6 prefix.
• client-DUID—Client DUID (e.g. 00:01:00:09:f8:79:4e:00:04:76:73:43:76').
• hostname—Client hostname used for logging and tracing. (Range: 0-31
characters.) The command allows spaces in the host name when specified
in double quotes. For example,
console(config)#snmp-server host “host
name”
is allowed.
• valid-lifetime—Valid lifetime for delegated prefix. (Range: 0-4294967295
seconds) or use the keyword infinite. Using the value 0 for the valid-
lifetime sets the value to the default.
• preferred-lifetime—Preferred lifetime for delegated prefix. (Range: 0-
4294967295 seconds) or use the keyword infinite. Using the value 0 for the
preferred-lifetime sets the value to the default.
Default Configuration
604800 seconds (30 days) is the default value for preferred-lifetime. 2592000
seconds (7 days) is the default value for valid-lifetime.
Command Mode
IPv6 DHCP Pool Configuration mode
User Guidelines
This command has no user guidelines.
Switch Management Commands 1929
Example
The following example defines a Multiple IPv6 prefix and client DUID within
a pool for distributing to specific DHCPv6 Prefix delegation clients.
console(config)#ipv6 dhcp pool addrpool
console(config-dhcp6s-pool)#prefix-delegation 2020:1::1/64
00:01:00:09:f8:79:4e:00:04:76:73:43:76
The following example defines a unique local address prefix with the MAC
address 00:1D:BA:06:37:64 converted to EUI-64 format and a preferred
lifetime of 5 days.
console(config-dhcp6s-pool)#prefix-delegation fc00::/7
00:1D:BA:FF:FE:06:37:64 preferred-lifetime 43200
service dhcpv6
Use the service dhcpv6 command in Global Configuration mode to enable
local IPv6 DHCP server on the switch. Use the no form of the command to
disable the DHCPv6 service.
Syntax
service dhcpv6
no service dhcpv6
Default Configuration
The service dhcpv6 is disabled by default.
Command Mode
Global Configuration mode
User Guidelines
IPv6 DHCP relay and IPv6 DHCPv6 pool assignments require the DHCPv6
service to be enabled.
Example
The following example enables DHCPv6 globally.
console#configure
console(config)#service dhcpv6
console(config)#no service dhcpv6
Switch Management Commands 1930
show ipv6 dhcp
Use the show ipv6 dhcp command to display the DHCPv6 server name and
status.
Syntax
show ipv6 dhcp
Default Configuration
This command has no default configuration.
Command Mode
User Exec, Privileged Exec modes, Global Configuration mode and all
Configuration submodes
User Guidelines
The DUID value of the server will only appear in the output when a DHCPv6
lease is active.
Example
The following example displays the DHCPv6 server name and status.
console#show ipv6 dhcp
DHCPv6 is disabled
Server DUID:
show ipv6 dhcp binding
Use the show ipv6 dhcp binding command to display the configured DHCP
pool.
Syntax
show ipv6 dhcp binding [ipv6-address]
• ipv6-address — Valid IPv6 address.
Default Configuration
This command has no default configuration.
Switch Management Commands 1931
Command Mode
Privileged Exec and User Exec modes, Global Configuration mode and all
Configuration submodes
User Guidelines
This command has no user guidelines.
Example
The following example displays the configured DHCP pool based on the
entered IPv6 address.
console#show ipv6 dhcp binding 2020:1::
show ipv6 dhcp interface (User Exec)
Use the show ipv6 dhcp interface command in User Exec mode to display
DHCPv6 information for all relevant interfaces or for the specified interface.
If an interface is specified, the optional statistics parameter is available to
view statistics for the specified interface.
Syntax
show ipv6 dhcp interface [interface-id] [statistics]
• interface-id—A tunnel or VLAN interface identifier. See Interface Naming
Conventions for interface representation.
•
statistics
—
Enables statistics display if interface is specified.
Default Configuration
This command has no default configuration.
Command Mode
User Exec, Privileged Exec modes, Global Configuration mode and all
Configuration submodes
User Guidelines
Statistics are shown depending on the interface mode (relay, server, or client).
Switch Management Commands 1932
Examples
The following examples display DHCPv6 information for VLAN 11 when
configured in relay mode.
console> show ipv6 dhcp interface vlan 11
IPv6 Interface................................. vlan11
Mode........................................... Relay
Relay Address.................................. 2020:1::1
Relay Interface Number......................... Relay
Relay Remote ID................................
Option Flags...................................
console> show ipv6 dhcp interface vlan 11 statistics
DHCPv6 Interface vlan11 Statistics
------------------------------------
DHCPv6 Solicit Packets Received................ 0
DHCPv6 Request Packets Received................ 0
DHCPv6 Confirm Packets Received................ 0
DHCPv6 Renew Packets Received.................. 0
DHCPv6 Rebind Packets Received................. 0
DHCPv6 Release Packets Received................ 0
DHCPv6 Decline Packets Received................ 0
DHCPv6 Inform Packets Received................. 0
DHCPv6 Relay-forward Packets Received.......... 0
DHCPv6 Relay-reply Packets Received............ 0
DHCPv6 Malformed Packets Received.............. 0
Received DHCPv6 Packets Discarded.............. 0
Total DHCPv6 Packets Received.................. 0
DHCPv6 Advertisement Packets Transmitted....... 0
DHCPv6 Reply Packets Transmitted............... 0
DHCPv6 Reconfig Packets Transmitted............ 0
DHCPv6 Relay-reply Packets Transmitted......... 0
DHCPv6 Relay-forward Packets Transmitted....... 0
Total DHCPv6 Packets Transmitted............... 0
show ipv6 dhcp interface (Privileged Exec)
Use the show ipv6 dhcp interface command to display configuration and
status information about an IPv6 DHCP interface or all interfaces.
Syntax
show ipv6 dhcp interface [interface-id]{statistics}
• interface-id—Any valid IP interface. See Interface Naming Conventions
for interface representation.
Switch Management Commands 1933
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec, Global Configuration mode and all Configuration submodes
User Guidelines
This command shows the DHCP status. Information displayed depends on
the mode.
The command output provides the following information for an interface
configured in client mode. Not all fields will be shown for an inactive client.
Term Description
Mode Displays whether the specified interface is in Client, Relay, or
Server mode.
State State of the DHCPv6 Client on this interface. The valid values
are:
INACTIVE, SOLICIT, REQUEST, ACTIVE, RENEW,
REBIND, RELEASE.
Server DUID DHCPv6 Unique Identifier of the DHCPv6 Server on this
interface.
T1 Time The T1 (in seconds) time as indicated by the DHCPv6 Server.
T1 value indicates the time interval after which the address is
requested for renewal.
T2 Time The T2 (in seconds) time as indicated by the DHCPv6 Server.
T2 value indicates the time interval after which the Client
sends Rebind message to the Server in case there are no replies
to the Renew messages.
Interface IAID An identifier for an identity association chosen by this Client.
Leased Address The IPv6 address leased by the DHCPv6 Server for this
interface.
Preferred Lifetime The preferred life time (in seconds) of the IPv6 Address leased
by the DHCPv6 Server.
Switch Management Commands 1934
Example
The following example shows the output from this command when the
device has leased an IPv6 address from the DHCPv6 server on interface
Gi1/0/1.
NOTE: Note that the interface is in client mode.
console#show ipv6 dhcp interface vlan 2
IPv6 Interface................................. Vl2
Mode........................................... Client
State.......................................... ACTIVE
Server DUID....................................
00:03:00:01:00:13:c4:db:6c:00
T1 Time........................................ 0 days 12 hrs 0 mins 0 secs
T2 Time........................................ 0 days 19 hrs 12 mins 0 secs
Interface IAID................................. 20
Leased Address................................. 2017::309D:161:4EF1:DBB1/128
Preferred Lifetime............................. 1 days 0 hrs 0 mins 0 secs
Valid Lifetime................................. 2 days 0 hrs 0 mins 0 secs
Renew Time..................................... 0 days 11 hrs 55 mins 28 secs
Expiry Time.................................... 1 days 23 hrs 55 mins 28 secs
console#show ipv6 dhcp interface vlan 10
IPv6 Interface................................. Vl10
Mode........................................... Relay
Relay Address.................................. 3030::3
Relay Interface Number......................... Relay
Relay Remote ID................................
Option Flags...................................
console#show ipv6 dhcp interface vlan 10
IPv6 Interface................................. Vl10
Mode........................................... Server
Pool Name...................................... asd
Server Preference.............................. 20
Valid Lifetime The valid life time (in seconds) of the IPv6 Address leased by
the DHCPv6 Server.
Renew Time The time remaining (in seconds) to send a DHCPv6 Renew
request to DHCPv6 Server for the leased address.
Expiry Time The time (in seconds) when the DHCPv6 leased address
expires.
Term Description
Switch Management Commands 1935
Option Flags...................................
console#show ipv6 dhcp interface vlan 10 statistics
DHCPv6 Server Interface Vl10 Statistics
DHCPv6 Solicit Packets Received................ 0
DHCPv6 Request Packets Received................ 0
DHCPv6 Confirm Packets Received................ 0
DHCPv6 Renew Packets Received.................. 0
DHCPv6 Rebind Packets Received................. 0
DHCPv6 Release Packets Received................ 0
DHCPv6 Decline Packets Received................ 0
DHCPv6 Inform Packets Received................. 0
DHCPv6 Relay-forward Packets Received.......... 0
DHCPv6 Relay-reply Packets Received............ 0
DHCPv6 Malformed Packets Received.............. 0
Received DHCPv6 Packets Discarded.............. 0
Total DHCPv6 Packets Received.................. 0
DHCPv6 Advertisement Packets Transmitted....... 0
DHCPv6 Reply Packets Transmitted............... 0
DHCPv6 Reconfig Packets Transmitted............ 0
DHCPv6 Relay-reply Packets Transmitted......... 0
DHCPv6 Relay-forward Packets Transmitted....... 0
Total DHCPv6 Packets Transmitted............... 0
console#show ipv6 dhcp interface vlan 10 statistics
DHCPv6 Client Interface Vl10 Statistics
---------------------------------------------------------
DHCPv6 Advertisement Packets Received................. 0
DHCPv6 Reply Packets Received......................... 0
Received DHCPv6 Advertisement Packets Discarded....... 0
Received DHCPv6 Reply Packets Discarded............... 0
DHCPv6 Malformed Packets Received..................... 0
Total DHCPv6 Packets Received......................... 0
DHCPv6 Solicit Packets Transmitted.................... 0
DHCPv6 Request Packets Transmitted.................... 0
DHCPv6 Renew Packets Transmitted...................... 0
DHCPv6 Rebind Packets Transmitted..................... 0
DHCPv6 Release Packets Transmitted.................... 0
Total DHCPv6 Packets Transmitted...................... 0
show ipv6 dhcp pool
Use the show ipv6 dhcp pool command to display the configured DHCP
pool.
Switch Management Commands 1936
Syntax
show ipv6 dhcp pool poolname
• poolname — Name of the pool. (Range: 1-32 characters)
Default Configuration
This command has no default configuration.
Command Mode
User Exec, Privileged Exec modes, Global Configuration mode and all
Configuration submodes
User Guidelines
This command has no user guidelines.
Example
The following example displays the configured DHCP pool.
console#show ipv6 dhcp pool test
DHCPv6 Pool: test
show ipv6 dhcp statistics
Use the show ipv6 dhcp statistics command in User Exec mode to display the
global DHCPv6 server and relay statistics.
Syntax
show ipv6 dhcp statistics
Default Configuration
This command has no default configuration.
Command Mode
User Exec mode, Global Configuration mode and all Configuration
submodes
Switch Management Commands 1937
User Guidelines
This command has no user guidelines.
Example
The following example displays the DHCPv6 server name and status.
console> show ipv6 dhcp statistics
DHCPv6 Interface Global Statistics
------------------------------------
DHCPv6 Solicit Packets Received................ 0
DHCPv6 Request Packets Received................ 0
DHCPv6 Confirm Packets Received................ 0
DHCPv6 Renew Packets Received.................. 0
DHCPv6 Rebind Packets Received................. 0
DHCPv6 Release Packets Received................ 0
DHCPv6 Decline Packets Received................ 0
DHCPv6 Inform Packets Received................. 0
DHCPv6 Relay-forward Packets Received.......... 0
DHCPv6 Relay-reply Packets Received............ 0
DHCPv6 Malformed Packets Received.............. 0
Received DHCPv6 Packets Discarded.............. 0
Total DHCPv6 Packets Received.................. 0
DHCPv6 Advertisement Packets Transmitted....... 0
DHCPv6 Reply Packets Transmitted............... 0
DHCPv6 Reconfig Packets Transmitted............ 0
DHCPv6 Relay-reply Packets Transmitted......... 0
DHCPv6 Relay-forward Packets Transmitted....... 0
Total DHCPv6 Packets Transmitted............... 0
Switch Management Commands 1938
HiveAgent Commands
The commands in this section enable configuration of the Dell HiveAgent.
Commands in this Section
This section explains the following commands:
eula-consent
Use the eula-consent command to accept or decline the end-user license
agreement (EULA) for the hive agent. If accepted, the latest version of the
HiveAgent starts. If declined, all Hive Agent applications are stopped.
Syntax
eula-consent {hiveagent} {accept | reject}
•hiveagent—Enter the keyword hiveagent to either accept or reject the
EULA for the HiveAgent.
•accept — Accepts the EULA for the specified service.
•reject — Rejects the EULA for the specified service.
Default Configuration
The default is eula-consent hiveagent accept.
Command Mode
Global Configuration
eula-consent proxy-ip-address
hiveagent url
server show hiveagent status
enable show eula-consent hiveagent
Switch Management Commands 1939
User Guidelines
Messages are shown for both the accept and reject use cases with information
directing the user to URLs for further information. If the user rejects or has
not yet accepted the EULA, the configuration mode for the specified service
is not usable. If there is existing configuration for that feature, the
configuration is not removed, but the feature is disabled.
This command can be executed multiple times. It overwrites the previous
information each time. The collected information is stored in the running-
config. The administrator must write the configuration in order to persist it
across reboots. If the administrator clears the config, this information must
be reconfigured.
Command History
Introduced in version 6.3.0.1 firmware.
Example
console(config)# eula-consent hiveagent accept
This switch includes a feature that enables it to work with HiveManager (an
optional management suite), by sending the switch’s service tag number to
HiveManager to authenticate your entitlement to use HiveManager. If you wish
to disable this feature, you should run command “eula-consent hiveagent
reject” immediately upon powering up the switch for the first time, or at any
time thereafter.
console(config)# eula-consent hiveagent reject
I do not accept the terms of the license agreement. The HiveAgent feature has
been deactivated and can no longer be used. To enable HiveAgent
configurations, accept the terms of the license agreement by configuring this
command 'eula-consent hiveagent accept'.
hiveagent
Use the hiveagent command to access the HiveAgent configuration mode.
Use the no form of the command to remove the configured Dell HiveAgent
information.
Syntax
hiveagent
Switch Management Commands 1940
no hiveagent
Default Configuration
By default, no HiveManager NG is configured by default.
Command Mode
Global Configuration
User Guidelines
This command enters HiveAgent Configuration mode. It allows the
administrator to configure HiveAgent information. The configured
information is stored in the running config. Use the write command to save
the information into the startup-config.
Command History
Introduced in version 6.3.0.1 firmware.
Example
In this example, the HiveAgent EULA has been accepted.
console(config)#hiveagent
console(conf-hiveagent)#
In this example, the HiveAgent EULA has been rejected.
console(config)#hiveagent
HiveAgent EULA has not been accepted.
The HiveAgent cannot be configured until the HiveAgent EULA is accepted.
console(config)#
server
Use the server command to configure a HiveAgent server (HiveManager NG)
and enter HiveAgent server configuration mode. Use the no form of the
command to remove a HiveAgent server.
Switch Management Commands 1941
Syntax
server server-name
no server server-name
server-name — The name of the server. The server name has a maximum
length of 20 characters. Any printable character other than a question mark
may be used in the server name. Enclose the server name in quotes if an
embedded blank is desired in the server name.
Default Configuration
The default server HiveManagerNG is configured.
Command Mode
HiveAgent Configuration
User Guidelines
The server-name is used as a reference only and is not required to be used as
part of a URL definition. The server name can consist of any alphanumeric
character plus dashes or underscores.
Use the exit command to exit HiveAgent Server configuration mode.
Command History
Introduced in version 6.3.0.1 firmware.
Example
console(config)# hiveagent
console(conf-hiveagent)#server HiveManagerNG
console(conf-hiveagent-HiveManagerNG)#
enable
Use the enable command to enable a HiveAgent server. Use the no form of
the command to disable a HiveAgent server.
Syntax
enable
Switch Management Commands 1942
no enable
Default Configuration
By default, the default server is enabled. It may be disabled using the no
enable form of the command.
Command Mode
HiveAgent Server Configuration
User Guidelines
Only one HiveAgent server (HiveManager NG) can be enabled.
Command History
Introduced in version 6.3.0.1 firmware.
Example
console(config)# hiveagent
console(conf-hiveagent)#server HiveManagerNG
console(conf-hiveagent-HiveManagerNG)#enable
proxy-ip-address
Use the proxy-ip-address command to configure a proxy server to be used to
contact the HiveManager NG. Use the no form of the command to remove
the proxy server information.
Syntax
proxy-ip-address {ipv4-address | ipv6-address} port port-number username
userid password [encryption-type] password
no proxy-ip-address
• ipv4-address — The IPv4 address of the proxy server in dotted decimal
notation.
• ipv6-address — The IPv6 address of the proxy server in IPv6 notation.
• port-number — The TCP port number of the proxy server. The range is
1–65535. The default is 443.
• userid — The user name used to log into the proxy server.
Switch Management Commands 1943
• encryption-type— 0 indicates an unencrypted password; 7 indicates an
encrypted password.
• password— An unencrypted or encrypted password. The maximum
length is 64 characters for an unencrypted password. Encrypted
passwords must be 128 characters in length.
Default Configuration
By default, no proxy is configured.
By default, passwords are entered as unencrypted and are always displayed
and stored encrypted.
Command Mode
HiveAgent Server Configuration
User Guidelines
Passwords are always stored and displayed as encrypted, even if entered in
unencrypted format.
Example
console(config)#support-assist
console(conf-support-assist)#server 10.0.0.1
console(conf-support-assist-10.0.0.1)#proxy-ip-address 10.0.0.2 port 1025
username admin password 0 password
Command History
Introduced in version 6.3.0.1 firmware.
url
Use the url command to configure the URL to reach on HiveManager NG.
Use the no form of the command to remove the URL information.
Syntax
url uniform-resource-locator
no url
Switch Management Commands 1944
• uniform-resource-locator — A text string for the URL using one of the
following formats: hostip or hostname
Default Configuration
By default, the HiveManagerNG URL is cloud-rd.aerohive.com.
Command Mode
HiveAgent Server Configuration
User Guidelines
The hostip for HiveManager NG may be specified as an IPv4 address, an IPv6
address or as a DNS hostname. If using the DNS hostname, the DNS resolver
feature will need to be configured, enabled and operational.
Command History
Introduced in version 6.3.0.1 firmware.
Example
console(config)#hiveagent
console(conf-hiveagent)" server HiveManagerNG
console(conf-hiveagent-HiveManagerNG)#url cloud-rd.aerohive.com
show hiveagent status
Use the show hiveagent status command to display information on the
HiveAgent configuration. The status can be obtained from the HiveManager
NG web page.
Syntax
show hiveagent status
Default Configuration
This command has no defaults.
Switch Management Commands 1945
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
There are no user guidelines for this command.
Command History
Introduced in version 6.3.0.1 firmware.
Example
console# show hiveagent status
HiveAgent: Enabled
EULA: Accepted
HiveManager Server Name: HiveManagerNG
HiveManager NG (enabled):
HiveAgent Version.............................. 1.0.1
HiveAgent Status............................... CONTACTING REDIRECTOR
HiveAgent AssociationUrl....................... -
HiveAgent AssociationMethod.................... REDIRECTOR
HiveAgent PollUrl.............................. -
HiveAgent RedirectorFQDN....................... cloud-rd.aerohive.com
HiveAgent RedirectorResponse................... CURL code [28], HTTP code
[0], Curl string = [Timeout was reached]
show eula-consent hiveagent
Use the show eula-consent command to review the EULA details. Displaying
the EULA details does not modify the current state of EULA acceptance for
that feature.
Syntax
show eula-consent hiveagent
Default Configuration
The HiveAgent EULA is Accepted by default.
Switch Management Commands 1946
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
Acceptance of the HiveAgent EULA is enabled by default.
Command History
Introduced in version 6.3.0.1 firmware.
Example
console#show eula-consent hiveagent
HiveAgent EULA has been: Accepted
This switch includes a feature that enables it to work with HiveManager (an
optional management suite), by sending the switch’s service tag number to
HiveManager to authenticate your entitlement to use HiveManager. If you wish
to disable this feature, you should run command “eula-consent hiveagent
reject” immediately upon powering up the switch for the first time, or at any
time thereafter.
Switch Management Commands 1947
IP Addressing Commands
Dell EMC Networking N1100-ON/N1500/N2000/N2100-
ON/N3000/N3100-ON/N4000 Series Switches
Interfaces on the Dell EMC Networking switches support a variety of
capabilities to support management of the switch. In addition to performing
switching and routing of network traffic, Dell EMC Networking switches act
as a host for management of the switch. Commands in this category allow the
network operator to configure the local host address, utilize the embedded
DHCP client to obtain an address, resolve names to addresses using DNS
servers, and detect address conflicts on the local subnet.
There are two management interface types on Dell EMC Networking
switches. In-band interfaces allow management of the switch through the
network switching/routing interfaces. Out-of-band management is always
through the dedicated out-of-band interface. The serial port on the stack
master provides a direct console interface supporting a CLI. In-band
management interfaces can employ a variety of protection mechanisms
including VLAN assignment and Management ACLs. The out-of-band port
does not support such protection mechanisms and, therefore, it is
recommended that the out-of-band interface only be connected to a
physically segregated management network.
Commands in this Section
This section explains the following commands:
clear host ip name-server source-interface
clear ip address-conflict-detect ipv6 address (Interface Configuration)
interface out-of-band ipv6 address dhcp
ip address ipv6 enable (Interface Configuration)
ip address (Out-of-Band) ipv6 enable (OOB Configuration)
ip address-conflict-detect run ipv6 gateway (OOB Configuration)
ip address dhcp (Interface Configuration) show hosts
ip default-gateway show ip address-conflict
Switch Management Commands 1948
clear host
Use the clear host command to delete entries from the host name-to-address
cache.
Syntax
clear host {name | *}
• name — Host name to be deleted from the host name-to-address cache.
(Range: 1-255 characters)
•* — Deletes all entries in the host name-to-address cache.
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode
User Guidelines
This command has no user guidelines.
Example
The following example deletes all entries from the host name-to-address
cache.
console#clear host *
clear ip address-conflict-detect
Use the clear ip address-conflict-detect command to clear the address
conflict detection status in the switch.
ip domain-lookup show ip helper-address
ip domain-name show ipv6 dhcp interface out-of-band
statistics
ip host show ipv6 interface out-of-band
Switch Management Commands 1949
Syntax
clear ip address-conflict-detect [vrf vrf-name]
• vrf-name—The name of the VRF instance on which the command
operates. If no VRF parameter is given, counters for the default (global)
router instance is cleared.
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode
User Guidelines
The VRF identified in the parameter must have been previously created or an
error is returned. Virtual Router Configuration mode is only available on the
Dell EMC Networking N3000/N3100-ON/N4000 switches.
Example
console#clear ip address-conflict-detect
interface out-of-band
Use the interface out-of-band command to enter into OOB interface
configuration mode.
Syntax
interface out-of-band
Default Configuration
This command has no default configuration.
Command Mode
Global Configuration
Switch Management Commands 1950
User Guidelines
This command is not available on the N1100-ON/N1500/N2000 Series
switches, nor on the N2128PX-ON switch.
Example
console(config)#interface out-of-band
console(config-if)#
ip address
Use the ip address command in Interface Configuration mode to configure
an IP address on an in-band interface. Also use this command to configure
one or more secondary IP addresses on the interface. The ip address none
command clears the currently assigned IPv4 address and sets the IP address
configuration method to none. The no ip address command clears the
currently assigned IPv4 address sets the IP address configuration method to
the default (whatever the default is). Use the show ip interface command to
display the configured IP addresses.
Syntax
ip address ip-address {subnet-mask | prefix-length} [secondary]
no ip address ip-address {subnet-mask | prefix-length} [secondary]
• ip-address — IP address of the interface.
• subnet-mask — Subnet mask of the interface
• prefix-length — Length of the prefix. Must be preceded by a forward slash
(/). (Range: 1-30 bits)
•secondary — Indicates the IP address is a secondary address.
Default Configuration
The N1500/N2000/N2100-ON default IPv4 address assignment method is
DHCP on VLAN 1.
The N3000/N3100/N4000 default IPv4 address assignment method on VLAN
1 is none.
Switch Management Commands 1951
Command Mode
Interface Configuration (VLAN, Loopback) mode
User Guidelines
This command also implicitly enables the VLAN or loopback interface for
routing (i.e. as if the user had issued the ‘routing’ interface command). By
default, configuring an IP address on a VLAN enables in-band management
for interfaces configured with that VLAN. Setting up an IP address on VLAN
1 enables switch management on all in-band interfaces except for those where
VLAN 1 is specifically excluded.
IP addresses assigned to Ethernet interfaces support up to 31 bit subnet
masks. IP addresses assigned to loopback ports support a full 32 bit subnet
mask.
Example
The following example defines the IP address and subnet mask for VLAN 15
and enables the VLAN for routing.
console(config)#interface vlan 15
console(config-if-vlan15)#ip address 192.168.10.10 255.255.255.0
ip address (Out-of-Band)
Use the ip address command in Interface Configuration mode to set an IP
address for the out-of-band interface. Use the no form of this command to
return the ip address configuration to its default value.
Syntax
ip address {ip-address {mask | prefix-length} | dhcp}
no ip address
• ip-address—Specifies a valid IPv4 address in dotted-quad notation.
• mask—Specifies a valid subnet (network) mask IPv4 address in dotted
quad notation.
• prefix-length—The number of bits that comprise the IP address prefix.
The prefix length must be preceded by a forward slash (/). (Range: 1-30
bits)
Switch Management Commands 1952
•dhcp—Obtain the out-of-band interface address via DHCPv4.
Default Configuration
The out-of-band interface (service port) obtains an IP address via DHCP by
default.
Command Mode
Interface (Out-of-Band) Configuration mode
User Guidelines
When setting the netmask/prefix length on an IPv4 address, a space is
required between the address and the mask or prefix length. Setting an IP
address on the out-of-band port enables switch management over the out-of-
band port.
In order to ensure the security of the switches from intruders, it is strongly
recommended that the out-of-band interface be isolated on a physically
separate network from the in-band ports. This command is only valid for
switches equipped with an out-of-band interface.
Example
The following examples configure the out-of-band interface with an IP
address 131.108.1.27 and subnet mask 255.255.255.0 and the same IP address
with prefix length of 24 bits.
console(config)#interface out-of-band
console(config-if)#ip address 131.108.1.27 255.255.255.0
console(config-if)#ip address 131.108.1.27 /24
ip address-conflict-detect run
Use the ip address-conflict-detect run command in Global Configuration
mode to trigger the switch to run active address conflict detection by sending
gratuitous ARP packets for IPv4 addresses on the switch.
Syntax
ip address–conflict–detect run
Switch Management Commands 1953
Default Configuration
This command has no default configuration.
Command Mode
Global Configuration mode, Virtual Router Configuration mode.
User Guidelines
When in virtual router configuration mode, this command operates within
the context of the virtual router instance. When in global config mode, the
command operates on the global router instance.
Virtual Router Configuration mode is only available on the Dell EMC
Networking N3000/N3100-ON/N4000 switches.
Example
console#configure
console(config)#ip address-conflict-detect run
ip address dhcp (Interface Configuration)
Use the ip address dhcp command in Interface (VLAN) Configuration mode
to enable the DHCPv4 client on an interface.
Syntax
ip address dhcp
no ip address dhcp
Default Configuration
DHCPv4 is disabled by default on routing interfaces.
Command Mode
Interface (VLAN) Configuration mode
Switch Management Commands 1954
User Guidelines
This command only applies to routing interfaces. When DHCP is enabled on
a routing interface, the system automatically deletes all manually configured
IPv4 addresses on the interface.
• The command no ip address removes the interface’s primary address
(Manual/DHCP) including the secondary addresses, if configured, and sets
the Interface method to None.
• The command no ip address dhcp removes the interface’s primary address
only if configured through DHCP and sets the interface method to None.
It does not remove a manually configured address.
In addition to leasing an IP address and subnet mask, the DHCP client may
learn the following parameters from a DHCP server:
• The IPv4 address of a default gateway. If the device learns different default
gateways on different interfaces, the system uses the first default gateway
learned. The system installs a default route in the routing table, with the
default gateway’s address as the next hop address. This default route has a
preference of 254.
• The IPv4 address of a DNS server. The DNS client stores each DNS server
address in its server list.
• A domain name. The DNS client stores each domain name in its domain
name list.
Examples
To enable DHCPv4 on vlan 2:
console#config
console(config)#interface vlan 2
console(config-if-vlan2)#ip address dhcp
ip default-gateway
Use the ip default-gateway command to configure a default gateway (router).
Syntax
ip default-gateway ip-address
no ip default-gateway ip-address
Switch Management Commands 1955
• ip-address—Valid IPv4 address of an attached router.
Default Configuration
No default gateway is defined.
Command Mode
Global Configuration mode, Virtual Router Configuration mode
User Guidelines
When the system does not have a more specific route to a packet’s
destination, it sends the packet to the default gateway. The system installs a
default IPv4 route with the gateway address as the next hop address. The
route preference is 253. A default gateway configured with this command is
more preferred than a default gateway learned from a DHCP server, which has
a route preference of 254. It is less preferred than a static route configured via
the
ip route
command, which has a route preference of 1. Use the
show ip
route
command to display the active default gateway.
Only one default gateway can be configured. If you invoke this command
multiple times, each command replaces the previous value. When in Virtual
Router Configuration mode, this command operates within the context of
the virtual router instance. When in Global Configuration mode, the
command operates on the global router instance.
Virtual Router Configuration mode is only available on the Dell EMC
Networking N3000/N3100-ON/N4000 switches.
Setting a default gateway on the in-band network may make indirectly
connected hosts on the out-of-band network unreachable. Dell EMC N1100-
ON switches support configuration of a single default gateway. If a
subsequent gateway is configured, the prior configuration is overwritten. Dell
EMC N1100-ON switches do not support routing.
Example
The following example sets the default-gateway to 10.1.1.1.
console(config)#ip default-gateway 10.1.1.1.
Switch Management Commands 1956
ip domain-lookup
Use the ip domain-lookup command in Global Configuration mode to
enable IP Domain Naming System (DNS)-based host name-to-address
translation. To disable the DNS, use the no form of this command.
Syntax
ip domain-lookup
no ip domain-lookup
Default Configuration
DNS name resolution is enabled by default.
Command Mode
Global Configuration mode
User Guidelines
This command has no user guidelines.
Example
The following example enables the IP Domain Naming System (DNS)-based
host name-to-address translation.
console(config)#ip domain-lookup
ip domain-name
Use the ip domain-name command in Global Configuration mode to define
a default domain name used to complete unqualified host names. To delete
the default domain name, use the no form of this command.
Syntax
ip domain-name name
no ip domain-name
Switch Management Commands 1957
• name — Default domain name used to complete an unqualified host
name. Do not include the initial period that separates the unqualified host
name from the domain name (Range: 1-255 characters).
Default Configuration
This command has no default configuration.
Command Mode
Global Configuration mode
User Guidelines
This command has no user guidelines.
Example
The following example defines a default domain name of dell.com.
console(config)#ip domain-name dell.com
ip host
Use the ip host command in Global Configuration mode to define static host
name-to-address mapping in the host cache. To delete the name-to-address
mapping, use the no form of this command.
Syntax
ip host name address
no ip host name
• name — Host name.
• address — IP address of the host.
Default Configuration
No host is defined.
Command Mode
Global Configuration mode
Switch Management Commands 1958
User Guidelines
This command has no user guidelines.
Example
The following example defines a static host name-to-address mapping in the
host cache.
console(config)#ip host accounting.dell.com 176.10.23.1
ip name-server
Use the ip name-server command in Global Configuration mode to define
available IPv4 or IPv6 name servers. To delete a name server, use the no form
of this command.
Syntax
ip name-server server-address1 [server-address2 … server-address8]
no ip name-server [server-address1 … server-address8]
• server-address — Valid IPv4 or IPv6 addresses of the name server. (Range:
1–255 characters)
Default Configuration
No name server IP addresses are specified.
Command Mode
Global Configuration mode
User Guidelines
Server preference is determined by entry order.
Up to eight servers can be defined in one command or by using multiple
commands. Use the
show hosts
command to display the configured name
servers.
Example
The following example sets the available name server.
console(config)#ip name-server 176.16.1.18
Switch Management Commands 1959
ip name-server source-interface
Use the ip name-server source-interface command to select the interface
from which to use the IP address in the source IP address field of transmitted
DNS packets. To revert to the default IP address, use the no form of this
command.
Syntax
ip name-server source-interface {loopback loopback-id | tunnel tunnel-id |
vlan vlan-id }
no ip name-server source-interface
• loopback-id— A loopback interface identifier.
• tunnel-id— A tunnel identifier.
• vlan-id— A VLAN identifier.
Default Configuration
By default, the switch uses the assigned switch IP address as the source IP
address for DNS packets. This address is either the IP address assigned to the
VLAN from which the DNS packet originates or the out-of-band interface IP
address.
Command Mode
Global Configuration mode
User Guidelines
The source interface must have an assigned IP address (assigned either
manually or via another method such as DHCP).
The use of a source interface allows firewalls devices to identify DNS packets
as coming from a specific switch. If the source interface is not specified, the
primary address of the outbound interface is used as the source interface. If
the specified interface is down, the DNS client falls back to it’s original
(unconfigured) behavior.
Switch Management Commands 1960
This command is not supported on Dell EMC N1100-ON switches. Dell
EMC N1100-ON switches support configuration of a single IP address in
interface vlan configuration mode. That IP address is used as the source
interface address for this function.
Command History
Introduced in version 6.3.0.1 firmware.
Example
The following example configures a source interface for a VLAN interface
that obtains its address via DHCP:
console#configure
console(config)#interface vlan 1
console(config-if-vlan1)#ip address dhcp
console(config-if-vlan1)#exit
console(config)#ip name-server source-interface vlan 1
This example configures a source interface for a loopback interface. Using a
loopback address is the recommended method for assigning a source
interface.
console#configure
console(config)#interface loopback 0
console(config-if-vlan1)#ip address 129.168.0.13 /32
console(config-if-vlan1)#exit
console(config)#ip name-server source-interface vlan 1
ipv6 address (Interface Configuration)
Use the ipv6 address command to set the IPv6 address of an interface. Use
the no form of this command to reset the IPv6 address to the default.
Syntax
ipv6 address {prefix/prefix-length [eui64] | autoconfig | dhcp}
no ipv6 address
• prefix — The IPv6 address to be configured.
• prefix-length — Designates how many of the high-order contiguous bits of
the address make up the prefix.
Switch Management Commands 1961
•eui64 — The optional EUI-64 field designates that IPv6 processing on the
interfaces is enabled using an EUI-64 interface ID in the low order 64 bits
of the address. If this option is used, the value of prefix_length must be 64
bits.
•autoconfig — Use this keyword to enable IPv6 address auto configuration
mode.
•dhcp — Use this keyword to obtain an IPv6 address via DHCP.
Default Configuration
There is no IPv6 address configured by default.
Command Mode
Interface Configuration mode (VLAN, tunnel, loopback)
User Guidelines
When setting the prefix length on an IPv6 address, no space can be present
between the address and the mask.
Multiple globally reachable addresses may be assigned to an interface.
Creation of a link local address is automatically performed by this command.
IPv6 addresses may be expressed in up to eight blocks. For simplification, the
leading zeros of each 16 bit block may be omitted. One sequence of 16 bit
blocks—containing only zeros—may be replaced by a double colon”::”, but
not more than one at a time.
• Dropping zeros: 3ffe:ffff:100:f101:0:0:0:1 becomes 3ffe:ffff:100:f101:1
• Local host: 0000:0000:0000:0000:0000:0000:0000:0001 becomes ::1
• Any host: 0000:0000:0000:0000:0000:0000:0000:0000 becomes ::
The hexadecimal letters in IPv6 addresses are not case sensitive.
The optional eui64 parameter indicates that the IPv6 address is configured to
use the EUI-64 interface ID in the low order 64 bits of the address. If this
parameter is specified, the prefix-length must be 64.
Example
Configure IPv6 routing on vlan 10 and obtain an address via DHCP. Assumes
vlan 10 already exists.
Switch Management Commands 1962
console(config)#ip routing
console(config)#interface vlan 10
console(config-if-vlan10)#ipv6 enable
console(config-if-vlan10)#ipv6 address dhcp
Configure a default gateway on vlan 10
console(config)#no ipv6 address autoconfig
console(config)#no ipv6 address 2003::6/64
console(config)#no ipv6 address 2001::/64 eui64
console(config)#no ipv6 address
ipv6 address (OOB Port)
Use the ipv6 address command in Interface (out-of-band) Configuration
mode to set the IPv6 prefix on the out-of-band port. If a prefix is specified,
the address will be configured using the prefix and length A link local address
in EUI-64 format may also be assigned.
The autoconfig parameter specifies that a link local address in the EUI-64
format is assigned to the interface.
The DHCP parameter indicates that the port should obtain its address via
DHCP.
Use the no form of the command to remove a specific address or to return the
address assignment to its default value. Using the no form of the command
with no parameters removes all IPv6 prefixes from the interface.
Syntax
ipv6 address {prefix/prefix-length [eui64] | autoconfig | dhcp}
no ipv6 address {prefix/prefix-length [eui64] | autoconfig | dhcp}
• prefix/prefix-length—An IPv6 prefix in global format address format.
•eui64—Formulate the prefix in EUI-64 format.
•autoconfig—Perform IPv6 auto-configuration.
•dhcp—Obtain the prefix via DHCP.
Default Configuration
No address is assigned to the out-of-band interface by default.
Switch Management Commands 1963
Command Mode
Interface (out-of-band) Configuration mode
User Guidelines
When DHCPv6 is enabled on the Out-of-Band interface, the system
automatically deletes all manually configured IPv6 addresses on the interface.
DHCPv6 can be enabled on the Out-of-Band interface only when IPv6 auto
configuration or DHCPv6 is not enabled on any of the in-band management
interfaces.
IPv6 auto configuration mode can be enabled in the Out-of-Band interface
only when IPv6 auto configuration or DHCPv6 is not enabled on any of the
in-band management interfaces.
The optional eui64 parameter indicates that the IPv6 address is configured to
use the EUI-64 interface ID in the low order 64 bits of the address. In this
parameter is specified, the prefix-length must be 64. This command is only
valid for switches equipped with an out-of-band interface.
ipv6 address dhcp
Use the ipv6 address dhcp command in Interface (VLAN) Configuration
mode to enable the DHCPv6 client on an IPv6 interface.
Syntax
ipv6 address dhcp
no ipv6 address dhcp
Default Configuration
DHCPv6 is disabled by default on routing interfaces.
Command Mode
Interface (VLAN) Configuration mode
Switch Management Commands 1964
User Guidelines
This command only applies to VLAN routing interfaces. When DHCPv6 is
enabled on a VLAN routing interface, the system automatically deletes all
manually configured IPv6 addresses on the interface.
Use the no ipv6 address dhcp command to release a leased address and to
disable DHCPv6 on an interface. The command no ipv6 address does not
disable the DHCPv6 client on the interface.
This command will fail if DHCPv6 server has been configured on the
interface.
Examples
In the following example, DHCPv6 is enabled on interface vlan2.
console#config
console(config)#interface vlan 2
console(config-if-vlan2)#ipv6 address dhcp
ipv6 enable (Interface Configuration)
Use the ipv6 enable command in Interface Configuration mode to enable
IPv6 on a routing interface. Use the no form of this command to reset the
IPv6 configuration to the defaults.
Syntax
ipv6 enable
no ipv6 enable
Default Configuration
IPv6 is not enabled by default.
Command Mode
Interface Configuration mode (VLAN, tunnel, loopback)
User Guidelines
There are no user guidelines for this command.
Switch Management Commands 1965
Example
console(config)#no ipv6 enable
ipv6 enable (OOB Configuration)
Use the ipv6 enable command in Interface (out-of-band) Configuration
mode to enable IPv6 operation on the out-of-band interface. Prefixes
configured by the ipv6 address command are not configured until the
interface is enabled.
Syntax
ipv6 enable
no ipv6 enable
Default Configuration
By default, IPv6 is not enabled on the out-of-band port.
Command Mode
Interface (out-of-band) Configuration mode
User Guidelines
This command is not necessary if an IPv6 address has been assigned to the
interface. This command is only valid for switches equipped with an out-of-
band interface.
ipv6 gateway (OOB Configuration)
Use the ipv6 gateway command in Interface (out-of-band) Configuration
mode to configure the address of the IPv6 gateway. The gateway is used as a
default route for packets addressed to network devices not present on the
local subnet. Use the no form of the command to remove the gateway
configuration.
Syntax
ipv6 gateway ipv6-address
no ipv6 gateway
Switch Management Commands 1966
• ipv6-address—An IPv6 address (not a prefix).
Default Configuration
By default, no IPv6 gateway is configured.
Command Mode
Interface (out-of-band) Configuration mode
User Guidelines
This command is only valid for switches equipped with an out-of-band
interface.
show hosts
Use the show hosts command in User Exec mode to display the default
domain name, a list of name server hosts, and the static and cached list of
host names and addresses.
Syntax
shows hosts [hostname].
• hostname—(Range: 1–255 characters). The command allows spaces in the
host name when specified in double quotes. For example,
console(config)#show hosts “host name”
Default Configuration
This command has no default configuration.
Command Mode
User Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
This command has no user guidelines.
Switch Management Commands 1967
Example
The following example displays information about IP hosts.
console>show hosts
Host name: dellswitch
Default domain: dell.com
Name/address lookup is enabled
DNS source interface: loopback 1
Name servers (Preference order): 176.16.1.18 176.16.1.19
Configured host name-to-address mapping:
Host Addresses
-------------------------- ----------------------------
accounting.dell.com 176.16.8.8
Cache: TTL (Hours)
Host Total Elapsed Type Addresses
---------------- ----- ------- ------- -------------
www.stanford.edu 72 3 IP 171.64.14.203
show ip address-conflict
Use the show ip address-conflict command in User Exec or Privileged Exec
mode to display the status information corresponding to the last detected
address conflict.
Syntax
show ip address-conflict [vrf vrf-name]
• vrf-name—The name of the VRF instance on which the command
operates. If no VRF parameter is given, information for the default
(global) router instance is shown.
Default Configuration
This command has no default configuration.
Command Mode
User Exec, Privileged Exec mode, Global Configuration mode and all
Configuration submodes
Switch Management Commands 1968
User Guidelines
The VRF identified in the parameter must have been previously created or an
error is returned.
The VRF parameter is only available on the N3000/N3100-ON/N4000 series
switches.
The command provides the following information.
Example
console#show ip address-conflict
Address Conflict Detection Status...Conflict Detected
Last Conflicting IP Address.........10.131.12.56
Last Conflicting MAC Address........00:01:02:04:5A:BC
Time Since Conflict Detected........5 days 2 hrs 6 mins 46 secs
console#show ip address-conflict
Address Conflict Detection Status.............. No Conflict Detected
show ip helper-address
Use the show ip helper-address command to display IP helper addresses
configuration.
Syntax
show ip helper-address [vrf vrf-name][intf-address]
Term Description
Address Conflict
Detection Status
Whether the switch has detected an address conflict on any IP
address. Set to Conflict Detected if detected, No Conflict
Detected otherwise.
Last Conflicting IP
Address
The IP address that was last detected as conflicting on any
interface.
Last Conflicting
MAC Address
The MAC Address of the conflicting host that was last detected
on any interface.
Time Since Conflict
Detected
The time in days, hours, minutes, and seconds since the last
address conflict was detected.
Switch Management Commands 1969
• vrf-name—The name of the VRF instance on which the command
operates. If no VRF parameter is given, information for the default
(global) router instance is shown.
• intf-address — IP address of a routing interface in dotted quad notation.
(Range: Any valid IP address)
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
The VRF identified in the parameter must have been previously created or an
error is returned.
The VRF parameter is only available on the N3000/N3100-ON/N4000 series
switches. This command is not available on the N1100-ON Series switches.
Example
console#show ip helper-address
IP helper is enabled
Interface UDP Port Discard Hit Count Server Address
-------------------- ----------- ---------- ---------- ----------------
vlan 25 domain No 0 192.168.40.2
vlan 25 dhcp No 0 192.168.40.2
vlan 30 dhcp Yes 0
vlan 30 162 No 0 192.168.23.1
Any dhcp No 0 192.168.40.1
show ipv6 dhcp interface out-of-band statistics
Use the show ipv6 dhcp interface out-of-band statistics command to display
IPv6 DHCP statistics for the out-of-band interface.
Switch Management Commands 1970
Syntax
show ipv6 dhcp interface out-of-band statistics
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec, Global Configuration mode and all Configuration submodes
User Guidelines
This command is only supported on platforms equipped with an out-of-band
port.
Example
console#show ipv6 dhcp interface out-of-band statistics
DHCPv6 Client Statistics
-------------------------
DHCPv6 Advertisement Packets Received.......... 0
DHCPv6 Reply Packets Received.................. 0
Received DHCPv6 Advertisement Packets Discard.. 0
Received DHCPv6 Reply Packets Discarded........ 0
DHCPv6 Malformed Packets Received.............. 0
Total DHCPv6 Packets Received.................. 0
DHCPv6 Solicit Packets Transmitted............. 8
DHCPv6 Request Packets Transmitted............. 0
DHCPv6 Renew Packets Transmitted............... 0
DHCPv6 Rebind Packets Transmitted.............. 0
DHCPv6 Release Packets Transmitted............. 0
Total DHCPv6 Packets Transmitted............... 8
show ipv6 interface out-of-band
Use the show ipv6 interface out-of-band command to show the IPv6 out-of-
band port configuration.
Syntax
show ipv6 interface out-of-band
Switch Management Commands 1971
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec, Global Configuration mode and all Configuration submodes
User Guidelines
This command is only available on switches equipped with an out-of-band
interface.
Example
console(config-if)#show ipv6 interface out-of-band
IPv6 Administrative Mode........Enabled
IPv6 Prefix is..................FE80::21E:C9FF:FEAA:AD79/64
::/128
IPv6 Default Router.............FE80::A912:FEC2:A145:FEAD
Configured IPv6 Protocol........None
IPv6 AutoConfiguration mode............Enabled
Burned In MAC Address...........001E.C9AA.AD79
Switch Management Commands 1972
Line Commands
This section explains the following commands:
Authentication commands related to line configuration mode are in
DHCP
Client Commands
.
accounting
Use the accounting command in Line Configuration mode to apply an
accounting method to a line config.
Use the no form of the command to return the accounting for the line mode
to the default.
Syntax
accounting {exec|commands} [default|list-name]
no accounting
•exec—Provides accounting for a user Exec terminal session.
•commands—Provides accounting for all user-executed commands.
•default—The default list of methods for accounting services.
• list-name—Character string of not more than 15 characters used to
name the list of accounting methods. The list name can consist of any
printable character other than a question mark. Use quotes around the
list name if embedded blanks are contained in the list name.
accounting line
authorization login authentication
enable authentication login-banner
exec-banner motd-banner
exec-timeout password (Line Configuration)
history show line
history size speed
terminal length
Switch Management Commands 1973
Default Configuration
Accounting is not enabled by default.
Command Mode
Line Configuration
User Guidelines
When enabling accounting for exec mode for the current line-configuration
type, users logged in with that mode will be logged out.
Examples
Use the following command to enable exec type accounting for telnet.
console(config)#line telnet
console(config-telnet)# accounting exec default
authorization
Use the authorization command to apply a command authorization method
to a line config. Use the no form of the command to return the authorization
for the line mode to the default.
Syntax
authorization {commands|exec} [default|list-name]
no authorization {commands|exec}
•commands—Perform authorization for each command entered by the
user.
•exec—Perform Exec authorization for the user (authorization required
to enter privileged Exec mode).
•default—The default list of methods for command authorization
(cmdAuthList).
• list-name—Character string used to name the list of authorization
methods. The list name can consist of any printable character other
than a question mark. Use quotes around the list name if embedded
blanks are contained in the list name.
Switch Management Commands 1974
Default Configuration
Authorization is not enabled on any line method by default.
Command Mode
Line console, line telnet, line SSH
User Guidelines
When command authorization is configured for a line-mode, the switch
sends information about the entered command to the method specified in
the command list. The authorization method validates the received
command and responds with either a PASS or FAIL response. If approved, the
command is executed. Otherwise, the command is denied and an error
message is shown to the user. If contact with the authorization method fails,
then the next method in the list is attempted.
Examples
Use the following command to enable TACACS command authorization for
telnet.
console(config)#line telnet
console(config-telnet)# authorization commands mycmdAuthList
enable authentication
Use the enable authentication command in Line Configuration mode to
specify the authentication method list when accessing a higher privilege level
from a remote telnet or console. To return to the default specified by the
enable authentication command, use the no form of this command.
Syntax
enable authentication {default | list-name}
no enable authentication
•default — Uses the default list created with the aaa authentication
enable command.
• list-name — Uses the indicated list created with the aaa authentication
enable command. (Range: 1-12 characters)
Switch Management Commands 1975
Default Configuration
Uses the default set with the command aaa authentication enable.
Command Mode
Line Configuration mode
User Guidelines
Use of the no form of the command does not disable authentication. Instead,
it sets the authentication list to the default list (same as enable
authentication default).
Example
The following example specifies the default authentication method when
accessing a higher privilege level console.
console(config)# line console
console(config-line)# enable authentication default
exec-banner
Use the exec-banner command to enable exec banner on the console, telnet
or SSH connection. To disable, use the no form of the command.
Syntax
exec-banner
no exec-banner
• MESSAGE — Quoted text
Default Configuration
This command has no default configuration.
Command Mode
Line Configuration
Switch Management Commands 1976
User Guidelines
The exec banner can consist of multiple lines. Enter a quote to complete the
message and return to configuration mode.
Example
console(config-telnet)# no exec-banner
exec-timeout
Use the exec-timeout command in Line Configuration mode to set the
interval that the system waits for user input before timeout. To restore the
default setting, use the no form of this command.
Syntax
exec-timeout minutes [seconds]
no exec-timeout
• minutes — Integer that specifies the number of minutes. (Range: 0–
65535)
• seconds — Additional time intervals in seconds. (Range: 0–59)
Default Configuration
The default configuration is 10 minutes.
Command Mode
Line (telnet, console, ssh) Configuration mode
User Guidelines
To specify no timeout, enter the exec-timeout 0 command.
Example
The following example configures the interval that the system waits until user
input is detected to 20 minutes. After expiry, the session exits Privileged Exec
mode.
console(config)#line console
console(config-line)#exec-timeout 20
Switch Management Commands 1977
history
Use the history command in Line Configuration mode to enable the
command history function. To disable the command history function, use the
no form of this command.
Syntax
history
no history
Default Configuration
The default value for this command is enabled.
Command Mode
Line Interface mode
User Guidelines
This command has no user guidelines.
Example
The following example disables the command history function for the current
terminal session.
console(config-line)# no history
history size
Use the history size command in Line Configuration mode to change the
command history buffer size for a particular line. To reset the command
history buffer size to the default setting, use the no form of this command.
Syntax
history size number-of-commands
no history size
• number-of-commands—Specifies the number of commands the system
may record in its command history buffer. (Range: 0-216)
Switch Management Commands 1978
Default Configuration
The default command history buffer size is 10.
Command Mode
Line Configuration mode
User Guidelines
This command has no user guidelines.
Example
The following example configures the command history buffer size to 20
commands for the current terminal session.
console(config-line)#history size 20
line
Use the line command in Global Configuration mode to identify a specific
line for configuration and enter the line configuration command mode.
Syntax
line {console | telnet | ssh}
•console — Console terminal line.
•telnet — Virtual terminal for remote console access (Telnet).
•ssh — Virtual terminal for secured remote console access (SSH).
Default Configuration
This command has no default configuration.
Command Mode
Global Configuration mode
Switch Management Commands 1979
User Guidelines
The default authentication list for telnet and SSH is enableNetList. The
enableNetList uses a single method: enable. This implies that users accessing
the switch via telnet or SSH must have an enable password defined in order to
access privileged mode. Alternatively, the administrator can set the telnet and
ssh lists to enableList, which has the enable and none methods defined.
When using line ssh authentication with a RADIUS server as the primary
authentication method, be aware that the default 802.1x timeout is 45
seconds. This is the same timeout value as SSH. Thus a secondary
authentication method is unlikely to be invoked due to SSH timing out and
dropping the connection attempt.
Examples
The following example sets the telnet authentication list to enableList:
console(config)#line telnet
console(config-telnet)#enable authentication enableList
The following example enters Line Configuration mode to configure Telnet.
console(config)#line telnet
console(config-line)#
login authentication
Use the login authentication command in Line Configuration mode to
specify the login authentication method list for a line (console, telnet, or
SSH). To return to the default specified by the authentication login
command, use the no form of this command.
Syntax
login authentication {default | list-name}
no login authentication
•default — Uses the default list created with the aaa authentication
login command.
• list-name — Uses the indicated list created with the aaa authentication
login command.
Switch Management Commands 1980
Default Configuration
Uses the default set with the command aaa authentication login.
Command Mode
Line Configuration mode
User Guidelines
This command has no user guidelines.
Example
The following example specifies the default authentication method for a
console.
console(config)# line console
console(config-line)# login authentication default
login-banner
Use the login-banner command to enable login banner on the console, telnet
or SSH connection. To disable, use the no form of the command.
Syntax
login-banner
no login-banner
• MESSAGE — Quoted text
Default Configuration
This command has no default configuration.
Command Mode
Line Configuration
User Guidelines
This command has no user guidelines.
Switch Management Commands 1981
Example
console(config-telnet)# no login-banner
motd-banner
Use the motd-banner command to enable motd on the console, telnet or
SSH connection. To disable, use the no form of the command.
Syntax
motd-banner
no motd-banner
• MESSAGE — Quoted text
Default Configuration
This command has no default configuration.
Command Mode
Line Configuration
User Guidelines
This command has no user guidelines.
Example
console(config-telnet)# motd-banner
password (Line Configuration)
Use the password command in Line Configuration mode to specify a
password on a line. To remove the password, use the no form of this
command.
NOTE: For commands that configure password properties, see
Password
Management Commands
.
Syntax
password password [encrypted]
no password
Switch Management Commands 1982
• password — Password for this level. (Range: 8- 64 characters) The
special characters allowed in the password include ! # $ % & ‘ ( ) *
+ , - . / : ; < = > @ [ \ ] ^ _ ` { | } ~. User names can
contain blanks if the name is surrounded by double quotes.
•encrypted — Encrypted password to be entered, copied from another
switch configuration.
Default Configuration
No password is specified.
Command Mode
Line Configuration mode
User Guidelines
This command has no user guidelines.
Example
The following example specifies a password “mcmxxyyy” on a line.
console(config-line)# password mcmxxyyy
show line
Use the show line command to display line parameters.
Syntax
show line [console | telnet | ssh]
•console — Console terminal line.
•telnet — Virtual terminal for remote console access (Telnet).
•ssh — Virtual terminal for secured remote console access (SSH).
Default Configuration
This command has no default configuration.
Switch Management Commands 1983
Command Mode
User Exec and Privileged Exec mode, Global Configuration mode and all
Configuration submodes
User Guidelines
This command has no user guidelines.
Example
console(config-telnet)#show line
Console configuration:
Serial Port Login Timeout (mins) (secs)........ 10 minutes 0 seconds
Baud Rate (bps)................................ 9600
Character Size (bits).......................... 8
Flow Control................................... Disable
Stop Bits...................................... 1
Parity......................................... none
History:....................................... 10
Telnet configuration:
Remote Connection Login Timeout(mins)(secs).... 10 minutes 0 seconds
History:....................................... 10
SSH configuration:
Remote Connection Login Timeout(mins)(secs).... 10 minutes 0 seconds
History:....................................... 10
speed
Use the speed command in Line Configuration mode to set the line BAUD
rate. Use the no form of the command to restore the default settings.
Syntax
speed {bps}
no speed
• bps — BAUD rate in bits per second (bps). The options are 2400, 9600,
19200, 38400, 57600, and 115200.
Switch Management Commands 1984
Default Configuration
This default speed is 9600 for all platforms other than the N1100-
ON/N2100/N3100 Series switches. The N1100-ON/N2100/N3100 Series
switches default to 115200 BAUD.
Command Mode
Line Interface (console) mode
User Guidelines
This configuration applies only to the current session.
Example
The following example configures the console BAUD rate to 9600.
console(config-line)#speed 9600
terminal length
Use the terminal length command to set the terminal length. Use the no
form of the command to reset the terminal length to the default.
Syntax
terminal length
value
no terminal length
• value — The length in number of lines. Range: 0–512
Default Configuration
This default value is 24.
Command Mode
Privileged Exec mode
Switch Management Commands 1985
User Guidelines
Setting the terminal length to 0 disables paging altogether. It is
recommended that the terminal length either be set to 0 or a value larger than
4 as terminal lengths in the range of 1 to 4 may give odd output due to
prompting. The terminal length command is specific to the current session.
Logging out, rebooting or otherwise ending the current session will require
that the command be reentered. Likewise, because the terminal length
setting is specific to a session, it is never saved in the config.
Example
console#terminal length 50
Switch Management Commands 1986
PHY Diagnostics Commands
This section explains the following commands:
show copper-ports tdr
Use the show copper-ports tdr command to display the stored information
regarding cable lengths.
Syntax
show copper-ports tdr [interface]
• interface — A valid Ethernet interface identifier.
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
The copper-related commands do not apply to the stacking or 10GBaseT
ports.
The maximum length of the cable for the Time Domain Reflectometry
(TDR) test is 120 meters. Disable green-mode on the port in order to obtain
accurate results.
Example
The following example displays the last TDR tests on all ports.
console#show copper-ports tdr
Port Result Length [meters] Date
--------- --------------------------- --------------- ---------------------
show copper-ports tdr test copper-port tdr
show fiber-ports optical-transceiver
–
Switch Management Commands 1987
Gi1/0/1 OK
Gi1/0/2 Short 50 13:32:00 23 July 2004
Gi1/0/3 Test has not been performed
Gi1/0/4 Open 128 13:32:08 23 July 2004
Gi1/0/5 Fiber - -
show fiber-ports optical-transceiver
Use the show fiber-ports optical-transceiver command to display the optical
transceiver diagnostics.
Syntax
show fiber-ports optical-transceiver [interface]
• interface — A valid SFP, XFP or SFP+ port.
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
The show fiber ports command is applicable to all fiber ports, including SFP,
SFP+, and XFP ports. It will display an error if executed against a copper port
or passive or active direct attach cables.
Examples
The following examples display the optical transceiver diagnostics.
console#show fiber-ports optical-transceiver
Output Input
Port Temp Voltage Current Power Power TX LOS
[C] [Volt] [mA] [dBm] [dBm] Fault
--------- ---- ------- ------- ------- ------- ----- ---
Te2/0/23 22.5 3.296 7.5 -2.184 -36.990 No Yes
Switch Management Commands 1988
test copper-port tdr
Use the test copper-port tdr command to diagnose with Time Domain
Reflectometry (TDR) technology the quality and characteristics of a copper
cable attached to a 1GBaseT or 10GBaseT port.
Syntax
test copper-port tdr interface
• interface — A valid Ethernet port.
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode
User Guidelines.
This command prompts the user to shut down the port for the duration of
the test. Passive or active direct attach SFP/SFP+ cables are not based on
1000BaseT technology and do not support TDR testing. Use the show
copper-ports tdr command to view the test results.
The maximum distance the Virtual Cable Tester (VCT) can measure is 120 meters.
Examples
The following example results in a report on the cable attached to port 1/0/3.
console#test copper-port tdr te1/0/1
This command takes the port offline to measure the cable length.
Use the show copper-port tdr command to view the results..
Do you wish to continue and take the port offline (Y/N)?y
The following example results in a failure to report on the cable attached to
port te2/0/3.
console#test copper-port tdr te2/0/3
This command takes the port offline to measure the cable length.
Switch Management Commands 1989
Use the show copper-port tdr command to view the results..
Do you wish to continue and take the port offline? (y/n) y
Error! Invalid interface 2/0/3
Switch Management Commands 1990
Power Over Ethernet Commands
The Dell EMC Networking PoE solution implements the PoE+ specification
(IEEE 802.3at) for power sourcing equipment (PSE). IEEE 802.3at allows
power to be supplied to Class 4 PD devices that require power up to 34.2
Watts. This allows the PoE+ enabled network switches and routers to be used
for deployment with devices that require more power than the 802.3AF
specification allows. PoE+ 802.3at is compatible with 802.3AF.
The Dell EMC Networking N3024P/N3048P switches support delivery of up
to 62W of power on the first 12 interfaces of each stack unit. The Dell EMC
Networking N2128PX-ON supports PoE 60W on the four 2.5G interfaces.
The Dell EMC Networking N3132PX-ON supports PoE 60W on all copper
ports.
NOTE: This section applies to the N1108P-ON/N1124P-ON/N1148P-
ON/N1524P/N1548P/N2024P/N2048P/N2128PX-ON/N3024P/N3048P/N3132PX-ON
switches.
Flexible Power Management
The Dell EMC Networking PoE solution provides power management which
supports power reservation, power prioritization and power limiting. The
operator can assign a priority to each PoE port. When the power budget of
the PoE switch has been exhausted, the higher priority ports are given
preference over the lower priority ports. Lower priority ports are forcibly
stopped to supply power in order to provide power to higher priority ports.
The static power management feature allows operators to reserve a
guaranteed amount of power for a PoE port. This is useful for powering up
devices which draw variable amounts of power and provide them an assured
power range within which to operate. Class based power management
allocates power at class limits as opposed to user defined limits.
In the Dynamic Power management feature, power is not reserved for a given
port at any point of time. The power available with the PoE switch is
calculated by subtracting the instantaneous power drawn by all the ports from
the maximum available power. Thus, more ports can be powered at the same
time. This feature is useful to efficiently power up more devices when the
available power with the PoE switch is limited.
Switch Management Commands 1991
The Dell EMC Networking PoE solution also provides a global usage
threshold feature in order to limit the PoE switch from reaching an overload
condition. The operator can specify the limit as a percentage of the
maximum power.
NOTE: PoE commands are only applicable to copper ports.
Commands in this Section
This section explains the following commands:
power inline
The power inline command enables/disables the ability of the port to deliver
power.
Syntax
power inline {auto|never}
no power inline
•auto — Enables device discovery and, if a device is found using the
method specified by the power inline detection setting, supplies power
to the device.
•never — Disables the device discovery protocol and stops supplying
power to the device.
Command Mode
Interface Configuration (Ethernet).
power inline power inline priority
power inline detection power inline reset
power inline four-pair forced power inline usage-threshold
power inline management clear power inline statistics
power inline powered-device show power inline
–
show power inline firmware-version
Switch Management Commands 1992
User Guidelines
Auto enables the switch to deliver power to the powered device. The power
inline management parameter should be set to class-based mode to enable
power negotiation via LLDP-MED. Dell EMC Networking PoE-enabled ports
should not be connected to other Power Sourcing Equipment (PSE) with PoE
enabled. If the switch detects PSE equipment supplying power to a port, PoE
power is disabled on the port. If a port supplying power issues an input power
detected (0x24) status and no device is attached, the port should not be used
as a possible short may exist.
Default Value
The default value is auto, that is, device discovery is enabled and the port is
capable of delivering power.
Examples
console(config)#interface gigabitethernet 1/0/1
console(config-if-Gi1/0/1)# power inline auto
power inline detection
Use the power inline detection command to configure the detection type
that tells which types of PD’s will be detected and powered by the switch. Use
the no form of this command to set the detection type to the default.
Syntax
power inline detection [unit unit-id]{dot3at|dot3at+legacy}
no power inline detection
• dot3at—IEEE 802.3at 4-point detection only.
•dot3at+legacy—IEEE 802.3at 4-point detection followed by legacy
capacitive detection.
•unit unit-id—The specific stack member to be configured.
Default Configuration
The default value is dot3at+legacy.
Switch Management Commands 1993
Command Mode
Global Configuration mode
User Guidelines
If no unit number is specified, the entire stack is configured. If the detection
mode is configured at dot3at, class-based allocation will reserve the full
amount of power (33W). To use legacy 802.3af allocation, configure
detection as dot3at+legacy.
Command History
Release 6.3.6 deprecates the legacy-only parameter in favor of dot3at+legacy
as the legacy-only capability is not present in the hardware.
power inline four-pair forced
Use this command to force 4-pair power feed on an interface. Use the no
form of the command to use the default 2-pair power feed.
Syntax
power inline four-pair forced
no power inline four-pair forced
Default Configuration
The default power feed is 2-pair power.
Command Mode
Interface Config
User Guidelines
This command is only operational on N2100PX-ON, N3000P, N3100PX-ON
series switches. Only use this command when the interface is connected to a
device that can accept power on all four pairs of wires (that is, on both the
signal and spare pairs). Class D or better cabling is required for feeds in excess
of 34.2W.
Four pair power is supported in all management modes.
Switch Management Commands 1994
• In class mode, the port limit is twice the class power.
• In dynamic mode, up to 62W may be delivered.
• In static mode, the port is limited to the configured limit.
Use this command only with devices that require up to 60W of power.
Command History
Introduced in version 6.3.0.1 firmware.
Example
This example configures forced 60W 4-pair power mode on interface Gi1/0/1
console#configure
console(config)#power inline management static
console(config)#interface gi/10/1
console(config-if-Gi1/0/1)#power inline four-pair forced
power inline limit
Use the power inline limit command to configure the type of power limit.
Use the no form of this command to set the power limit type to the default.
Syntax
power inline limit {user-defined limit|class|none}
no power inline limit
•user-defined limit—Allows the port to draw up to user-defined value. The
range is 3000-32000 milliwatts (mW) in two-pair mode. In four-pair mode,
the range is 3000-57000 milliwatts.
•class—Allows the port to draw up to the class-based limit.
•none—Allows the port to draw up to the maximum feed the power is
capable of delivering.
Default Configuration
In two-pair mode, the default power limit is 32000 milliwatts. In four-pair
mode, the default power limit is 57000 milliwatts.
Switch Management Commands 1995
Command Mode
Interface Configuration
User Guidelines
User defined limits are only operational if the power management mode is
configured as static. By default, the power management mode is dynamic. If
the operator attempts to set a user-defined limit and the power management
mode is not configured as static, a warning is issued. On systems that support
four-pair power, the UI does not check the limit against the port capability or
the configuration. To deliver 60W power, ensure that the port is configured in
four-pair mode.
The maximum configurable power limit is 32000 milliwatts for two-pair
power. The maximum configurable power limit is 57000 milliwatts for four-
pair power. The actual power delivered in two-pair or four-pair mode may
exceed the user defined limit by up to 5%. In four-pair static mode, the
maximum power delivery is approximately 59850 milliwatts (60W). Four pair
power is available in any of the power management modes. In class mode,
twice the detected class power is delivered (64W). In dynamic mode, up to
62W may be delivered.
The Dell EMC Networking 3024P/N3048P switches implement 4-pair PoE
60W on the first 12 lowest numbered 1G ports. The N3132PX-ON switches
implement PoE 60W on the copper 1G and 5G ports. The N2128PX-ON
switches implement PoE 60W on the 2.5G ports.
The lower numbered Dell EMC Networking N1108P/N1124P/N1148P front-
panel copper ports support PoE (15.4W) and PoE+ (34.2W) as well as legacy
capacitive detection for pre-standard powered devices (PDs). The N1108P
supports PoE on ports 1-4 or any two of the ports may supply PoE+ power.
The N1124P supports PoE on ports 5-16 or any six of the ports may supply
PoE+ power. The N1148P supports PoE on ports 1-24 or any twelve of the
ports may supply PoE+ power.
Example
This example configures interface Gi1/0/1 to deliver 60W four-pair power.
The power inline limit none command is optional as the four-pair default
power limit is 57000 mW.
console#configure
Switch Management Commands 1996
console(config)#power inline management static
console(config)#interface gi1/0/1
console(config-if-Gi1/0/1)#power inline four-pair forced
console(config-if-Gi1/0/1)#power inline limit none
This example configures interface Gi1/0/2 to deliver 50W four-pair power
(within the 5% tolerance). The port will deliver up to 52500 mW.
console#configure
console(config)#power inline management static
console(config)#interface gi1/0/2
console(config-if-Gi1/0/2)#power inline four-pair forced
console(config-if-Gi1/0/2)#power inline limit user-defined 50000
This example displays an interface configured in four-pair power mode.
console#show power inline gigabitethernet 1/0/1 detailed
Port Powered Device State Priority Status Class Power[mW]
--------- ------------------------ ----- -------- ---------- ------- -------
--
Gi1/0/1 auto Low Searching Unknown
Limit Power High Power
Port Type Limit Mode
--------- -------- -------- -----------
Gi1/0/1 None 57000 Enabled
Overload Counter............................... 0
Short Counter ................................. 0
Denied Counter................................. 0
Absent Counter................................. 0
Invalid Signature Counter...................... 0
Output Volts................................... 53
Output Current................................. 0
Temperature.................................... 49
Command History
Description revised in 6.3.5 release.
Switch Management Commands 1997
power inline management
Use the power inline management command in Global Configuration mode
to set the power management type. This command is used along with the
power inline priority
command. Use the no form of this command to set the
management mode to the default.
Syntax
power inline management [unit unit-id]{dynamic | static | class}
no power inline management [unit unit-id]
•dynamic—Dynamic power management
•static—Static power management
•class—Class-based power management
•unit-id—A stack unit ID.
Default Configuration
Default management is dynamic.
Command Mode
Global Configuration
User Guidelines
If no unit is specified, all members of the stack are configured. Static,
dynamic and class-based modes differ in how the available power is calculated
and how much power may be delivered to the Powered Device. Refer to the
PoE section in the User’s Configuration Guide for information on Powered
Device detection, power allocation methods, and the PoE guard band.
Example
In the following example, no port is specified so the command displays global
configuration and status of all the ports. Configure the global power
management scheme as dynamic with dot3at+legacy detection and enable
PoE capability on ports Gi1/0/1-10.
console(config)#power inline management dynamic
console(config)#power inline detection dot3at+legacy
Switch Management Commands 1998
console(config)#interface range Gi1/0/1-10
console(config-if)#power inline auto
console(config-if)#exit
console#show power inline
Unit Status
===========
Unit........................................... 1
Power.......................................... On
Total Power.................................... 500 Watts
Threshold Power................................ 450 Watts
Consumed Power................................. 0 Watts
Usage Threshold................................ 90%
Power Management Mode.......................... Dynamic
Power Detection Mode........................... dot3at+legacy
Port Configuration
==================
Port Powered Device State Priority Status Class Power[mW]
--------- ---------------------- ----- -------- ----------- ------ ---------
Gi1/0/1 auto Low Searching Unknown
Gi1/0/2 auto Low Searching Unknown
Gi1/0/3 auto Low Searching Unknown
Gi1/0/4 auto Low Searching Unknown
Command History
Description revised in version 6.3.1.5 release.
Description revised in version 6.3.1.6 release. Example revised in 6.4 release.
power inline powered-device
The power inline powered-device command adds a comment or description
of the powered device type to enable the user to remember what is attached
to the interface. To remove the description, use the no form of this command.
Syntax
power inline powered-device
pd-type
no power inline powered-device
• pd-type — Specifies the type of powered device attached to the
interface. (Range: 1–20 characters)
Switch Management Commands 1999
Command Mode
Interface Configuration (Ethernet).
User Guidelines
No specific guidelines.
Examples
console(config)#interface gigabitethernet 1/0/1
console(config-if-Gi1/0/1)# power inline powered-device IP-phone
power inline priority
The power inline priority command configures the port priority level, for the
delivery of power to an attached device. The switch may not be able to supply
power to all connected devices, so the port priority is used to determine which
ports will supply power if adequate power capacity is not available for all
enabled ports. For ports that have the same priority level, the lower-numbered
port has higher priority.
For a system delivering peak power to a certain number of devices, if a new
device is attached to a high-priority port, power to a low-priority port is shut
down and the new device is powered up.
Syntax
power inline priority {critical | high | low}
no power inline priority
Command Mode
Interface Configuration (Ethernet).
User Guidelines
Priority is always enabled for all ports. If all ports have equal priority in an
overload condition, the switch will shut down the highest numbered ports
first.
Default Value
Low
Switch Management Commands 2000
Examples
console(config)#interface gigabitethernet 1/0/1
console(config-if-Gi1/0/1)# power inline priority high
power inline reset
Use the power inline reset command to reset the port.
Syntax
power inline reset
Default Configuration
This command has no default configuration.
Command Mode
Interface Configuration
User Guidelines
This command is useful if the port is stuck in an Error state. Power to the
powered devices may be interrupted as the port is reset.
power inline usage-threshold
The power inline usage-threshold command configures the system power
usage threshold level at which lower priority ports are disconnected. The
threshold is configured as a percentage of the total available power. Use the
no form of the command to set the threshold to the default value.
Syntax
power inline usage-threshold [unit unit-id]
threshold
no power inline usage-threshold [unit unit-id]
• threshold— Power threshold at which ports are disconnected. The range
is 1-99%.
• unit-id— A stack member identifier.
Switch Management Commands 2001
Default Configuration
The default threshold is 90%.
Command Mode
Global Configuration.
User Guidelines
If no unit number is specified, all stack members are configured. The power
limit beyond which ports are disconnected has a configurable range as a
percentage of total available power for the individual unit. The maximum
power available is given in the table shown in the power inline management
command. The usage threshold check calculates the actual consumed power
and compares it against the (unit power maximum multiplied by the
threshold)/100. If unit power consumption exceeds the threshold, and the
power bank is active, ports are disconnected with an over-power condition.
The disconnection is priority based. When ports are disconnected due to
actual consumed power exceeding the threshold, a trap is generated.
Examples
console(config)# power inline usage-threshold 90
Command History
Syntax updated in 6.4 release.
clear power inline statistics
Use this command to clear the PoE statistics.
Syntax
clear power inline statistics [interface-id]
• interface-id—An Ethernet interface capable of supplying PoE power.
Default Configuration
This command has no default configuration.
Switch Management Commands 2002
Command Modes
Privileged Exec
User Guidelines
If no interface is specified, the statistics are cleared for all PoE-capable
interfaces.
show power inline
Use the show power inline command to report current PoE configuration and
status. If no port is specified, the command displays global configuration and
status of all the ports. If a port is specified, then the command displays the
details for the single port. Use the detailed parameter to show power limits,
detection type and high power mode for the interface.
Syntax
show power inline [interface-id] [detailed]
• interface-id—Any PoE-capable physical interface. See
Interface Naming
Conventions
for interface representation.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
If a port supplying power detects PSE equipment, the power to the port is
shut off. If a powered port shows input power detected status (0x24), and no
device is attached, the port should not be used as a possible short may exist.
The PoE controller returns the Total Power Consumed value in Watts. For
this reason, Total Power Consumption value displayed might not exactly
match the sum of power in milliwatts consumed by various Powered Devices.
Examples
In the next example, the port is specified and the command displays the
configuration and status for the specified port.
console#show power inline gigabitethernet 1/0/13
Switch Management Commands 2003
Port Powered Device State Priority Status Class[W] Power[mW]
----- --------------- ----- -------- --------- ------------- ------
Gi1/0/13 Auto Low On 3.84 - 6.49 5000
Overload Counter............................... 0
Short Counter.................................. 0
Denied Counter................................. 0
Absent Counter................................. 0
Invalid Signature Counter...................... 0
Output Volts................................... 53
Output Current................................. 0
Temperature.................................... 39
In the next example, the port is specified and the command displays the
details for the single port. The detected class and power is shown, followed by
the power limit configuration. Then port counters, voltage, current and
temperate are displayed.
console#show power inline gi1/0/1 detailed
Port Powered Device State Priority Status Class Power[mW]
--------- ------------------------ ----- -------- ---------- ------- -------
--
Gi1/0/13 auto Low Searching Unknown
Limit Power High Power
Port Type Limit Mode
--------- -------- -------- -----------
Gi1/0/13 None 32000 Enabled
Overload Counter............................... 0
Short Counter.................................. 0
Denied Counter................................. 0
Absent Counter................................. 0
Invalid Signature Counter...................... 0
Output Volts................................... 53
Output Current................................. 0
Temperature.................................... 38
Command History
Example updated in 6.4 release.
Switch Management Commands 2004
show power inline firmware-version
Use the show power inline firmware-version command to display the version
of the PoE controller firmware present on the switch file system.
Syntax
show power inline firmware-version
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
This command displays the PoE firmware version for each stack member
individually.
Example
console(config)#show power inline firmware-version
Unit Firmware Version
---- ----------------
1 265_1
Switch Management Commands 2005
RMON Commands
The Dell EMC Networking SNMP component includes an RMON (remote
monitoring) agent. RMON is a base technology used by network
management applications to manage a network. Troubleshooting and
network planning can be accomplished through the network management
applications. The network monitor monitors traffic on a network and records
selected portions of the network traffic and statistics. The collected traffic
and statistics are retrieved using SNMP. The data collected is defined in the
RMON MIB, RFC 2819. A device that supports gathering and reporting the
RMON data is referred to as an RMON probe or RMON Agent. An RMON
probe provides RMON data to an RMON Manager for analysis and
presentation to the user. An RMON probe may be embedded in an existing
network device or stand-alone.
Commands in this Section
This section explains the following commands:
rmon alarm
Use the rmon alarm command in Global Configuration mode to configure
alarm conditions. To remove an alarm, use the no form of this command. See
also the related
show rmon alarm
command.
Syntax
rmon alarm number variable interval {delta | absolute} rising-threshold
value [event-number] falling-threshold value [event-number] [owner string]
[startup direction]
rmon alarm show rmon collection history
rmon collection history show rmon events
rmon event show rmon hcalarm
rmon hcalarm show rmon history
show rmon alarm show rmon log
show rmon alarms show rmon statistics
Switch Management Commands 2006
no rmon alarm number
• number—The alarm index. (Range: 1–65535)
• variable—A fully qualified SNMP object identifier that resolves to a
particular instance of a MIB object.
• interval—The interval in seconds over which the data is sampled and
compared with the rising and falling thresholds. (Range: 1– 2147483647)
• rising-threshold value—Rising Threshold value. (Range: -2147483648 –
2147483647)
• falling-threshold value—Falling Threshold value. (Range: -2147483648
– 2147483647)
•event-number—The index of the Event that is used when a rising or
falling threshold is crossed. (Range: 1- 65535)
•delta—The sampling method for the selected variable and calculating
the value to be compared against the thresholds. If the method is delta,
the selected variable value at the last sample is subtracted from the
current value, and the difference compared with the thresholds.
•absolute—The sampling method for the selected variable and
calculating the value to be compared against the thresholds. If the
method is absolute, the value of the selected variable is compared
directly with the thresholds at the end of the sampling interval.
•startup direction—The alarm that may be sent when this entry is first
set to valid. If the first sample (after this entry becomes valid) is greater
than or equal to the rising-threshold, and direction is equal to rising or
rising-falling, then a single rising alarm is generated. If the first sample
(after this entry becomes valid) is less than or equal to the falling-
threshold, and direction is equal to falling or rising-falling, then a single
falling alarm is generated.
•owner string—Enter a name that specifies who configured this alarm. If
unspecified, the name is an empty string.
Default Configuration
No alarms are configured.
Command Mode
Global Configuration mode
Switch Management Commands 2007
User Guidelines
This command has no user guidelines.
Example
The following example configures the following alarm conditions:
• Alarm index — 1
• Variable identifier — 1.3.6.1.2.1.2.2.1.10.5
• Sample interval — 10 seconds
• Rising threshold — 500000
• Falling threshold — 10
• Rising threshold event index — 1
• Falling threshold event index — 1
console(config)#rmon alarm 1 1.3.6.1.2.1.2.2.1.1.10.5 10 50000 10 1 1
rmon collection history
Use the rmon collection history command in Interface Configuration mode
to enable a Remote Monitoring (RMON) MIB history statistics group on an
interface. To remove a specified RMON history statistics group, use the no
form of this command. Also see the
show rmon collection history
command.
Syntax
rmon collection history index [owner ownername] [buckets bucket-number]
[interval seconds]
no rmon collection history index
• index — The requested statistics index group. (Range: 1–65535)
•owner ownername — Records the RMON statistics group owner name.
If unspecified, the name is an empty string.
•buckets bucket-number — A value associated with the number of
buckets specified for the RMON collection history group of statistics. If
unspecified, defaults to 50. (Range: 1 - 65535)
•interval seconds — The number of seconds in each polling cycle. If
unspecified, defaults to 1800. (Range: 1–3600)
Switch Management Commands 2008
Default Configuration
The buckets configuration is 50. The interval configuration is 1800 seconds.
Command Mode
Interface Configuration (gigabitethernet, port-channel, tengigabitethernet,
fortygigabitethernet) mode.
User Guidelines
This command cannot be executed on multiple ports using the interface
range command.
Example
The following example enables a Remote Monitoring (RMON) MIB history
statistics group on port 1/0/8 with the index number “1” and a polling interval
period of 2400 seconds.
console(config)#interface gigabitethernet 1/0/8
console(config-if-Gi1/0/8)#rmon collection history 1 interval 2400
rmon event
Use the rmon event command in Global Configuration mode to configure an
event. To remove an event, use the no form of this command. See also the
show rmon events
command.
Syntax
rmon event number [log] [trap community] [description string] [owner
string]
no rmon event number
•number—The event index. (Range: 1–65535)
•log—An entry is made in the log table for each event.
•trap—An SNMP trap is sent to one or more management stations.
•community—If an SNMP trap is to be sent, it is sent to the SNMP
community specified by this octet string. (Range: 0-127 characters)
•description—A comment describing this event. (Range 0-127
characters)
Switch Management Commands 2009
•owner—Enter a name that specifies who configured this event. If
unspecified, the name is an empty string.
Default Configuration
This command has no default configuration.
Command Mode
Global Configuration mode
User Guidelines
This command has no user guidelines.
Example
The following example configures an event with the trap index of 10.
console(config)#rmon event 10 log
rmon hcalarm
Use the rmon hcalarm to configure high capacity alarms.Use the no form of
the command to remove the alarm.
Syntax
rmon hcalarm alarmnumber variable interval {absolute | delta} rising-
threshold value-64[rising-event-index] falling-threshold value-64[falling-
event-index] [startup {rising | falling | rising-falling}] [owner string]
• alarmnumber—An alarm number that uniquely identifies the alarm
entry. (Range: 1-65536). Each entry defines a diagnostic sampler at a
particular interval for an object on the device.
• variable—The MIB object to monitor. May be fully qualified or relative.
Only variables that resolve to an ASN.1 primitive type of INTEGER are
allowed.
• interval—The interval in seconds over which the data is sampled and
compared with the rising and falling thresholds. (Range: 1– 2147483647.
The default is 1 second.)
Switch Management Commands 2010
•absolute—Specifies to use a fixed value for the threshold (Default
value).
•delta—Specifies to use the difference between the current value and the
previous value.
•rising-threshold value-64—Rising threshold value (−(263) to 263 − 1)
• rising-event-index—Event to trigger when the rising threshold is crossed
(1–65535).
•falling-threshold-high value-64—Falling threshold value (−(263) to 263
− 1)
• falling-event-index—Event to trigger when the rising threshold is
crossed (1–65535).
•startup {rising|falling|rising-falling]—The event that is sent when this
entry is first set to active. If the first sample after this entry is configured
is greater than or equal to the rising threshold and startup rising or
startup rising-falling is configured, a single rising event is generated. If
the first sample after this entry is configured is less than or equal to the
falling threshold and startup falling or startup rising-falling is configured
then a single falling event is generated.
•owner string—Specify an owner for the alarm (string – no default).
Default Configuration
This command has no default configuration.
Command Mode
Global Configuration mode
User Guidelines
This command has no user guidelines.
Example
console(config)# rmon hcalarm 2 ifInOctets.1 30 absolute rising-threshold
high 2147483648 falling-threshold high -2147483648 startup rising owner
“dell-owner”
Switch Management Commands 2011
show rmon alarm
Use the show rmon alarm command in User Exec mode to display alarm
configuration. Also see the
rmon alarm
command.
Syntax
show rmon alarm number
• number — Alarm index. (Range: 1–65535)
Default Configuration
This command has no default configuration.
Command Mode
User Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
This command has no user guidelines.
Example
The following example displays RMON 1 alarms.
console> show rmon alarm 1
Alarm 1
-------
OID: 1.3.6.1.2.1.2.2.1.10.1
Last sample Value: 878128
Interval: 30
Sample Type: delta
Startup Alarm: rising
Rising Threshold: 8700000
Falling Threshold: 78
Rising Event: 1
Falling Event: 1
Owner: CLI
The following table describes the significant fields shown in the display:
Switch Management Commands 2012
Field Description
Alarm Alarm index.
OID Monitored variable OID.
Last Sample
Value
The statistic value during the last sampling period. For example,
if the sample type is delta, this value is the difference between the
samples at the beginning and end of the period. If the sample
type is absolute, this value is the sampled value at the end of the
period.
Interval The interval in seconds over which the data is sampled and
compared with the rising and falling thresholds.
Sample Type The method of sampling the variable and calculating the value
compared against the thresholds. If the value is absolute, the
value of the variable is compared directly with the thresholds at
the end of the sampling interval. If the value is delta, the value of
the variable at the last sample is subtracted from the current
value, and the difference compared with the thresholds.
Startup Alarm The alarm that may be sent when this entry is first set. If the first
sample is greater than or equal to the rising threshold, and startup
alarm is equal to rising or rising and falling, then a single rising
alarm is generated. If the first sample is less than or equal to the
falling threshold, and startup alarm is equal falling or rising and
falling, then a single falling alarm is generated.
Rising Threshold A sampled statistic threshold. When the current sampled value is
greater than or equal to this threshold, and the value at the last
sampling interval is less than this threshold, a single event is
generated.
Falling Threshold A sampled statistic threshold. When the current sampled value is
less than or equal to this threshold, and the value at the last
sampling interval is greater than this threshold, a single event is
generated.
Rising Event The event index used when a rising threshold is crossed.
Falling Event The event index used when a falling threshold is crossed.
Owner The entity that configured this entry.
Switch Management Commands 2013
show rmon alarms
Use the show rmon alarms command in User Exec mode to display the
alarms summary table.
Syntax
show rmon alarms
Default Configuration
This command has no arguments or keywords.
Command Mode
User Exec, Privileged Exec modes, Global Configuration mode and all
Configuration submodes
User Guidelines
This command has no user guidelines.
Example
The following example displays the alarms summary table:
console> show rmon alarms
Index OID Owner
----- ---------------------- -------
1 1.3.6.1.2.1.2.2.1.10.1 CLI
2 1.3.6.1.2.1.2.2.1.10.1 Manager
3 1.3.6.1.2.1.2.2.1.10.9 CLI
The following table describes the significant fields shown in the display:
Field Description
Index An index that uniquely identifies the entry.
OID Monitored variable OID.
Owner The entity that configured this entry.
Switch Management Commands 2014
show rmon collection history
Use the show rmon collection history command in User Exec mode to
display the requested group of statistics. Also see the
rmon collection history
command.
Syntax
show rmon collection history [{gigabitethernet unit/slot/port |
port-channel
port-channel-number
| tengigabitethernet unit/slot/port |
fortygigabitethernet unit/slot/port}]
Default Configuration
This command has no default configuration.
Command Mode
User Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
The following table describes the significant fields shown in the display:
Example
The following example displays all RMON group statistics.
console> show rmon collection history
Index Interface Interval Requested Granted Owner
Samples Samples
----------------------------------------------------------
Field Description
Index An index that uniquely identifies the entry.
Interface The sampled Ethernet interface.
Interval The interval in seconds between samples.
Requested Samples The requested number of samples to be saved.
Granted Samples The granted number of samples to be saved.
Owner The entity that configured this entry.
Switch Management Commands 2015
1 Gi1/0/1 30 50 50 CLI
2 Gi1/0/1 1800 50 50 Manager
show rmon events
Use the show rmon events command in User Exec mode to display the
RMON event table. Also see the
rmon event
command.
Syntax
show rmon events
Default Configuration
This command has no default configuration.
Command Mode
User Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
The following table describes the significant fields shown in the display:
Field Description
Index An index that uniquely identifies the event.
Description A comment describing this event.
Type The type of notification that the device generates about this event.
Can have the following values: none, log, trap, log-trap. In the case
of log, an entry is made in the log table for each event. In the case of
trap, an SNMP trap is sent to one or more management stations.
Community If an SNMP trap is to be sent, it is sent to the SNMP community
specified by this octet string.
Owner The entity that configured this event.
Last time sent The time this entry last generated an event. If this entry has not
generated any events, this value is zero.
Switch Management Commands 2016
Example
The following example displays the RMON event table.
console> show rmon events
Index Description Type Community Owner Last time sent
----- ----------- ---- --------- ------ -------------------
1 Errors Log CLI Jan 18 2005 23:58:17
2 High Broadcast Log-Trap switch Manager Jan 18 2005 23:59:48
show rmon hcalarm
Use the show rmon hcalarm command to display high capacity (64-bit)
alarms configured with the
rmon hcalarm
command.
Syntax
show rmon {hcalarms | hcalarm number}
• number—The alarm index (Range: 1-65535)
Default Configuration
This command has no default configuration.
Command Modes
Privileged Exec (all show modes)
User Guidelines
This command has no user guidelines.
Example
console#show rmon hcalarm 2
Alarm 2
----------
OID: ifInOctets.1
Last Sample Value: 0
Interval: 30
Sample Type: absolute
Startup Alarm: rising
Rising Threshold High: 2
Rising Threshold Low: 10
Switch Management Commands 2017
Rising Threshold Status: Positive
Falling Threshold High: 20
Falling Threshold Low: 10
Falling Threshold Status: Positive
Rising Event: 1
Falling Event: 2
Startup Alarm: Rising
Owner: dell-owner
console#show rmon hcalarms
Index OID Owner
----------------------------------------------
2 ifInOctets.1 dell-owner
show rmon history
Use the show rmon history command in User Exec mode to display RMON
Ethernet Statistics history. Also see the
rmon collection history
command.
Syntax
show rmon history index [throughput | errors | other] [period seconds]
• index — The requested set of samples. (Range: 1–65535)
•throughput — Displays throughput counters.
•errors — Displays error counters.
•other — Displays drop and collision counters.
•period seconds — Specifies the requested period time to display.
(Range: 0–2147483647)
Default Configuration
This command has no default configuration.
Command Mode
User Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
The following table describes the significant fields shown in the display:
Switch Management Commands 2018
Field Description
Time Date and Time the entry is recorded.
Octets The total number of octets of data (including those in bad packets)
received on the network (excluding framing bits but including FCS
octets).
Packets The number of packets (including bad packets) received during this
sampling interval.
Broadcast The number of good packets received during this sampling interval that
were directed to the Broadcast address.
Multicast The number of good packets received during this sampling interval that
were directed to a Multicast address. This number does not include
packets addressed to the Broadcast address.
% The best estimate of the mean physical layer network utilization on this
interface during this sampling interval, in hundredths of a percent.
CRC Align The number of packets received during this sampling interval that had a
length (excluding framing bits but including FCS octets) between 64
and 1518 octets, inclusive, but had either a bad Frame Check Sequence
(FCS) with an integral number of octets (FCS Error) or a bad FCS with
a non-integral number of octets (Alignment Error).
Undersize The number of packets received during this sampling interval that were
less than 64 octets long (excluding framing bits but including FCS
octets) and were otherwise well formed.
Oversize The number of packets received during this sampling interval that were
longer than 1518 octets (excluding framing bits but including FCS
octets) but were otherwise well formed.
Fragments The total number of packets received during this sampling interval that
were less than 64 octets in length (excluding framing bits but including
FCS octets) had either a bad Frame Check Sequence (FCS) with an
integral number of octets (FCS Error), or a bad FCS with a non-integral
number of octets (AlignmentError). It is normal for
etherHistoryFragments to increment because it counts both runts
(which are normal occurrences due to collisions) and noise hits.
Switch Management Commands 2019
Examples
The following example displays RMON Ethernet Statistics history for
“throughput” on index number 1.
console> show rmon history 1 throughput
Sample Set: 1 Owner: CLI
Interface: Gi1/0/1 interval: 1800
Requested samples: 50 Granted samples: 50
Maximum table size: 270
Time Octets Packets Broadcast Multicast %
-------------------- --------- ----------- ------ -------- --
09-Mar-2005 18:29:32 303595962 357568 3289 7287 19
09-Mar-2005 18:29:42 287696304 275686 2789 5878 20
The following example displays RMON Ethernet Statistics history for errors
on index number 1.
console> show rmon history 1 errors
Sample Set: 1Owner: Me
Interface: Gi1/0/1interval: 1800
Requested samples: 50Granted samples: 50
Maximum table size: 500 (800 after reset)
Time CRC UndersizeOversizeFragmentsJabbers Align
----------- --------- ---------- --------- --------- --------- ---------
09-Mar-2005110490 18:29:32
09-Mar-2005110270 18:29:42
The following example displays RMON Ethernet Statistics history for “other”
on index number 1.
Jabbers The number of packets received during this sampling interval that were
longer than 1518 octets (excluding framing bits but including FCS
octets), and had either a bad Frame Check Sequence (FCS) with an
integral number of octets (FCS Error) or a bad FCS with a non-integral
number of octets (Alignment Error).
Dropped The total number of events in which packets were dropped by the probe
due to lack of resources during this sampling interval. This number is
not necessarily the number of packets dropped. It is just the number of
times this condition has been detected.
Collisions The best estimate of the total number of collisions on this Ethernet
segment during this sampling interval.
Field Description
Switch Management Commands 2020
console> show rmon history 1 other
Sample Set: 1 Owner: Me
Interface: Gi1/0/1 Interval: 1800
Requested samples: 50 Granted samples: 50
Maximum table size: 270
Time Dropped Collisions
------------------- ----------- -----------
10-Mar-2005 22:06:00 3 0
10-Mar-2005 22:06:20 3 0
show rmon log
Use the show rmon log command in User Exec mode to display the RMON
logging table.
Syntax
show rmon log [event]
• event — Event index. (Range: 1–65535)
Default Configuration
This command has no default configuration.
Command Mode
User Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
The following table describes the significant fields shown in the display:
Example
The following examples display the RMON logging table.
Field Description
Event An index that uniquely identifies the event.
Description A comment describing this event.
Time The time this entry was created.
Switch Management Commands 2021
console> show rmon log
Maximum table size: 100
Event Description Time
----- ----------- --------------------
1 Errors Jan 18 2005 23:48:19
1 Errors Jan 18 2005 23:58:17
2 High Broadcast Jan 18 2005 23:59:48
console> show rmon log
Maximum table size: 100 (100 after reset)
Event Description Time
----- ----------- --------------------
1 Errors Jan 18 2005 23:48:19
1 Errors Jan 18 2005 23:58:17
2 High Broadcast Jan 18 2005 23:59:48
show rmon statistics
Use the show rmon statistics command in User Exec mode to display the
RMON Ethernet Statistics.
Syntax
show rmon statistics {gigabitethernet unit/slot/port|
port-channel port-
channel-number
| tengigabitethernet unit/slot/port | fortygigabitethernet
unit/slot/port}
Default Configuration
This command has no default configuration.
Command Mode
User Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
The following table describes the significant fields shown in the display:
Switch Management Commands 2022
Field Description
Dropped The total number of events in which packets are dropped by the
probe due to lack of resources. This number is not always the
number of packets dropped; it is the number of times this
condition has been detected.
Octets The total number of octets of data (including those in bad
packets) received on the network (excluding framing bits but
including FCS octets).
Packets The total number of packets (including bad packets, Broadcast
packets, and Multicast packets) received.
Broadcast The total number of good packets received and directed to the
Broadcast address. This does not include Multicast packets.
Multicast The total number of good packets received and directed to a
Multicast address. This number does not include packets
directed to the Broadcast address.
CRC Align Errors The total number of packets received with a length (excluding
framing bits, but including FCS octets) of between 64 and 1518
octets, inclusive, but with either a bad Frame Check Sequence
(FCS) with an integral number of octets (FCS Error) or a bad
FCS with a non-integral number of octets (Alignment Error).
Undersize Pkts The total number of packets received less than 64 octets long
(excluding framing bits, but including FCS octets) and
otherwise well formed.
Oversize Pkts The total number of packets received longer than 1518 octets
(excluding framing bits, but including FCS octets) and
otherwise well formed.
Fragments The total number of packets received less than 64 octets in
length (excluding framing bits but including FCS octets) and
either a bad Frame Check Sequence (FCS) with an integral
number of octets (FCS Error) or a bad FCS with a non-integral
number of octets (Alignment Error).
Jabbers The total number of packets received longer than 1518 octets
(excluding framing bits, but including FCS octets), and either a
bad Frame Check Sequence (FCS) with an integral number of
octets (FCS Error) or a bad FCS with a non-integral number of
octets (Alignment Error).
Switch Management Commands 2023
Example
The following example displays RMON Ethernet Statistics for port Te1/0/1.
console#show rmon statistics tengigabitethernet 1/0/1
Port: Te1/0/1
Dropped: 0
Octets: 0 Packets: 0
Broadcast: 0 Multicast: 0
CRC Align Errors: 0 Collisions: 0
Undersize Pkts: 0 Oversize Pkts: 0
Fragments: 0 Jabbers: 0
64 Octets: 0 65 - 127 Octets: 0
128 - 255 Octets: 0 256 - 511 Octets: 0
512 - 1023 Octets: 0 1024 - 1518 Octets: 0
HC Overflow Pkts: 0 HC Pkts: 0
HC Overflow Octets: 0 HC Octets: 0
HC Overflow Pkts 64 Octets: 0 HC Pkts 64 Octets: 0
Collisions The best estimate of the total number of collisions on this
Ethernet segment.
64 Octets The total number of packets (including bad packets) received
that are 64 octets in length (excluding framing bits but
including FCS octets).
65 to 127 Octets The total number of packets (including bad packets) received
that are between 65 and 127 octets in length inclusive
(excluding framing bits but including FCS octets).
128 to 255 Octets The total number of packets (including bad packets) received
that are between 128 and 255 octets in length inclusive
(excluding framing bits but including FCS octets).
256 to 511 Octets The total number of packets (including bad packets) received
that are between 256 and 511 octets in length inclusive
(excluding framing bits but including FCS octets).
512 to 1023 Octets The total number of packets (including bad packets) received
that are between 512 and 1023 octets in length inclusive
(excluding framing bits but including FCS octets).
1024 to 1518
Octets
The total number of packets (including bad packets) received
that are between 1024 and 1518 octets in length inclusive
(excluding framing bits but including FCS octets).
Field Description
Switch Management Commands 2024
HC Overflow Pkts 65 - 127 Octets: 0 HC Pkts 65 - 127 Octets: 0
HC Overflow Pkts 128 - 255 Octets: 0 HC Pkts 128 - 255 Octets: 0
HC Overflow Pkts 256 - 511 Octets: 0 HC Pkts 256 - 511 Octets: 0
HC Overflow Pkts 512 - 1023 Octets: 0 HC Pkts 512 - 1023 Octets: 0
HC Overflow Pkts 1024 - 1518 Octets: 0 HC Pkts 1024 - 1518 Octets: 0
Switch Management Commands 2025
Serviceability Commands
Debug commands cause the output of the enabled trace to display on a serial
port or telnet console. Note that the output resulting from enabling a debug
trace always displays on the serial port. The output resulting from enabling a
debug trace displays on all login sessions for which any debug trace has been
enabled. The configuration of a debug command remains in effect the whole
login session.
The output of a debug command is always submitted to the SYSLOG service
at a DEBUG severity level. As such, it can be forwarded to a SYSLOG server,
stored in the buffer log, or otherwise processed in accordance with the
configuration of the SYSLOG service. Configuration of console logging in the
SYSLOG service is not required in order to view the output of debug traces.
Debug commands are provided in the normal CLI tree. Debug settings are
not persistent and are not visible in the running configuration. To view the
current debug settings, use the show debugging command.
The output of debug commands can be large and may adversely affect system
performance.
Enabling debug for all IP packets can cause a serious impact on the system
performance; therefore, it is limited by ACLs. This means debug can be
enabled for IP packets that conform to the configured ACL. This also limits
the feature availability to only when the QoS component is available. Debug
for VRRP and ARP are available on routing builds.
Commands in this Section
This section explains the following commands:
debug aaa
accounting
debug
igmpsnooping
debug ipv6 pimsm exception core-file
debug arp debug ip acl debug isdp exception dump
debug
authentication
interface
debug ip bgp debug lacp exception protocol
debug auto-voip debug ip dvmrp debug mldsnooping exception switch-chip-
register
Switch Management Commands 2026
NOTE: Debug commands are not persistent across resets.
debug aaa accounting
Use the debug aaa accounting command to enable debugging for accounting.
Use the no form of the command to disable accounting debugging.
Syntax
debug aaa accounting
no debug aaa accounting
Default Configuration
Debugging is disabled by default.
Command Mode
Privileged Exec mode
debug bfd debug ip igmp debug ospfv3 show debugging
debug cfm debug ip mcache debug ping show supported mibs
debug clear debug ip pimdm
packet
debug rip show supported mibs
debug console debug ip pimsm
packet
debug sflow snapshot bgp
debug crashlog debug ipv6 dhcp debug spanning-
tree
write core
debug dhcp packet debug ipv6 mcache debug udld
–
debug dhcp server
packet
debug ipv6 mld debug vpc
–
debug dot1ag debug ipv6 pimdm debug vrrp
–
debug dot1x debug ospf ip http timeout-
policy
–
Switch Management Commands 2027
User Guidelines
Debug commands should be used with caution. Switch behavior may be
adversely affected by the additional processing load incurred by enabling
debug output.
Example
console#debug aaa accounting
debug arp
Use the debug arp command to enable tracing of ARP packets. Use the no
form of this command to disable tracing of ARP packets.
Use of the optional vrf parameter executes the command within the context
of the VRF specific routing table.
Syntax
debug arp [vrf vrf-name]
no debug arp
• vrf-name—The name of the VRF associated with the routing table
context used by the command. If no vrf is specified, the global routing
table context is used.
Default Configuration
ARP packet tracing is disabled by default.
Command Mode
Privileged Exec mode.
User Guidelines
The VRF identified in the parameter must have been previously created or an
error is returned.
Only IPv4 addresses are supported with the vrf parameter.
This vrf parameter is only available on the N3000/N3100/N4000 switches.
Switch Management Commands 2028
Debug output should be enabled with caution. Switch behavior may be
adversely affected by the additional processing load incurred from enabling
debug.
Example
console#debug arp
debug authentication interface
Use this command to enable Authentication Manager debug traces for the
interface.Use the no form of this command to set the debug trace to factory
default value.
Syntax
debug authentication {event | all} interface-id
no debug authentication {event | all} interface-id
•event—Traces Authentication Manager debug events.
•all—Enables all Authentication Manager debugs.
• interface-id—The interface to trace.
Default Configuration
Default value is disabled.
Command Modes
Privileged Exec mode
User Guidelines
Debug output should be enabled with caution. Switch behavior may be
adversely affected by the additional processing load incurred from enabling
debug.
Example
console# debug authentication event Gi1/0/1
console# debug authentication all Gi1/0/1
Switch Management Commands 2029
debug auto-voip
Use the debug auto-voip command to enable Auto VOIP debug messages.
See the optional parameters to trace H323, SCCP, or SIP packets respectively.
Use the “no” form of this command to disable Auto VOIP debug messages.
Syntax
debug auto-voip [H323 | SCCP | SIP]
no debug auto-voip [H323 | SCCP | SIP]
Default Configuration
Auto VOIP tracing is disabled by default.
Command Mode
Privileged Exec mode.
User Guidelines
Debug output should be enabled with caution. Switch behavior may be
adversely affected by the additional processing load incurred from enabling
debug.
Example
console#debug auto-voip
debug bfd
Use this command to enable the display of BFD events or packets.
Syntax
debug bfd {packet | event}
no debug bfd {packet | event}
•packet—Display BFD control packets.
•event—Display BFD state transition events.
Switch Management Commands 2030
Default Configuration
Debug is disabled by default.
Command Mode
Privileged Exec
User Guidelines
Debug commands should be used with caution. Switch behavior may be
adversely affected by the additional processing load incurred by enabling
debug output.
Example
console# configure
console(config)# vlan 100
console(config-vlan100)# exit
console(config)# interface vlan 100
console(config-if-vlan100)# bfd interval 100 min_rx 100 multiplier 5
debug cfm
Use the debug cfm command to enable CFM debugging. Use the no form of
the command to disable debugging.
Syntax
debug cfm {event | {pdu {all | ccm | ltm | lbm |} {tx | rx}}}
•event—CFM events
•pdu—CFM PDUs
•ccm—Continuity check messages
•ltm—Link trace messages
•lbm—Loopback messages
•tx—Transmit only
•rx—Receive only
•all—Everything
Switch Management Commands 2031
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec
User Guidelines
Debug commands should be used with caution. Switch behavior may be
adversely affected by the additional processing load incurred by enabling
debug output.
Example
The following examples enables display of CFM events on the console.
console#debug cfm event
debug clear
Use the debug clear command to disable all debug traces.
Syntax
debug clear
Default Configuration
There is no default configuration for this command.
Command Mode
Privileged Exec mode.
User Guidelines
There are no user guidelines for this command.
Example
console#debug clear
Switch Management Commands 2032
debug console
Use the debug console to enable the display of “debug” trace output on the
login session in which it is executed. Debug console display must be enabled
in order to view any trace output. The output of debug trace commands
appears on all login sessions for which debug console has been enabled. The
configuration of this command remains in effect for the life of the login
session. The effect of this command is not persistent across resets.
Syntax
debug console
Default Configuration
Display of debug traces is disabled by default.
Command Mode
Privileged Exec mode.
User Guidelines
Debug output should be enabled with caution. Switch behavior may be
adversely affected by the additional processing load incurred from enabling
debug.
Example
console#debug console
debug crashlog
Use this command to display the crash log contents on the console.
Syntax
debug crashlog {crashlog-index | proc | kernel crashlog-index | data
crashlog-index [comp-id] [item-number] [add-param] [add-param] |
deleteall} [unit unit-index]
• crashlog-index—Indicates which crash log to display. The range is 0-4. 0
indicates the most recent log and 4 specifies the oldest log.
Switch Management Commands 2033
•proc—Display the process crash log.
•kernel—Display the kernel crash data.
•data—Display the crash summary data.
•deleteall—Delete all existing crash logs.
• unit-index—An optional specifier identifying the stack unit number
from which to obtain the crash log.
• comp-id—
• item-number—
• add-param—
Default Configuration
By default, this command displays all crash logs for the specified index.
Command Modes
Privileged Exec mode, User Config mode, all show modes
User Guidelines
There are no user guidelines for this command.
Command History
Introduced in version 6.2.0.1 firmware.
Example
This example displays the most recent crash log for the stack master.
console#debug crashlog 0
Displaying Crash Dump 0
For kernel Crash Dump - osapiDebugCrashDumpDisplay(x,1)
***************************************************
* Start Stack Information *
***************************************************
pid: 32195
TID: -1215952016
Task Name: emWeb
si_signo: 11
si_errno: 0
Switch Management Commands 2034
si_code: 1
si_addr: 0x0
Date/Time: 8/13/2011 16:37:31
SW ver: 0.0.0.0
------------ CALL STACK INFO ------------
Stack pointer before signal: 0x00000000
Offending instruction at address 0x00000000
tried to access address 0x00000000
CPU's exception-cause code: 0x00000000
Registers (hex) at time of fault:
r01: 00000000 r02: 00000000 r03: 00000000 r04: 00000000
r05: 00000000 r06: 00000000 r07: 00000000 r08: 00000000 r09: 00000000
r10: 00000000 r11: 00000000 r12: 00000000 r13: 00000000 r14: 00000000
r15: 00000000 r16: 00000000 r17: 00000000 r18: 00000000 r19: 00000000
r20: 00000000 r21: 00000000 r22: 00000000 r23: 00000000 r24: 00000000
r25: 00000000 r26: 00000000 r27: 00000000 r28: 00000000 r29: 00000000
r30: 00000000 r31: 00000000
$0x083da883$ $0x083c9955$ $0x0804b8f6$ $0x0012e40c$ $0x083c73c3$
$0x083c7211$
$0x082b05e3$ $0x081ed66c$ $0x0839db78$ $0x083a0c22$ $0x0839b295$
$0x0839a928$
$0x083a7b73$ $0x08387592$ $0x08372fbc$ $0x08395caf$ $0x083996de$
$0x083d6f71$
$0x00134e99$ $0x0021873e$
-----------------------------------------
***************************************************
* End Stack Information *
***************************************************
------------ CALL STACK INFO (VERBOSE) ------------
Stack pointer before signal: 0x00000000
Offending instruction at address 0x00000000
tried to access address 0x00000000
CPU's exception-cause code: 0x00000000
Registers (hex) at time of fault:
r01: 00000000 r02: 00000000 r03: 00000000 r04: 00000000
r05: 00000000 r06: 00000000 r07: 00000000 r08: 00000000 r09: 00000000
r10: 00000000 r11: 00000000 r12: 00000000 r13: 00000000 r14: 00000000
r15: 00000000 r16: 00000000 r17: 00000000 r18: 00000000 r19: 00000000
r20: 00000000 r21: 00000000 r22: 00000000 r23: 00000000 r24: 00000000
r25: 00000000 r26: 00000000 r27: 00000000 r28: 00000000 r29: 00000000
r30: 00000000 r31: 00000000
Switch Management Commands 2035
$083da883$ osapiSigTrace + 0x14f
$083c9ac0$ osapiCrashDump + 0x449
$0804b8f6$ sigsegv_handler + 0xa7
$0012e40c$ ?????
$083c73c3$ osapiFree + 0x187
$083c7211$ osapiDebugCorruptHeap + 0x65
$082b05e3$ cliDevShell + 0x2ab
$081ed66c$ commandDevShell + 0x373
$0839db78$ ewsCliExec + 0xbf
$083a0c22$ ewsCliData + 0x3045
$0839b295$ ewaNetTelnetDataInternal + 0x959
$0839a928$ ewaNetTelnetData + 0x30
$083a7b73$ ewsTelnetParse + 0x2b9
$08387592$ ewsParse + 0x162a
$08372fbc$ ewsRun + 0x149
$08395caf$ ewmain + 0x17c
$083996de$ emweb_main + 0x1a3
$083d6f71$ osapi_task_wrapper + 0xa6
$00134e99$ ?????
$0021873e$ ?????
-----------------------------------------
debug dhcp packet
Use the debug dhcp packet command to display debug information about
DHCPv4 client activities and to trace DHCPv4 packets to and from the local
DHCPv4 client. To disable debugging, use the no form of this command.
Syntax
debug dhcp packet [transmit | receive]
no debug dhcp packet [transmit | receive]
Default Configuration
By default, DHCP client packet tracing is disabled.
Command Mode
Privileged Exec
Switch Management Commands 2036
User Guidelines
The DHCP client has an internal packet tracing capability. This command
turns the packet tracing on.
Debug commands should be used with caution. Switch behavior may be
adversely affected by the additional processing load incurred by enabling
debug output.
Example
This example enables DHCP client packet tracing for both transmit and
receive flows.
console#debug dhcp packet
The second example is for transmit flow.
console#debug dhcp packet transmit
The third example is for receive flow.
console#debug dhcp packet receive
debug dhcp server packet
Use this command to trace DHCPv4 packets to and from the local DHCPv4
server. To disable debugging, use the no form of this command.
Syntax
debug dhcp server packet
no debug dhcp server packet
Default Configuration
DHCP server packet tracing is disabled by default.
Command Mode
Privileged Exec
User Guidelines
The DHCP server support an internal packet tracing facility. This command
turns the packet tracing on.
Switch Management Commands 2037
Debug commands should be used with caution. Switch behavior may be
adversely affected by the additional processing load incurred by enabling
debug output.
Example
This example enables DHCP server packet tracing.
console#debug dhcp server packet
debug dot1ag
Use this command to enable or disable the tracing of CFM components for
events and CFM PDUs based on the type of packet for reception and
transmission.
Syntax
debug dot1ag {all | ccm | events | lbm | lbr | ltm | ltr | pdu}
no debug dot1ag {all | ccm | events | lbm | lbr | ltm | ltr | pdu}
•all—Traces CCM, LBM, LBR, LTM, LTRs.
•ccm—Traces CCMs
•events—Traces CFM events
•lbm—Traces LBMs
•lbr—Traces LBRs
•ltm—Traces LTMs
•ltr—Traces LTRs
•pdu—Traces specific PDUs
Default Configuration
Tracing is disabled by default.
Command Modes
Privileged Exec mode
User Guidelines
This command is only application to N4000 series switches.
Switch Management Commands 2038
Debug output should be enabled with caution. Switch behavior may be
adversely affected by the additional processing load incurred from enabling
debug.
Example
console#debug dot1ag all
Dot1ag CCM, LBM, LBR, LTM, LTR tracing enabled.
console#
console#debug dot1ag events
Dot1ag events tracing enabled.
console#
console#debug dot1ag ccm
Dot1ag CCM tracing enabled.
console#
console#no debug dot1ag ccm
Dot1ag CCM tracing disabled.
debug dot1x
Use the debug dot1x command to enable dot1x packet tracing. Use the “no”
form of this command to disable dot1x packet tracing.
Syntax
debug dot1x packet [receive | transmit]
no debug dot1x packet [receive | transmit]
Default Configuration
Display of dot1x traces is disabled by default.
Command Mode
Privileged Exec mode.
Switch Management Commands 2039
User Guidelines
Debug output should be enabled with caution. Switch behavior may be
adversely affected by the additional processing load incurred from enabling
debug.
Example
console#debug dot1x packet
debug igmpsnooping
Use the debug igmpsnooping to enable tracing of IGMP Snooping packets
transmitted and/or received by the switch. IGMP Snooping should be enabled
on the device and the interface in order to monitor packets for a particular
interface.
Syntax
debug igmpsnooping packet [receive | transmit]
no debug igmpsnooping packet [receive | transmit]
Default Configuration
Display of IGMP Snooping traces is disabled by default.
Command Mode
Privileged Exec mode.
User Guidelines
Debug output should be enabled with caution. Switch behavior may be
adversely affected by the additional processing load incurred from enabling
debug.
Example
console#debug igmpsnooping packet
Switch Management Commands 2040
debug ip acl
Use the debug ip acl command to enable debug of IP Protocol packets
matching the ACL criteria. Use the “no” form of this command to disable IP
ACL debugging.
Syntax
debug ip acl acl
no debug ip acl acl
• acl — The number of the IP ACL to debug.
Default Configuration
Display of IP ACL traces is disabled by default.
Command Mode
Privileged Exec mode.
User Guidelines
Debug output should be enabled with caution. Switch behavior may be
adversely affected by the additional processing load incurred from enabling
debug.
Example
console#debug ip acl 1
debug ip bgp
To enable debug tracing of BGP events, use the debug ip bgp command. To
disable debug tracing, use the no form of this command.
Syntax
debug ip bgp [vrf vrf-name] [ipv4-address | ipv6-address [interface interface-
id]]| events | keepalives | notification | open | refresh | updates | in | out]
no debug ip bgp [ipv4-address | ipv6-address [interface interface-id] | events
| keepalives | notification | open | refresh | updates | in | out]
• interface-id—A routing interface identifier (VLAN interface).
Switch Management Commands 2041
•vrf vrf-name—Displays aggregate address information associated with
the named VRF.
• ipv4-address—(Optional) The IPv4 address of a BGP peer. Debug traces
are enabled for a specific peer when this option is specified. The
command can be issued multiple times to enable simultaneous tracing
for multiple peers.
• ipv6-address [interface interface-id]—The IPv6 address of a BGP peer.
Debug traces are enabled for a specific peer when this option is
specified. The command can be issued multiple times to enable
simultaneous tracing for multiple peers.
•events—(Optional) Trace adjacency state events.
•keepalives—(Optional) Trace transmit and receive of KEEPALIVE
packets.
•notification—(Optional) Trace transmit and receive of
NOTIFICATION packets.
•open—(Optional) Trace transmit and receive of OPEN packets.
•refresh—(Optional) Traces transmit and receive of ROUTE REFRESH
packets.
•updates—(Optional) Traces transmit and receive of UPDATE packets.
•in—(Optional) Trace received packets.
•out—(Optional) Trace sent packets.
Default Configuration
Debug tracing is not enabled by default. By default, debug capability for the
the global VRF is configured.
Command Mode
Global Configuration mode
User Guidelines
Debug messages are sent to the system log at the DEBUG severity level. To
print them on the console, enable console logging at the DEBUG level
(logging console debug).
The debug options enabled for a specific peer are the union of the options
enabled globally and the options enabled specifically for the peer.
Switch Management Commands 2042
Enabling one of the packet type options enables packet tracing in both the
inbound and outbound directions.
Debug commands should be used with caution. Switch behavior may be
adversely affected by the additional processing load incurred by enabling
debug output.
If the vrf-name is specified, information pertaining to that VRF is displayed.
Command History
Introduced in version 6.2.0.1 firmware.
Updated in version 6.3.0.1 firmware.
Example
console#debug ip bgp 10.27.21.142 events
debug ip dvmrp
Use the debug ip dvmrp to trace DVMRP packet reception and transmission.
The receive option traces only received DVMRP packets and the transmit
option traces only transmitted DVMRP packets. When neither keyword is
used in the command, all DVMRP packet traces are dumped. Vital
information such as source address, destination address, control packet type,
packet length, and the interface on which the packet is received or
transmitted is displayed on the console.
Syntax
debug ip dvmrp packet [receive | transmit]
no debug ip dvmrp packet [receive | transmit]
Default Configuration
Display of DVMRP traces is disabled by default.
Command Mode
Privileged Exec mode.
Switch Management Commands 2043
User Guidelines
Debug output should be enabled with caution. Switch behavior may be
adversely affected by the additional processing load incurred from enabling
debug.
Example
console#debug ip dvmrp packet
debug ip igmp
Use the debug ip igmp command to trace IGMP packet reception and
transmission. The receive option traces only received IGMP packets and the
transmit option traces only transmitted IGMP packets. When neither
keyword is used in the command, then all IGMP packet traces are dumped.
Vital information such as source address, destination address, control packet
type, packet length, and the interface on which the packet is received or
transmitted is displayed on the console. Use the “no” form of this command
to disable IGMP traces.
Syntax
debug ip igmp packet [receive | transmit]
no debug ip igmp packet [receive | transmit]
Default Configuration
Display of IGMP traces is disabled by default.
Command Mode
Privileged Exec mode.
User Guidelines
Debug output should be enabled with caution. Switch behavior may be
adversely affected by the additional processing load incurred from enabling
debug.
Example
console#debug ip igmp packet
Switch Management Commands 2044
debug ip mcache
Use the debug ip mcache command for tracing MDATA packet reception and
transmission. The receive option traces only received data packets and the
transmit option traces only transmitted data packets. When neither keyword
is used in the command, then all data packet traces are dumped. Vital
information such as source address, destination address, packet length, and
the interface on which the packet is received or transmitted is displayed on
the console. Use the “no” form of this command to disable MDATA tracing.
Syntax
debug ip mcache packet [receive | transmit]
no debug ip mcache packet [receive | transmit]
Default Configuration
Display of MDATA traces is disabled by default.
Command Mode
Privileged Exec mode.
User Guidelines
Debug output should be enabled with caution. Switch behavior may be
adversely affected by the additional processing load incurred from enabling
debug.
Example
console#debug ip mcache packet
debug ip pimdm packet
Use the debug ip pimdm packet command to trace PIMDM packet reception
and transmission. The receive option traces only received PIMDM packets
and the transmit option traces only transmitted PIMDM packets. When
neither keyword is used in the command, then all PIMDM packet traces are
dumped. Vital information such as source address, destination address,
control packet type, packet length, and the interface on which the packet is
received or transmitted is displayed on the console.
Switch Management Commands 2045
Use the no form of this command to disable debug tracing of PIMDM packet
reception and transmission.
Syntax
debug ip pimdm packet [receive | transmit]
no debug ip pimdm packet [receive | transmit]
Default Configuration
Display of PIMDM traces is disabled by default.
Command Mode
Privileged Exec mode.
User Guidelines
Debug output should be enabled with caution. Switch behavior may be
adversely affected by the additional processing load incurred from enabling
debug.
Example
console#debug ip pimdm packet
debug ip pimsm packet
Use the debug ip pimsm command to trace PIMSM packet reception and
transmission. The receive option traces only received PIMSM packets and the
transmit option traces only transmitted PIMSM packets. When neither
keyword is used in the command, then all PIMSM packet traces are dumped.
Vital information such as source address, destination address, control packet
type, packet length, and the interface on which the packet is received or
transmitted is displayed on the console. Use the no form of this command to
disable debug tracing of PIMSM packet reception and transmission.
Syntax
debug ip pimsm packet [receive | transmit]
no debug ip pimsm packet [receive | transmit]
Switch Management Commands 2046
Default Configuration
Display of PIMSM traces is disabled by default.
Command Mode
Privileged Exec mode.
User Guidelines
Debug output should be enabled with caution. Switch behavior may be
adversely affected by the additional processing load incurred from enabling
debug.
Example
console#debug ip pimsm packet
debug ipv6 dhcp
Use the debug ipv6 dhcp command to display debug information about
DHCPv6 client activities and to trace DHCPv6 packets to and from the local
DHCPv6 client. To disable debugging, use the no form of the command.
Syntax
debug ipv6 dhcp
no debug ipv6 dhcp
Default Configuration
Debugging for the DHCP for IPv6 is disabled by default.
Command Mode
Privileged Exec
User Guidelines
This command enabled DHCPv6 packet tracing.
Debug output should be enabled with caution. Switch behavior may be
adversely affected by the additional processing load incurred from enabling
debug.
Switch Management Commands 2047
Examples
console#debug ipv6 dhcp
debug ipv6 mcache
Use the debug ipv6 mcache command to trace MDATAv6 packet reception
and transmission. The receive option traces only received data packets and
the transmit option traces only transmitted data packets. When neither
keyword is used in the command, then all data packet traces are dumped.
Vital information such as source address, destination address, packet length,
and the interface on which the packet is received or transmitted is displayed
on the console.
Syntax
debug ipv6 mcache packet [receive | transmit]
no debug ipv6 mcache packet [receive | transmit]
Default Configuration
Display of MDATA traces is disabled by default.
Command Mode
Privileged Exec mode.
User Guidelines
Debug output should be enabled with caution. Switch behavior may be
adversely affected by the additional processing load incurred from enabling
debug.
Example
console#debug ipv6 mcache packet
debug ipv6 mld
Use the debug ipv6 mld command to trace MLD packet reception and
transmission. The receive option traces only received MLD packets and the
transmit option traces only transmitted MLD packets. When neither keyword
is used in the command, then all MLD packet traces are dumped. Vital
Switch Management Commands 2048
information such as source address, destination address, control packet type,
packet length, and the interface on which the packet is received or
transmitted is displayed on the console. Use the “no” form of this command
to disable MLD tracing.
Syntax
debug ipv6 mld packet [receive | transmit]
no debug ipv6 mld packet [receive | transmit]
Default Configuration
Display of MLD traces is disabled by default.
Command Mode
Privileged Exec mode.
User Guidelines
Debug output should be enabled with caution. Switch behavior may be
adversely affected by the additional processing load incurred from enabling
debug.
Example
console#debug ipv6 mld packet
debug ipv6 pimdm
Use the debug ipv6 pimdm command to trace PIMDMv6 packet reception
and transmission. The receive option traces only received PIMDMv6 packets
and the transmit option traces only transmitted PIMDMv6 packets. When
neither keyword is used in the command, then all PIMDMv6 packet traces are
dumped. Vital information such as source address, destination address,
control packet type, packet length, and the interface on which the packet is
received or transmitted is displayed on the console. Use the “no” form of this
command to disable PIMDMv6 tracing.
Syntax
debug ipv6 pimdm packet [receive | transmit]
Switch Management Commands 2049
no debug ipv6 pimdm packet [receive | transmit]
Default Configuration
Display of PIMDMv6 traces is disabled by default.
Command Mode
Privileged Exec mode.
User Guidelines
Debug output should be enabled with caution. Switch behavior may be
adversely affected by the additional processing load incurred from enabling
debug.
Example
console#debug ipv6 pimdm packet
debug ipv6 pimsm
Use the debug ipv6 pimsm command to trace PIMSMv6 packet reception
and transmission. The receive option traces only received PIMSMv6 packets
and the transmit option traces only transmitted PIMSMv6 packets. When
neither keyword is used in the command, then all PIMSMv6 packet traces are
dumped. Vital information such as source address, destination address,
control packet type, packet length, and the interface on which the packet is
received or transmitted is displayed on the console. Use the “no” form of this
command to disable PIMSMv6 tracing.
Syntax
debug ipv6 pimsm packet [receive | transmit]
no debug ipv6 pimsm packet [receive | transmit]
Default Configuration
Display of PIMSMv6 traces is disabled by default.
Command Mode
Privileged Exec mode.
Switch Management Commands 2050
User Guidelines
Debug output should be enabled with caution. Switch behavior may be
adversely affected by the additional processing load incurred from enabling
debug.
Example
console#debug ipv6 pimsm packet
debug isdp
Use the debug isdp command to trace ISDP packet reception and
transmission. The receive option traces only received ISDP packets and the
transmit option traces only transmitted ISDP packets. When neither keyword
is used in the command, then all ISDP packet traces are dumped. Vital
information such as source address, destination address, control packet type,
packet length, and the interface on which the packet is received or
transmitted is displayed on the console. Use the “no” form of this command
to disable ISDP tracing.
Syntax
debug isdp packet [receive | transmit]
no debug isdp packet [receive | transmit]
Default Configuration
Display of ISDP traces is disabled by default.
Command Mode
Privileged Exec mode.
User Guidelines
Debug output should be enabled with caution. Switch behavior may be
adversely affected by the additional processing load incurred from enabling
debug.
Example
console#debug isdp packet
Switch Management Commands 2051
debug lacp
Use the debug lacp command to enable tracing of LACP packets received and
transmitted by the switch. Use the “no” form of this command to disable
tracing of LACP packets.
Syntax
debug lacp packet
no debug lacp packet
Default Configuration
Display of LACP traces is disabled by default.
Command Mode
Privileged Exec mode.
User Guidelines
Debug output should be enabled with caution. Switch behavior may be
adversely affected by the additional processing load incurred from enabling
debug.
Example
console#debug lacp packet
debug mldsnooping
Use the debug mldsnooping command to trace MLD snooping packet
reception and transmission. The receive option traces only received MLD
snooping packets and the transmit option traces only transmitted MLD
snooping packets. When neither keyword is used in the command, then all
MLD snooping packet traces are dumped. Vital information such as source
address, destination address, control packet type, packet length, and the
interface on which the packet is received or transmitted is displayed on the
console. Use the “no” form of this command to disable tracing of MLD
Snooping packets.
Switch Management Commands 2052
Syntax
debug mldsnooping packet [receive | transmit]
no debug mldsnooping packet [receive | transmit]
Default Configuration
Display of MLD Snooping traces is disabled by default.
Command Mode
Privileged Exec mode.
User Guidelines
Debug output should be enabled with caution. Switch behavior may be
adversely affected by the additional processing load incurred from enabling
debug.
Example
console#debug mldsnooping
debug ospf
Use the debug ospf command to enable tracing of OSPF packets received and
transmitted by the switch. Use the no form of this command to disable
tracing of OSPF packets.
Use of the optional VRF parameter executes the command within the
context of the VRF specific routing table.
Syntax
debug ospf packet [vrf vrf-name]
no debug ospf packet
• vrf-name—The name of the VRF associated with the routing table
context used by the command. If no vrf is specified, the global routing
table context is used.
Default Configuration
Display of OSPF traces is disabled by default.
Switch Management Commands 2053
Command Mode
Privileged Exec mode.
User Guidelines
The VRF identified in the parameter must have been previously created or an
error is returned.
Only IPv4 addresses are supported with the vrf parameter.
This command is only available on the N3000/N3100/N4000 switches.
Debug output should be enabled with caution. Switch behavior may be
adversely affected by the additional processing load incurred from enabling
debug.
Example
console#debug ospf packet
debug ospfv3
Use the debug ospfv3 command to enable tracing of OSPFv3 packets
received and transmitted by the switch. Use the “no” form of this command
to disable tracing of OSPFv3 packets.
Syntax
debug ospfv3 packet
no debug ospfv3 packet
Default Configuration
Display of OSPFv3 traces is disabled by default.
Command Mode
Privileged Exec mode.
User Guidelines
Debug output should be enabled with caution. Switch behavior may be
adversely affected by the additional processing load incurred from enabling
debug.
Switch Management Commands 2054
Example
console#debug ospfv3 packet
debug ping
Use the debug ping command to enable tracing of ICMP echo requests and
responses. This command traces pings on the network port and on the
routing interfaces. Use the no form of this command to disable tracing of
ICMP echo requests and responses.
Use of the optional vrf parameter executes the command within the context
of the VRF specific routing table.
Syntax
debug ping packet [vrf vrf-name]
no debug ping packet
•vrf-name—The name of the VRF associated with the routing table
context used by the command. If no vrf is specified, the global routing
table context is used.
Default Configuration
Display of ICMP echo traces is disabled by default.
Command Mode
Privileged Exec mode.
User Guidelines
The VRF identified in the parameter must have been previously created or an
error is returned.
Only IPv4 addresses are supported with the vrf parameter.
This command is only available on the N3000/N3100/N4000 switches.
Debug output should be enabled with caution. Switch behavior may be
adversely affected by the additional processing load incurred from enabling
debug.
Switch Management Commands 2055
Example
The following example displays.
console#debug ping packet
debug rip
Use the debug rip command to enable tracing of RIP requests and responses.
Use the no form of this command to disable tracing of RIP requests and
responses.
Syntax
debug rip packet
no debug rip packet
Default Configuration
Display of RIP traces is disabled by default.
Command Mode
Privileged Exec mode.
User Guidelines
Debug output should be enabled with caution. Switch behavior may be
adversely affected by the additional processing load incurred from enabling
debug.
Example
console#debug rip packet
debug sflow
Use the debug sflow command to enable sFlow debug packet trace. Use the
no form of this command to disable sFlow packet tracing.
Syntax
debug sflow packet
no debug sflow packet
Switch Management Commands 2056
Default Configuration
Display of sFlow traces is disabled by default.
Command Mode
Privileged Exec mode.
User Guidelines
Debug output should be enabled with caution. Switch behavior may be
adversely affected by the additional processing load incurred from enabling
debug.
Example
console#debug sflow packet
debug spanning-tree
Use the debug spanning-tree command to trace spanning tree BPDU packet
reception and transmission. The receive option traces only received spanning
tree BPDUs and the transmit option traces only transmitted BPDUs. When
neither keyword is used in the command, all spanning tree BPDU traces are
dumped. Vital information such as source address, destination address,
control packet type, packet length, and the interface on which the packet is
received or transmitted is displayed on the console. Use the no form of this
command to disable tracing of spanning tree BPDUs.
Syntax
debug spanning-tree bpdu [receive | transmit]
no debug spanning-tree bpdu [receive | transmit]
Default Configuration
Display of spanning tree BPDU traces is disabled by default.
Command Mode
Privileged Exec mode.
Switch Management Commands 2057
User Guidelines
Debug output should be enabled with caution. Switch behavior may be
adversely affected by the additional processing load incurred from enabling
debug.
Example
console#debug spanning-tree bpdu
debug udld
Use the debug udld command to enable the display of UDLD packets or
event processing.
Use the no form of the command to disable debugging.
Syntax
debug udld {packet [receive|transmit]|events}
no debug udld {packet [receive|transmit]|events}
•Packet—Display transmitted and received UDLD packets.
•Receive—Debug packets received by the switch.
•Transmit—Debug packets transmitted by the switch.
•Events—Display UDLD events.
Default Configuration
By default, debugging is disabled.
Command Mode
Privileged Exec mode
User Guidelines
Debug commands should be used with caution. Switch behavior may be
adversely affected by the additional processing load incurred by enabling
debug output.
Switch Management Commands 2058
debug vpc
Use the debug vpc command to enable debug traces for the specified
protocols. Use the no form of the command to disable all or some of the
debug trace display.
Syntax
debug vpc {peer-keepalive [packet]| peer-link {control-message | data-
message} | peer detection | core}
no debug vpc [{peer-keepalive [packet]| peer-link {control-message | data-
message} | peer detection | core]
•peer-keepalive—Displays the debug traces for the keepalive state
machine transitions. The packet option enables debug traces for the
keepalive packets exchanged between the MLAG peer devices on the
peer link.
•peer-link—In error cases, enables the debug traces for the control
messages or data messages exchanged between the MLAG devices on
the peer link.
•peer detection—Enables the debug traces dual control plane detection
protocol. Traces are seen when DCPDP state changes occur
(enable/disable, peer detected…).
•core—Displays the MLAG core messages.
Default Configuration
This command has no default configuration.
Command Modes
Global Configuration mode
User Guidelines
Debug commands should be used with caution. Switch behavior may be
adversely affected by the additional processing load incurred by enabling
debug output.
Example
console#debug vpc peer-link data-message
Switch Management Commands 2059
VPC peer link data message tracing enabled.
debug vrrp
Use the debug vrrp command to enable VRRP debug protocol messages. Use
the no form of this command to disable VRRP debug protocol messages.
Syntax
debug vrrp all
no debug vrrp all
Default Configuration
The display of VRRP traces is disabled by default.
Command Mode
Privileged Exec mode.
User Guidelines
Debug output should be enabled with caution. Switch behavior may be
adversely affected by the additional processing load incurred from enabling
debug.
exception core-file
Use the exception core-file command to configure the core dump file name.
Use the no form of the command the reset the core file name to the default.
Syntax
exception core-file file-name [hostname [time-stamp] | time-stamp
[hostname]]
no exception core-file
• file-name — The file name. The maximum length is 15 characters.
Embedded blanks may not be allowed by the host file system (for
example, TFTP server) and are not recommended.
Switch Management Commands 2060
•hostname — Includes the switch host name in the core file name. If not
configured, uses the switch MAC address in the core file name.
• time-stamp—Includes the switch TOD in the core file name.
Default Configuration
By default, the core file name has no prefix and no host name and uses the
time stamp of the switch in the core file name.
Command Modes
Global Configuration mode
User Guidelines
The configuration parameters are not validated when this command is
entered. Use the write core test command to validate the configured
parameters and that the core dump is likely to succeed.
An average core file is around 450 KB. Example copy times are as follows:
• TFTP: 13mins (different subnet)
• USB: 3 mins
Administrators should ensure that a cleanly formatted USB flash drive of at
least 1G is used for collection of a the full core dump.
Example
This example enables core dumps to a TFTP server 10.27.9.1 reachable over
the out-of-band port. The core file is written to the dumps directory and the
name includes the host name of the switch and the switch TOD.
console(config)#exception dump tftp-server 10.27.9.1 file-path dumps
console(config)#exception core-file hostname time-stamp
console(config)#exception protocol tftp
exception dump
Use this command to configure the core dump location. Use the no form of
the command to reset the location and parameters to the default values.
Switch Management Commands 2061
Syntax
exception dump {tftp-server ip-address | ftp-server ip-address [username
user-name {nopassword | password password} ] | file-path dir | compression
| stack-ip-address [protocol {dhcp | static} | add ip-address netmask
[gateway]]
no exception dump {tftp-server | file-path}
• ip-address—The IPv4 address of a TFTP server.
•ftp-server—Transfer the core information to an FTP server.
•username—The login id on the FTP server
•nopassword—The user id configured on the FTP server does not require
a password.
•password—The user id configured on the FTP server requires a
password.
•file-path—The directory to prepend to the core file name.
•protocol dhcp—Obtain the out-of-band port address via DHCP for core
dump transfer.
•protocol static—Use a statically assigned address for core dump transfer
Default Configuration
Debug core dumps are disabled by default.
The out-of-band port attempts to retrieve an IP address via DHCP by default.
No TFTP or FTP server is defined.
No stack IP addresses are assigned
Compression is enabled by default
Command Modes
Global Configuration mode
User Guidelines
This option should only be used under the direction of Dell support
personnel.
The file-path parameter is used by both the USB and TFTP core dumps.
Switch Management Commands 2062
The TFTP or FTP server must be reachable over the out-of-band interface.
Front panel ports cannot be used during exception processing.
Configuration parameters are not validated when the command is entered.
Use the write core test command to validate the configured parameters and
that the core dump is likely to succeed.
Crash dump retrieval via FTP or TFTP occurs after the system has crashed.
During this time, the switch is not available for normal operation.
If no DHCP server is available for assignment of addresses to switches, the
exception dump stack-ip-address protocol static add command should be
used once for each member of the stack. It is recommended that these
addresses be unique in the network. The stack master will distribute the
addresses to the stack members for use on the out-of-band port only during
crash dump transfer. In addition, for the purposes of transferring the core file
to the server, a unique MAC address is assigned to the stack unit. As crash
dump retrieval is not reliable on the front panel ports, the TFTP and FTP
parameters are not available on the N1100-ON/N2100-ON/N1500/N2000
Series switches. Use the USB crash dump capability instead.
Example
This example enables core dumps to a TFTP server 10.27.9.1 reachable over
the out-of-band port. The core file is written to the “dumps” directory and
the name includes the host name of the switch and the switch TOD.
console(config)#exception dump tftp-server 10.27.9.1 file-path dumps
console(config)#exception core-file Core hostname time-stamp
console(config)#exception protocol tftp
exception protocol
Use the exception protocol command as directed by Dell EMC Networking
support to enable full core dumps. Use the no form of the command to
disable full core dumps.
Syntax
exception protocol {local |tftp | ftp | usb | none}
no exception protocol
•local—Save the core file on the local file system.
Switch Management Commands 2063
•tftp — Store the core dump on a TFTP server reachable on the out-of-
band port.
•ftp—Enable core transfer to an FTP server reachable on the out-of-band
port.
• user-name—The login id on the FTP server.
•nopassword—The user id configured on the FTP server does not require
a password.
•password – the user id configured on the FTP server requires a password.
• password—The password associated with the user id on the FTP server.
• ip address—The IPv4 address of an FTP or TFTP server.
•usb — Store the core dump on a USB device.
•none — Core dumps are disabled.
Stack-ip-address parameters:
• ipv4-address—The address used by the of the out-of-band port of the
switch during crash dump transfer.
• netmask —The netmask for use with the ip address for core dump
transfer.
• gateway —The default gateway to use on the out-of-band port for core
dump transfer.
•protocol dhcp—Obtain the out-of-band port address via DHCP for core
dump transfer.
•protocol static—Use a statically assigned address for core dump transfer.
Default Configuration
Debug core dumps are disabled by default.
The out-of-band port attempts to retrieve an IP address via DHCP by default.
No TFTP or FTP server is defined.
No stack IP addresses are assigned
Compression is enabled by default
Command Modes
Global Configuration mode
Switch Management Commands 2064
User Guidelines
Crash dump retrieval via FTP or TFTP occurs after the system has crashed.
During this time, the switch is not available for normal operation.
If no DHCP server is available for assignment of addresses to switches, the
exception dump stack-ip-address protocol static add command should be
used once for each member of the stack. It is recommended that these
addresses be unique in the network. The stack master will distribute the
addresses to the stack members for use on the out-of-band port only during
crash dump transfer. In addition, for the purposes of transferring the core file
to the server, a unique MAC address is assigned to the stack unit.
As crash dump retrieval is not reliable on the front panel ports, the TFTP and
FTP parameters are not available on the N1100-ON/N1500/N2000/N2100
series switches. Use the USB crash dump capability instead.
Example
This example enables core dumps to a TFTP server 10.27.9.1 reachable over
the out-of-band port. The core file is written to the dumps directory and the
name includes the host name of the switch and the switch TOD.
console(config)#exception dump tftp-server 10.27.9.1 file-path dumps
console(config)#exception core-file Core hostname time-stamp
console(config)#exception protocol tftp
This example enables core dumps to a USB flash drive. The core file is written
to the top level directory and the name includes the host name of the switch
and the switch TOD.
console(config)#exception core-file Core hostname time-stamp
console(config)#exception protocol usb
console(config)#do dir usb
Attr Size(bytes) Creation Time Name
drwx 16384 Jan 01 1970 00:00:00 .
drwx 0 Dec 16 2014 18:25:43 ..
-rwx 943 Jan 01 1980 00:00:00 start.scr
-rwx 21642899 Jan 01 1980 00:00:00 backup.stk
-rwx 373 Jan 01 1980 00:00:00 start.text
-rwx 8685003 Apr 05 2011 16:27:28 3750CR.pdf
-rwx 37549 Aug 21 2013 07:55:22 maxacl.scr
-rwx 33903 Aug 22 2013 10:49:38 max-acls-per-list.scr
-rwx 139874 Oct 09 2013 14:00:18 max-ipv4-acls.scr
-rwx 5899 Sep 20 2013 14:23:26 local_repro.txt
-rwx 21262857 Oct 24 2013 12:12:30 N4000vD.10.23.2.stk
Total Size: 1002160128
Switch Management Commands 2065
Bytes Used: 51904512
Bytes Free: 950255616
exception switch-chip-register
Use the exception switch-chip-register command to enable dumping the
switch chip registers in case of an exception. The register dump is taken only
for the master unit and not for the stack member units. Use the no form of
the command to disable dumping of the switch-chip registers.
Syntax
exception switch-chip-register
no exception switch-chip-register
Default Configuration
By default, switch register dumps are disabled.
Command Modes
Global Configuration mode
User Guidelines
This option should only be used under the direction of Dell support
personnel.
Switch registers are captured to the local file system.
ip http timeout-policy
Use the ip http timeout-policy command to configure the timeout policy for
closing HTTP and HTTPS sessions to the local HTTP server.
Syntax
ip http timeout-policy idle seconds life seconds
no ip http timeout-policy
Switch Management Commands 2066
• seconds—For the idle parameter, the approximate number of seconds
after which an idle connection is closed. For the life parameter, the
approximate number of seconds since login after which a session is
closed.
Default Configuration
The default values are as follows:
• idle—180 seconds. Range: 1-3600
• life—1800 seconds. Range: 1-86400
Command Mode
Global Configuration
User Guidelines
This command configures the timeout for both HTTP and HTTPS sessions.
Changes to the parameters affect existing sessions. Reducing the time
parameters may close existing sessions.
The idle timeout closes sessions in which no activity is detected (e.g., no
commands are entered). The life timeout specifies the maximum number of
seconds a session will be kept open from the time the session was established.
Times are approximate.
Use this command to establish an access policy which maximizes throughput
or minimizes response time for new connections. For minimal response time
for new connections, use smaller values. For maximizing throughput (e.g.,
with dedicated management connections), use larger values.
Command History
Introduced in version 6.3.0.1 firmware.
Example
console(config)#ip http timeout-policy idle 3600 life 86400
show debugging
Use the show debugging command to display packet tracing configurations.
Switch Management Commands 2067
Syntax
show debugging
no show debugging
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
Enabled packet tracing configurations are displayed.
Example
console#show debugging
Authentication manager all debug traces enabled on Gi1/0/1
Switch Management Commands 2068
show exception
Use the show exception command to display the core dump configuration
parameters, the current or previous exception log, or the core dump file
listing.
Syntax
show exception [log [previous] | core-dump-file]
•log—Display the current exception log.
•log previous—Display the previous exception log.
•core-dump-file—Display the core-dump file listing.
Default Configuration
This command has no default configuration.
Command Modes
Privileged Exec mode (all show modes)
User Guidelines
An exception log or core dump file is generated in the rare event that the
switch firmware fails. Dell support personnel may ask administrators to
provide the exception log information to assist in issue resolution.
Parameter Description
Coredump file name Core dump file name
Coredump filename uses hostname Core file name includes host name (True
or False)
Coredump filename uses time-stamp Core file name users time stamp (True or
False)
TFTP server IP TFTP server IP address
FTP server IP FTP server IP address
FTP user name FTP server account user name
FTP password FTP server account user password
Switch Management Commands 2069
Example
The following example shows the default core transfer values.
console(config)#show exception
Coredump file name............................. crash
Coredump filename uses hostname................ False
Coredump filename uses time-stamp.............. False
TFTP server IP.................................
FTP server IP..................................
FTP user name..................................
FTP password...................................
File path...................................... dumps
Protocol....................................... none
Switch-chip-register........................... False
Compression mode............................... TRUE
Stack IP Address Protocol...................... dhcp
Stack IP Address:
IP Address Net Mask Gateway Assigned Unit
--------------- --------------- --------------- ---------------
show supported mibs
Use the show supported mibs command to display the implemented SNMP
MIBs.
Syntax
show supported mibs
File path File path for TFTP or FTP server
Protocol Exception protocol (TFTP, USB, Core -
default none).
Switch-chip-register Include register dump (True or False)
Compression mode Compress core file (True or False)
Stack IP Address Protocol Obtain switch IP address (DHCP or
Static)
Parameter Description
Switch Management Commands 2070
Default Configuration
There is no default configuration for this command.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
There are no user guidelines for this command.
Command History
Introduced in version 6.3.0.1 firmware.
Example
console#show supported mibs
MIBs Supported:
RFC 1907 - SNMPv2-MIB The MIB module for SNMPv2 entities
RFC 2819 - RMON-MIB Remote Network Monitoring Management
Information Base
HC-RMON-MIB The original version of this MIB,
published as RFC3273.
HC-ALARM-MIB Initial version of the High Capacity Alarm
MIB module. This version published as RFC
3434.
HCNUM-TC A MIB module containing textual
conventions for high capacity data types.
DELL-REF-MIB DELL Reference
SNMP-COMMUNITY-MIB This MIB module defines objects to help
support coexistence between SNMPv1,
SNMPv2, and SNMPv3.
SNMP-FRAMEWORK-MIB The SNMP Management Architecture MIB
SNMP-MPD-MIB The MIB for Message Processing and
Dispatching
SNMP-NOTIFICATION-MIB The Notification MIB Module
SNMP-TARGET-MIB The Target MIB Module
SNMP-USER-BASED-SM-MIB The management information definitions for
the SNMP User-based Security Model.
SNMP-VIEW-BASED-ACM-MIB The management information definitions for
the View-based Access Control Model for
SNMP.
Switch Management Commands 2071
USM-TARGET-TAG-MIB SNMP Research, Inc.
DELL-POWER-ETHERNET-MIB DELL Power Ethernet Extensions MIB
POWER-ETHERNET-MIB Power Ethernet MIB
SFLOW-MIB sFlow MIB
DELL-SFLOW-MIB The DELL Private MIB for DELL SFLOW
DELL-ISDP-MIB Industry Standard Discovery Protocol MIB
DELL-UDLD-MIB UDLD MIB
DELL-BOXSERVICES-PRIVATE-MIB The DELL Private MIB for DELL Box Services
Feature.
DIFFSERV-DSCP-TC The Textual Conventions defined in this
module should be used whenever a
Differentiated Services Code Point is
used in a MIB.
IANA-ADDRESS-FAMILY-NUMBERS-MIB The MIB module defines the
AddressFamilyNumbers textual convention.
DELL-DHCPSERVER-PRIVATE-MIB The DELL Private MIB for DELL DHCP Server
DELL-DHCPCLIENT-PRIVATE-MIB The DELL Private MIB for DELL DHCP Client
DELL-DNS-RESOLVER-CONTROL-MIB Defines a portion of the SNMP MIB under
the DELL Corporation enterprise OID
pertaining to DNS Client control
configuration
DELL-DENIALOFSERVICE-PRIVATE-MIB The DELL Private MIB for DELL Denial of
Service.
DELL-GREENETHERNET-PRIVATE-MIB The MIB definitions for DELL Green
Ethernet
Feature.
DELL-DEVICE-FILESYSTEM-MIB The DELL Private MIB for DELL
DeviceFileSystem
DELL-KEYING-PRIVATE-MIB The DELL Private MIB for DELL Keying
Utility
LLDP-MIB Management Information Base module for
LLDP configuration, statistics, local
system data and remote systems data
components.
LLDP-EXT-DOT3-MIB The LLDP Management Information Base
extension module for IEEE 802.3
organizationally defined discovery
information.
LLDP-EXT-MED-MIB The LLDP Management Information Base
extension module for TIA-TR41.4 Media
Endpoint Discovery information.
DELL-LLPF-PRIVATE-MIB The DELL Private MIB for DELL Link Local
Protocol Filtering.
DISMAN-PING-MIB The Ping MIB (DISMAN-PING-MIB) provides
the capability of controlling the use of
the ping function at a remote host.
DNS-SERVER-MIB The MIB module for entities implementing
the server side of the Domain Name System
(DNS)protocol.
Switch Management Commands 2072
DNS-RESOLVER-MIB The MIB module for entities implementing
the client (resolver) side of the Domain
Name System (DNS) protocol.
SMON-MIB The MIB module for managing remote
monitoring device implementations for
Switched Networks
DELL-OUTBOUNDTELNET-PRIVATE-MIB The DELL Private MIB for DELL Outbound
Telnet
DELL-TIMERANGE-MIB The DELL Private MIB for DELL Time Ranges
DELL-TIMEZONE-PRIVATE-MIB The DELL Private MIB for DELL for system
time, timezone and summer-time settings
DISMAN-TRACEROUTE-MIB The Traceroute MIB (DISMAN-TRACEROUTE-
MIB) provides access to the traceroute
capability at a remote host.
LAG-MIB The Link Aggregation module for managing
IEEE 802.3ad
RFC 1213 - RFC1213-MIB Management Information Base for Network
Management of TCP/IP-based internets:
MIB-II
RFC 1493 - BRIDGE-MIB Definitions of Managed Objects for Bridges
dot1d)
RFC 2674 - P-BRIDGE-MIB The Bridge MIB Extension module for
managing Priority and Multicast
Filtering, defined by IEEE 802.1D-1998.
RFC 2674 - Q-BRIDGE-MIB The VLAN Bridge MIB module for managing
Virtual Bridged Local Area Networks
RFC 2737 - ENTITY-MIB Entity MIB (Version 2)
RFC 2863 - IF-MIB The Interfaces Group MIB using SMIv2
RFC 3635 - Etherlike-MIB Definitions of Managed Objects for the
Ethernet-like Interface Types
DELL-SWITCHING-MIB DELL Switching - Layer 2
DELL-INVENTORY-MIB Unit and Slot configuration.
DELL-PORTSECURITY-PRIVATE-MIB Port Security MIB.
INET-ADDRESS-MIB This MIB module defines textual
conventions for representing Internet
addresses.
IANAifType-MIB This MIB module defines the IANAifType
Textual Convention
DELL-LOGGING-MIB This MIB provides objects to configure and
display events logged on this system.
MAU-MIB Management information for 802.3 MAUs.
DELL-MVR-PRIVATE-MIB The DELL Private MIB for MVR Configuration
DELL-SNTP-CLIENT-MIB Defines DELL Corporation enterprise OID
pertaining to SNTP client configuration
and statistical collection.
DELL-VPC-MIB The MIB definitions for VPC.
IEEE8021-PAE-MIB Port Access Entity module for managing
IEEE 802.1X.
Switch Management Commands 2073
DELL-DOT1X-ADVANCED-FEATURES-MIB The DELL Private MIB for DELL Dot1x
Advanced
Features
DELL-DOT1X-AUTHENTICATION-SERVER- The DELL Private MIB for DELL Dot1x
MIB Authentication Server
DELL-RADIUS-AUTH-CLIENT-MIB The DELL Private MIB for DELL Radius
Authentication Client.
RADIUS-ACC-CLIENT-MIB RADIUS Accounting Client MIB
RADIUS-AUTH-CLIENT-MIB RADIUS Authentication Client MIB
TACACS-CLIENT-MIB Defines a portion of the SNMP MIB under
the DELL Corporation enterprise OID
pertaining to TACACS+ client
configuration.
DELL-CAPTIVE-PORTAL-MIB DELL Captive Portal MIB
DELL-AUTHENTICATION-MANAGER-MIB The DELL Private MIB for DELL
authentication manager feature.
DELL-MGMT-SECURITY-MIB The DELL Private MIB for DELL Mgmt
Security
RFC 1724 - RIPv2-MIB RIP Version 2 MIB Extension
RFC 1850 - OSPF-MIB OSPF Version 2 Management Information Base
RFC 1850 - OSPF-TRAP-MIB The MIB module to describe traps for the
OSPF Version 2 Protocol.
RFC 2787 - VRRP-MIB Definitions of Managed Objects for the
Virtual Router Redundancy Protocol
DELL-ROUTING-MIB DELL Routing - Layer 3
IP-FORWARD-MIB The MIB module for the management of CIDR
multipath IP Routes.
IP-MIB The MIB module for managing IP and ICMP
implementations, but excluding their
management of IP routes.
DELL-LOOPBACK-MIB The DELL Private MIB for DELL Loopback
RFC 1657 - BGP4-MIB Definitions of Managed Objects for the
Fourth Version of the Border Gateway
Protocol (BGP-4) using SMIv2
DELL-BGP-MIB The MIB definitions for Border Gateway
Protocol Flex package.
DELL-QOS-MIB DELL Flex QOS Support
DELL-QOS-ACL-MIB DELL Flex QOS ACL
DELL-QOS-COS-MIB DELL Flex QOS COS
DELL-QOS-AUTOVOIP-MIB DELL Flex QOS VOIP
DELL-QOS-DIFFSERV-PRIVATE-MIB DELL Flex QOS DiffServ Private MIBs'
definitions
DELL-QOS-ISCSI-MIB DELL Flex QOS iSCSI Flow Acceleration
MIBs' definitions
RFC 2932 - IPMROUTE-MIB IPv4 Multicast Routing MIB
draft-ietf-magma-mgmd-mib-03 MGMD MIB, includes IGMPv3 and MLDv2.
RFC 5060 - PIM-STD-MIB Protocol Independent Multicast MIB
RFC 5240 - PIM-BSR-MIB Bootstrap Router mechanism for PIM routers
Switch Management Commands 2074
DVMRP-STD-MIB Distance-Vector Multicast Routing
Protocol MIB
IANA-RTPROTO-MIB IANA IP Route Protocol and IP MRoute
Protocol Textual Conventions
DELL-MULTICAST-MIB The MIB definitions for Multicast Routing
Flex package.
IPMROUTE-STD-MIB The MIB module for management of IP
Multicast routing, but independent of the
specific multicast routing protocol in
use.
MGMD-STD-MIB The MIB module for MGMD Management.
DELL-NSF-MIB The MIB module defines objects to
configure
Non Stop Forwarding.
RFC 2465 - IPV6-MIB Management Information Base for IP Version
6: Textual Conventions and General Group
RFC 2466 - IPV6-ICMP-MIB Management Information Base for IP Version
6: ICMPv6 Group
RFC 3419 - TRANSPORT-ADDRESS-MIB Textual Conventions for Transport
Addresses
DELL-ROUTING6-MIB The DELL Private MIB for DELL IPv6
Routing.
DELL-DHCP6SERVER-PRIVATE-MIB The DELL Private MIB for DELL DHCPv6
Server/Relay
DELL-IPV6-LOOPBACK-MIB The DELL Private MIB for DELL Loopback
IPV6
address configuration.
DELL-IPV6-TUNNEL-MIB The DELL Private MIB for DELL IPV6 Tunnel.
Dell-LAN-SYSMNG-MIB Management functions applicable to all
Dell
Networking managed switches
Dell-LAN-TRAP-MIB Dell alarms specific global parameters
Dell-Vendor-MIB This MIB allows Dell Networking devices to
be integrated into Dell ITA management
system.
snapshot bgp
Use the snapshot bgp command in support mode to dump the current state
of BGP for use by support personnel.
Syntax
snapshot bgp
Switch Management Commands 2075
Default Configuration
There is no default configuration.
Command Mode
Support mode
User Guidelines
This command has no user guidelines.
Command History
Introduced in version 6.2.0.1 firmware.
write core
Use the write core command to generate a core file on demand and either
reboot the switch or test the core file configuration.
Syntax
write core [test [dest-file-name]]
• dest-file-name — The file name used if a tftp-server is configured with
the exception dump tftp-server command. The dest-file-name
parameter overrides the file name parameters configured with the
exception core-file command.
Default Configuration
This command has no default configuration.
Command Modes
Privileged Exec mode
User Guidelines
Using the write core command reboots the switch. The write core command
is useful when the device malfunctions, but has not crashed.
Switch Management Commands 2076
The write core test command is useful for validating the core dump setup. For
example, if the protocol is configured as tftp, the command write core test
communicates with the tftp server and informs the administrator if the tftp
server can be contacted. Similarly, if the protocol is configured as usb, it
mounts and unmounts the file system and then informs the administrator
regarding the status.
Example
console#write core
The system has unsaved changes.
Would you like to save them now? (y/n) n
Configuration Not Saved!
This operation will reboot the device.
Are you sure you want to create coredump? (y/n).y
----------------------------------------------------
Thu Jan 1 00:17:35 1970
[pgid:577] [pid:577] [name:(syncdb)] [signal:11]
Call Trace (depth = 3):
0xb6faf7dc
0xb6fafc60
0xb6ef742c
<188> Jan 1 00:17:36 10.27.22.174-1 General[80499188]: procmgr.c(2926) 1171
%% Application Terminated (syncdb, ID = 2, PID = 577
log_error_code osapi_crash.c 2010
Switching software SIGSEGV Handler
This build was configured to copy this crash information to
a file.
Switch Management Commands 2077
Sflow Commands
sFlow® is the standard for monitoring high-speed switched and routed
networks. sFlow technology is built into network equipment and gives
complete visibility into network activity, enabling effective management and
control of network resources.
The sFlow monitoring system consists of an sFlow Agent (embedded in a
switch or router or in a stand-alone probe) and a central sFlow Collector. The
sFlow Agent uses sampling technology to capture traffic statistics from the
device it is monitoring. sFlow datagrams are used to forward the sampled
traffic statistics immediately to an sFlow Collector for analysis. The traffic
samples sent to the Collector contain the source ifIndex and, for switched
packets, the destination ifIndex.
The sFlow Agent supports two forms of sampling: statistical packet-based
sampling of switched or routed Packet Flows and time-based sampling of
counters.
Commands in this Section
This section explains the following commands:
sflow destination
Use the sflow destination command to configure the sFlow collector
parameters (owner string, receiver timeout, maxdatagram, ip address and
port). Use the “no” form of this command to set receiver parameters to the
default or remove a receiver.
sflow destination show sflow agent
sflow polling show sflow destination
sflow polling (Interface Mode) show sflow polling
sflow sampling show sflow sampling
sflow sampling (Interface Mode) show sflow source-interface
sflow source-interface
–
Switch Management Commands 2078
Syntax
sflow rcvr_index destination {ip-address [port] | maxdatagram size | owner
“owner_string” {notimeout|timeout rcvr_timeout}}
no sflow rcvr_index destination [ip-address | maxdatagram | owner]
• rcvr_index — The index of this sFlow Receiver (Range: 1–8).
• ip-address — The sFlow receiver IP address. If set to 0.0.0.0, no sFlow
datagrams will be sent.
• size — The maximum number of data bytes that can be sent in a single
sample datagram. The management entity should set this value to avoid
fragmentation of the sFlow datagrams. (Range: 200–9116 bytes).
• owner_string — The identity string for the receiver. A receiver is not
enabled until the owner string is assigned. The default is an empty
string. The identity string must be set before assigning a receiver to a
sampler or poller. (Range: 1–127 characters).
• rcvr_timeout — The time, in seconds, remaining before the sampler or
poller is released and stops sending samples to the receiver. Setting a
value of 0 for the timeout value permanently configures the sflow
receiver. Use the no form of the command to remove permanently
configured receivers. A management entity wanting to maintain control
of the sampler is responsible for setting a new value before the old one
expires. (Range: 0–2147483647 seconds).
• port — The destination Layer4 UDP port for sFlow datagrams. (Range:
1–65535).
Default Configuration
No receivers are configured by default.
The default IP address is 0.0.0.0
The default maximum datagram size is 1400.
The default owner string is the empty string.
The default receiver timeout is 0.
The default destination port is 6343.
Command Mode
Global Configuration mode.
Switch Management Commands 2079
User Guidelines
An sflow destination entry must have an owner assigned in order for polling or
sampling to be operational. The last set of command parameters are optional
in the no form of the command. Sflow commands with a timeout value
supplied do not show in the running config. Because the timer is actively
running, the command is ephemeral and is therefore not shown in the
running config. Entering an sflow command with a notimeout parameter will
cause the sflow configuration to be shown in the running config.
Example
console(config)#sflow 1 destination owner 1 timeout 2000
console(config)#sflow 1 destination maxdatagram 500
console(config)#sflow 1 destination 30.30.30.1 560
sflow polling
Use the sflow polling command to enable a new sflow poller instance for this
data source if rcvr_idx is valid. An sflow poller sends counter samples to the
receiver. Use the “no” form of this command to reset poller parameters to the
defaults.
Syntax
sflow rcvr-index polling {gigabitethernet | tengigabitethernet |
fortygigabitethernet} interface-list poll-interval
no sflow rcvr-index polling {gigabitethernet | tengigabitethernet |
fortygigabitethernet} interfaces
• rcvr-index — The sFlow Receiver associated with the poller (Range: 1–
8).
• interface-list — The list of interfaces to poll in unit/slot/port format.
• poll-interval — The sFlow instance polling interval. A poll interval of 0
disables counter sampling. A value of n means once in n seconds a
counter sample is generated. (Range: 0–86400).
Default Configuration
There are no pollers configured by default.
The default poll interval is 0.
Switch Management Commands 2080
Command Mode
Global Configuration mode.
User Guidelines
The sflow instance must be configured using the sflow destination owner
command before this command can successfully execute.
Example
console(config)#sflow 1 polling gigabitethernet 1/0/1-10 200
sflow polling (Interface Mode)
Use the sflow polling command in Interface Mode to enable a new sflow
poller instance for this interface if rcvr_idx is valid. An sflow poller sends
counter samples to the receiver. Use the no form of this command to reset
poller parameters to the defaults.
Syntax
sflow rcvr-index polling poll-interval
no sflow rcvr-index polling
• rcvr-index — The sFlow Receiver associated with the poller (Range: 1 -
8).
• poll-interval — The sFlow instance polling interval. A poll interval of 0
disables counter sampling. A value of n means once in n seconds a
counter sample is generated. (Range: 0 - 86400).
Default Configuration
There are no pollers configured by default.
The default poll interval is 0.
Command Mode
Interface Configuration (Ethernet) mode
User Guidelines
This command has no user guidelines.
Switch Management Commands 2081
Example
console(config-if-Gi1/0/2)#sflow 1 polling 6055
sflow sampling
Use the sflow sampling command to enable a new sflow sampler instance for
this data source if rcvr_idx is valid. An sflow sampler collects flow samples to
send to the receiver. Use the “no” form of this command to reset sampler
parameters to the default.
Syntax
sflow rcvr-index sampling {gigabitethernet | tengigabitethernet |
fortygigabitethernet} interface-list sampling-rate [size]
no sflow rcvr-index sampling {gigabitethernet | tengigabitethernet |
fortygigabitethernet} interface-list
• rcvr-index — The sFlow Receiver for this sFlow sampler to which flow
samples are to be sent. If no receiver is configured, then no packets will
be sampled. Only active receivers can be set. If a receiver times out, then
all samplers associated with the receiver will also expire. (Range: 1–8).
• interface-list — The list of interfaces to poll in unit/slot/port format.
• sampling-rate — The statistical sampling rate for packet sampling from
this source. A value of n means that out of n incoming packets, 1 packet
will be sampled. (Range: 1024–65536).
• size — The maximum number of bytes that should be copied from the
sampler packet (Range: 20–256 bytes).
Default Configuration
There are no samplers configured by default.
The default is no default sampling rate.
The default size is 128.
Command Mode
Global Configuration mode.
Switch Management Commands 2082
User Guidelines
Lower sampling numbers cause more samples to be collected and increase the
load on the CPU. Setting a sampling rate of 1024 on a large number of ports
may tax the CPU beyond it's ability to deliver the packets to the receiver.
Lowering the sampling rate (higher numerical value) will help to ensure that
all collected samples can be sent to the receiver. The sflow instance must be
configured using the sflow destination owner command before this
command can successfully execute.
Example
console(config)#sflow 1 sampling gigabitethernet 1/0/2 1500 50
sflow sampling (Interface Mode)
Use the sflow sampling command in Interface Mode to enable a new sflow
sampler instance for this data source if rcvr_idx is valid. Use the no form of
this command to reset sampler parameters to the default.
Syntax
sflow rcvr-index sampling sampling-rate [size]
no sflow rcvr-index sampling
• rcvr-index — The sFlow Receiver for this sFlow sampler to which flow
samples are to be sent. If no receiver is configured, then no packets will
be sampled. Only active receivers can be set. If a receiver expires, then all
samplers associated with the receiver will also expire. (Range: 1 - 8).
• sampling-rate — The statistical sampling rate for packet sampling from
this source. A sampling rate of 1 counts all packets. A rate of 0 disables
sampling. A value of n means that out of n incoming packets, 1 packet
will be sampled. (Range: 1024 - 65536).
• size — The maximum number of bytes that should be copied from the
sampler packet (Range: 20 - 256 bytes).
Default Configuration
There are no samplers configured by default.
There is no default sampling rate.
The default maximum header size is 128.
Switch Management Commands 2083
Command Mode
Interface Configuration (Ethernet) mode
User Guidelines
Lower sampling numbers cause more samples to be collected and increase the
load on the CPU. Setting a sampling rate of 1024 on a large number of ports
may tax the CPU beyond it's ability to deliver the packets to the receiver.
Lowering the sampling rate (higher numerical value) will help to ensure that
all collected samples can be sent to the receiver.
Example
console(config-if-Gi1/0/15)#sflow 1 sampling 1500 50
sflow source-interface
Use the sflow source-interface command to select the interface from which
to use the IP address inserted in the source IP address field of transmitted
sFlow packets. Use the no form of the command to revert to the default IP
address.
Syntax
sflow source-interface {loopback loopback-id | vlan vlan-id | out-of-band |
tunnel tunnel-id}
no sflow source-interface
• loopback-id — A loopback interface identifier.
• vlan-id — A VLAN identifier.
• tunnel-id — A tunnel identifier (Range 0–7).
•out-of-band — The out-of-band interface.
Default Configuration
By default, the switch uses the assigned switch IP address as the source IP
address for sFlow packets. This is either the IP address assigned to the VLAN
from which the sFlow packet originates or the out-of-band interface IP
address.
Switch Management Commands 2084
Command Mode
Global Configuration mode
User Guidelines
The source interface must have an assigned IP address (either manually or via
another method such as DHCP). Use the show sflow source-interface
command to display the assigned source interface. This command is not
supported on Dell EMC N1100-ON switches. Dell EMC N1100-ON switches
support configuration of a single IP address in interface vlan configuration
mode. That IP address is used as the source interface address for this
function.
The out-of-band parameter is only available on switches so equipped.
Example
console#conf
console(config)#interface vlan 1
console(config-if-vlan1)#ip address dhcp
console(config-if-vlan1)#exit
console(config)#sflow source-interface vlan 1
show sflow agent
Use the show sflow agent command to display the sflow agent information.
Syntax
show sflow agent
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
The following fields are displayed:
Switch Management Commands 2085
Example
console#show sflow agent
sFlow Version.......................... 1.3;Dell Inc.;10.23.18.28
IP Address............................. 10.27.21.34
show sflow destination
Use the show sflow destination command to display all the configuration
information related to the sFlow receivers.
Syntax
show sflow rcvr-index destination
• rcvr index — The index of the sFlow Receiver to display (Range: 1–8).
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
The following fields are displayed:
sFlow Version Uniquely identifies the version and implementation of this
MIB. The version string must have the following structure: MIB
Version; Organization; Software Revision where:
MIB Version: 1.3, the version of this MIB.
Organization: Dell Corp.
Revision: 1.0
IP Address The IP address associated with this agent.
Receiver Index The sFlow Receiver associated with the sampler/poller.
Switch Management Commands 2086
Example
console(config)#show sflow 1 destination
Receiver Index................................. 1
Owner String................................... asd
Time out....................................... No Timeout
IP Address:.................................... 1.2.3.4
Address Type................................... 1
Port........................................... 6343
Datagram Version............................... 5
Maximum Datagram Size.......................... 1400
show sflow polling
Use the show sflow polling command to display the sFlow polling instances
created on the switch.
Syntax
show sflow rcvr-index polling [{gigabitethernet | tengigabitethernet |
fortygigabitethernet} interface-list]
• rcvr-index — The sFlow Receiver associated with the poller (Range: 1–
8).
• interface-list — The list of interfaces to poll, in unit/slot/port format.
Owner String The identity string for receiver, the entity making use of this
sFlowRcvrTable entry.
Time Out The time (in seconds) remaining before the receiver is released
and stops sending samples to sFlow receiver.
IP Address The destination IP address (the sFlow receiver host).
Address Type 1 for IPv4 and 2 for IPv6.
Port The destination Layer4 UDP port for sFlow datagrams.
Datagram Version The sFlow record format version. For example, 5 indicates sFlow
version 5.
Maximum
Datagram Size
The maximum number of bytes that can be sent in a single sFlow
datagram.
Switch Management Commands 2087
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
The following fields are displayed:
Example
console# show sflow 1 polling
Poller Receiver Poller
Data Source Index Interval
----------- ------- -------
Te1/0/1 1 0
show sflow sampling
Use the show sflow sampling command to display the sFlow sampling
instances created on the switch.
Syntax
show sflow rcvr-index sampling [{gigabitethernet | tengigabitethernet |
fortygigabitethernet} interface-list]
• rcvr-index — The sFlow Receiver associated with the poller (Range: 1–
8).
• interface-list — The list of interfaces on which data is sampled.
Poller Data
Source
The sFlowDataSource (unit/slot/port) for this sFlow sampler. This
agent will support Physical ports only.
Receiver Index The sFlowReceiver associated with this sFlow counter poller.
Poller Interval The number of seconds between successive samples of the counters
associated with this data source.
Switch Management Commands 2088
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
The following fields are displayed:
Example
console# #show sflow 1 sampling
Sampler Receiver Packet Max Header
Data Source Index Sampling Rate Size
----------- ------- ------------- ----------
Gi1/0/1 1 0 128
show sflow source-interface
Use the show sflow source-interface command to display the assigned sFlow
source interface.
Syntax
show sflow source-interface
Default Configuration
This command has no defaults.
Sampler Data
Source
The sFlowDataSource (unit/slot/port) for this sFlow sampler.
This agent will support Physical ports only.
Receiver Index The sFlowReceiver configured for this sFlow sampler.
Packet Sampling
Rate
The statistical sampling rate for packet sampling from this
source.
Max Header Size The maximum number of bytes that should be copied from a
sampled packet to form a flow sample.
Switch Management Commands 2089
Command Mode
Privileged Exec, Global Configuration, and all sub-modes
User Guidelines
Use the sflow source-interface command to assign an IP address other than
the default for transmitted sFlow packets. This command is not supported on
Dell EMC N1100-ON switches. Dell EMC N1100-ON switches support
configuration of a single IP address in interface vlan configuration mode.
That IP address is used as the source interface address for this function.
Example
console#conf
console(config)#interface out-of-band
console(config-if-vlan1)#ip address dhcp
console(config-if-vlan1)#exit
console(config)#sflow source-interface out-of-band
console(config)#show sflow source-interface
sFlow Client Source Interface............... out-of-band
sFlow Client Source IPv4 Address............ 10.27.21.143 [Up]
sFlow Client Source IPv6 Address............ fe80::fab1:56ff:fe2b:a4fb [Up]
Switch Management Commands 2090
SNMP Commands
The SNMP component provides a machine-to-machine interface for the Dell
EMC Networking product family. This includes the ability to configure the
network device, view settings and statistics, and upload or download code or
configuration images. The agent includes a get-bulk command to reduce
network management traffic when retrieving a sequence of Management
Information Base (MIB) variables and an elaborate set of error codes for
improved reporting to the network control station. The extensible and
advanced design of the Dell EMC Networking SNMP makes adding remote
manageability to networked devices undemanding. The agent allows a
network control station to retrieve reports from the networked device. These
reports are based upon the defined objects in the MIB. The agent queries,
reports, and sets MIB variables based upon directions from the network
control station or upon preset conditions.
Dell EMC Networking supports IPv4 SNMP access. Only IPv4 SNMP hosts
and users may be configured.
Commands in this Section
This section explains the following commands:
show snmp
Use the show snmp command to display the SNMP communications status.
show snmp snmp-server community snmp-server group
show snmp engineid snmp-server community-
group
snmp-server host
show snmp filters snmp-server contact snmp-server location
show snmp group snmp-server enable traps snmp-server user
show snmp user snmp-server engineID local snmp-server view
show snmp views snmp-server filter snmp-server v3-host
show trapflags
–
snmp-server source-
interface
Switch Management Commands 2091
Syntax
show snmp
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
This command has no user guidelines.
Example
The following example displays the SNMP communications status.
Console # show snmp
Community-String Community-Access View name IP address
----------------------------------------------------
public read only user-view All
private read write Default 172.16.1.1
private su Default Super 172.17.1.1
Community-String Group nameIP address
-----------------------------------
publicuser-groupAll
Traps are enabled.
Authentication trap is enabled.
Version 1,2 notifications
Target Address Type Community Version UDP Filter TO Retries
Port name Sec
-------------- ------ --------- ------- ---- ------ --- -----
192.122.173.42 Trap public 2 162 filt1 15 3
192.122.173.42 Inform public 2 162 filt2 15 3
Version 3 notifications
Target Address Type Username Security UDP Filter TO Retries
Level Port name Sec
-------------- ----- -------- -------- ---- ------ --- ------
Switch Management Commands 2092
192.122.173.42 Inform Bob Priv 162 filt31 15 3
System Contact: Robert
System Location: Marketing
Source Interface: Default
Source Interface:
SNMP trap Client Source Interface.............. Default
show snmp engineid
Use the show snmp engineid command to display the ID of the local Simple
Network Management Protocol (SNMP) engine.
Syntax
show snmp engineid
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
This command has no user guidelines.
Example
The following example displays the SNMP engine ID.
console# show snmp engineID
Local SNMP engineID: 08009009020C0B099C075878
show snmp filters
Use the show snmp filters command to display the configuration of filters.
Syntax
show snmp filters filtername
• filtername — Specifies the name of the filter. (Range: 1-30)
Switch Management Commands 2093
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
Per RFC 2573, an implicit exclude all filter is present at the beginning of
every filter list. This implicit filter is not shown in the output of this
command.
Example
The following examples display the configuration of filters with and without a
filter name specification.
console # show snmp filters
Name OID Tree Type
------------------- ---------------------------------
user-filter1 1.3.6.1.2.1.1 Included
user-filter1 1.3.6.1.2.1.1.7 Excluded
user-filter2 1.3.6.1.2.1.2.2.1.*.1 Included
console # show snmp filters user-filter1
Name OID Tree Type
------------------- ---------------------------------
user-filter1 1.3.6.1.2.1.1 Included
user-filter1 1.3.6.1.2.1.1.7 Excluded
show snmp group
Use the show snmp group command to display the configuration of groups.
Syntax
show snmp group [groupname]
• groupname — Specifies the name of the group. (Range: 1-30)
Switch Management Commands 2094
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
The group name accepts any printable characters except a question mark.
Enclose the string in double quotes to include spaces within the name. The
surrounding quotes are not used as part of the name. The CLI does not filter
illegal characters and may accept entries up to the first illegal character or
reject the entry entirely.
The following table contains field descriptions.
Example
The following examples display the configuration of views.
console# show snmp group
Field Description
Name Name of the group
Security
Model
SNMP model in use (v1, v2 or v3)
Security
Level
Authentication of a packet with encryption. Applicable only to SNMP
Version 3 security model.
Views
• Read–A string that is the name of the view that enables you only to
view the contents of the agent. If unspecified, all the objects except
the community-table and SNMPv3 user and access tables are
available.
• Write–A string that is the name of the view that enables you to enter
data and manage the contents of the agent.
• Notify–A string that is the name of the view that enables you to
specify an inform or a trap.
• Context Prefix–A string matching the prefix of an SNMP server group
context.
Switch Management Commands 2095
Name Security Views
Model Level Read Write Notify
----------------- ----- ------ -------- -------- ------
user-group V3 Auth-Priv Default "" ""
managers-group V3 NoAuth-priv Default Default ""
managers-group V3 NoAuth-priv Default "" ""
console#show snmp group DefaultWrite
Name Context Security Views
Prefix Model Level Read Write Notify
--------------------- ---------- ----- ------------- -------- -------- -----
---
DefaultWrite "" V1 NoAuth-NoPriv Default Default Default
DefaultWrite "" V2 NoAuth-NoPriv Default Default Default
DefaultWrite "" V3 NoAuth-NoPriv Default Default Default
DefaultWrite "" V3 Auth-NoPriv Default Default Default
DefaultWrite "" V3 Auth-Priv Default Default Default
Command History
The example was updated in release 6.4.
show snmp user
Use the show snmp user command to display the configuration of users.
Syntax
show snmp user [username]
• username — Specifies the name of the user. (Range: 1-30)
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
Switch Management Commands 2096
User Guidelines
The user name accepts any printable characters except a question mark.
Enclose the string in double quotes to include spaces within the name. The
surrounding quotes are not used as part of the name. The CLI does not filter
illegal characters and may accept entries up to the first illegal character or
reject the entry entirely.
Example
The following example displays the configuration of users with the user name
specified.
Console # show snmp user
Name Group Name Auth Priv
Meth Meth Remote Engine ID
--------------- --------------- ---- ---- -------------------
bob user-group MD5 DES 800002a20300fce3900106
john user-group SHA DES 800002a20300fce3900106
Console # show snmp users bob
Name Group Name Auth Priv
Meth Meth Remote Engine ID
--------------- --------------- ---- ---- -------------------
bob user-group MD5 DES 800002a20300fce3900106
show snmp views
Use the show snmp views command to display the configuration of views.
Syntax
show snmp views [viewname]
• viewname — Specifies the name of the view. (Range: 1-30)
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
Switch Management Commands 2097
User Guidelines
This command has no user guidelines.
Example
The following examples display the configuration of views with and without a
view name specified.
show trapflags
Use the show trapflags command to display the trap settings.
Syntax
show trapflags [vrf {vrf-name}][ospf|ospfv3|captive-portal]
• vrf-name—The name of an existing VRF instance.
•ospf—Display OSPFv2 specific trap settings.
•ospfv3—Display OSPFv3 specific trap settings.
•captive-portal—Display captive-portal specific trap settings.
Default Configuration
There is no default configuration for this command.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
console# show snmp views
Name OID Tree Type
----------- ----------------------- ---------
user-view1 1.3.6.1.2.1.1 Included
user-view1 1.3.6.1.2.1.1.7 Excluded
user-view2 1.3.6.1.2.1.2.2.1.*.1 Included
Switch Management Commands 2098
User Guidelines
This command has no user guidelines.
Example #1
console#show trapflags
Authentication Flag............................ Enable
Auto-copy-sw Flag.............................. Enable
Dot1q Flag..................................... Enable
Link Up/Down Flag.............................. Enable
Port-security violation Flag................... Enable
Multiple Users Flag............................ Enable
Mbuf Threshold Flag............................ Enable
CPU Threshold Flag............................. Enable
Spanning Tree Flag............................. Enable
PoE Traps...................................... Enable
VRRP trap...................................... Enable
ACL Traps...................................... Enable
BGP Traps...................................... Disable
DVMRP Traps.................................... Disable
OSPFv2 Traps................................... Disable
PIM Traps...................................... Disable
OSPFv3 traps................................... Disable
CP Traps....................................... Disable
Example #2
console#show trapflags ospf
OSPFv2 traps................................... Disabled
errors:
all....................................... Disabled
lsa:
all....................................... Disabled
overflow:
all....................................... Disabled
retransmit:
all....................................... Disabled
state-change:
all....................................... Disabled
snmp-server community
Use the snmp-server community command in Global Configuration mode to
set up the community access string to permit access to the SNMP protocol.
To remove the specified community string, use the no form of this command.
Switch Management Commands 2099
Syntax
snmp-server community string {ro | rw | su} [view view-name]| [ipaddress
ipaddress]
no snmp-server community string
•string—Permits access to the SNMP protocol. (Range: 1-20 characters)
•ro—Indicates read-only access.
•rw—Indicates read-write access.
•su—Indicates SNMP administrator access.
• ipaddress—Specifies the IP address of the management station. If no IP
address is specified, all management stations are permitted. Both IPv4
and IPv6 addresses are accepted.
• view-name—Specifies the name of a previously defined view. For
information on views, see the User Guidelines below. (Range: 1-30
characters)
Default Configuration
No community is defined. Default to read–only access if not specified.
Command Mode
Global Configuration mode
User Guidelines
You can not specify viewname for su, which has an access to the whole MIB.
You can use the view name to restrict the access rights of a community string.
When it is specified:
• An internal security name is generated.
• The internal security name for SNMPv1 and SNMPv2 security models is
mapped to an internal group name.
• The internal group name for SNMPv1 and SNMPv2 security models is
mapped to a view name. If ro is specified, then read-view and notify-
view are mapped. If rw is specified, then read-view, notify-view, and
write-view are mapped.
Switch Management Commands 2100
The community name may include any printable characters except a question
mark. Enclose the string in double quotes to include spaces within the name.
The surrounding quotes are not used as part of the name. The CLI does not
filter illegal characters and may accept entries up to the first illegal character
or reject the entry entirely.
Example
The following example configures community access string public to permit
administrative access to SNMP at an administrative station with IP address
192.168.1.20.
console(config)# snmp-server community public su ipaddress 192.168.1.20
snmp-server community-group
Use the snmp-server community-group command in Global Configuration
mode to map the internal security name for SNMP v1 and SNMP v2 security
models to the group name. To remove the specified community string, use
the no form of this command.
Syntax
snmp-server community-group community-string group-name [ipaddress ip-
address]
• community-string — Community string that acts like a password and
permits access to the SNMP protocol. (Range: 1-20 characters)
• group-name — Name of a previously defined group. The group defines
the objects available to the community. (Range: 1-30 characters)
• ip-address — Management station IP address. The default is any IP
address. Both IPv4 and IPv6 addresses are accepted.
Default Configuration
No community group is defined.
Command Mode
Global Configuration mode
Switch Management Commands 2101
User Guidelines
The group-name parameter can be used to restrict the access rights of a
community string. When it is specified, the software:
• Generates an internal security-name.
• Maps the internal security-name for SNMPv1 and SNMPv2 security
models to the group-name.
Example
The following example maps a community access string dell_community to
group dell_group.
console(config)# snmp-server community-group dell_community dell_group
ipaddress 192.168.29.1
snmp-server contact
Use the snmp-server contact command in Global Configuration mode to set
up a system contact (sysContact) string. To remove the system contact
information, use the no form of the command.
Syntax
snmp-server contact text
no snmp-server contact
• text — Character string, 1 to 255 characters, describing the system
contact information.
Default Configuration
This command has no default configuration.
Command Mode
Global Configuration mode
User Guidelines
This command has no user guidelines.
Switch Management Commands 2102
Example
The following example displays setting up the system contact point as
“Dell_Technical_Support”.
console(config)# snmp-server contact Dell_Technical_Support
snmp-server enable traps
Use the snmp-server enable traps command in Global Configuration mode to
enable sending SNMP traps globally or to enable sending individual SNMP
traps. Use the no form of this command to disable sending SNMP traps
individually or globally.
Syntax
snmp-server enable traps [acl | all | auto-copy-sw | bgp state-changes
limited |buffers |captive-portal cp-type | cpu |dot1q | dvrmp | link | port-
security [trap-rate] | multiple-users | [vrf vrf-name] ospf ospftype | ospfv3
ospfv3type |pim |poe | snmp authentication | spanning-tree | vrrp]
no snmp-server enable traps [acl | all|auto-copy-sw | bgp state-changes
limited |buffers | captive-portal cp-type | cpu | dot1q | dvrmp | link |
port-security [trap-rate]| multiple-users | [vrf vrf-name] ospf ospftype |
ospfv3 ospfv3type | pim | poe | snmp authentication | spanning-tree |vrrp]
• cp-type — {all, client-auth-failure, client-connect, client-db-full, client-
disconnect}
•vrf-name—The name of a VRF instance for OSPF traps.
• ospftype— {all | errors {all | authentication failure | bad packet |
config error | virt authentication failure | virt bad packet | virt config
error} | lsa {all | lsa-maxage | lsa-originate} | overflow {all | lsdb-
overflow | lsdbapproaching- overflow} | retransmit {all | packets | virt-
packets} | state-change {all | if state change | neighbor state change |
virtifstate change | virtneighbor state change}}
• ospfv3type—{all | errors {all | bad packet | config error | virt bad
packet | virt config error} | lsa {all | lsa-maxage | lsa-originate} |
overflow {all | lsdb-overflow | lsdb-approaching-overflow} | retransmit
{all | packets | virt-packets} | state-change {all | if state change |
neighbor state change | virtif state change | virtneighbor state change}}
•acl—Enable traps on ACL match events.
Switch Management Commands 2103
•all—Enable all traps (not recommended).
•auto-copy-sw—Enable traps on automatic download of switch software.
•bgp state-changes limited—Enable the two traps defined in the
standard BGP MIB, RFC 4273. A trap is sent when an adjacency reaches
the ESTABLISHED state and when a backward adjacency state
transition occurs.
•captive-portal—Enable captive-portal traps.
•dot1q—Enable traps on VLAN configuration failures.
•bgp state-changes limited—Enable standard traps defined in RFC 4273.
•port-security—Enable traps on port security violations.
•port-security trap-rate—Configure the interval at which port security
traps are issued. Range 1-1000000 seconds. Default 30 seconds.
•buffers—Enables sending of a trap on the internal message buffer count
exceeding the rising threshold.
•cpu threshold—Enables sending of a trap on the CPU occupancy
exceeding the rising threshold.
•multiple-users—Enable sending a trap when multiple logins are active.
•link—Enable sending a trap when a link (interface) transitions to the
active state or the inactive state.
•violation—Enable sending a trap when a port security MAC locking
violation occurs.
• vrf-name—The name of an existing VRF instance
•dvmrp—Enable dvmrp traps.
•port-security —Enable traps on port security violations.
•ospf—Enable OSPF event traps.
•ospfv3—Enable OSPFv3 event traps.
•pim—Enable pim traps (pim-sm and pim-dm).
•poe —Enable poe traps. This parameter is only available on PoE capable
switches.
•snmp authentication —Enable snmp authentication traps.
•spanning-tree—Enable traps on topology changes.
•vrrp —Enable vrrp traps.
Switch Management Commands 2104
Default Configuration
SNMP authentication, link, multiple-user, spanning-tree, dot1q, and ACL
traps are enabled by default. Port-security traps are enabled by default.
Command Mode
Global Configuration mode.
User Guidelines
Use the command with no parameters to globally enable sending of traps. Use
the no form of the command with no parameters to globally disable sending
of traps without changing the configured traps.
Refer to the description of the global configuration mode buffer command
for setting the rising and falling thresholds for the sending of the message
buffer trap.
Refer to the description of the Global Configuration mode process cpu
command for setting the rising and falling thresholds for the sending of the
CPU occupancy trap.
Command History
Introduced in version 6.2.0.1 firmware.
Example
The following example displays the options for the snmp-server enable traps
command.
console(config)#snmp-server enable traps ?
<cr> Press enter to execute the command.
acl Enable/Disable traps for access control lists.
all Enable/Disable all Traps.
auto-copy-sw Enable/Disable auto copy of code if there is a
version mismatch.
bgp Enable BGP traps.
buffers Configure Mbuf threshold traps.
captive-portal Enable/Disable SNMP traps for CP system events.
cpu Configure CPU threshold traps.
dot1q Enable/Disable switch level Dot1q trap flag.
dvmrp Enable/Disable traps for distance vector multicast
routing protocol.
Switch Management Commands 2105
link Enable/Disable switch level Link Up/Down trap flag.
multiple-users Configure multiple users login traps.
ospf Enable/Disable OSPF Traps.
ospfv3 Enable/Disable OSPFv3 Traps.
pim Enable/Disable traps for protocol-independent
multicast.
port-security Enable/Disable switch level Maclock Violation trap
flag.
snmp Enable SNMP traps.
spanning-tree Configure spanning tree traps.
vrf Specify VPN Routing/Forwarding instance.
vrrp Enable/Disable VRRP trap.
snmp-server engineID local
Use the snmpserver engineID local command in Global Configuration mode
to specify the Simple Network Management Protocol (SNMP) engine ID on
the local device.
To remove the configured engine ID, use the no form of this command.
Syntax
snmp-server engineID local {engineid-string | default}
no snmp-server engineID local
• engineid-string — The character string that identifies the engine ID.
The engine ID is a concatenated hexadecimal string. Each byte in
hexadecimal character strings is two hexadecimal digits. Each byte can
be separated by a period or colon. (Range: 6-32 characters)
• default — The engineID is created automatically, based on the device
MAC address.
Default Configuration
The engineID is generated using the switch MAC address.
Command Mode
Global Configuration mode
Switch Management Commands 2106
User Guidelines
If you want to use SNMPv3, an engine ID is required for the switch. You can
specify your own ID or use the default string that is generated using the MAC
address of the device. If the SNMPv3 engine ID is changed, or the
configuration file is erased, then SNMPv3 cannot be used until the SNMPv3
users are reconfigured. Since the EngineID must be unique within an
administrative domain, the following guidelines are recommended:
1
For standalone devices use the default keyword to configure the Engine
ID.
2
For stackable systems, configure your own EngineID, and verify that is
unique within your administrative domain.
Changing the value of the snmpEngineID has important side-effects. A user's
password (entered on the command line) is converted to an MD5 or SHA
security digest. This digest is based on both the password and the local engine
ID. The command line password is then deleted and is not stored on the
switch, as required by RFC 2274. Because of this deletion, if the local value of
engineID changes, the security digests of SNMPv3 users will be invalid and
the users will have to be reconfigured.
Example
The following example configures the Engine ID automatically.
console(config)# snmp-server engineID local default
snmp-server filter
Use the snmp-server filter command in Global Configuration mode to create
or update a Simple Network Management Protocol (SNMP) server filter
entry. To remove the specified SNMP server filter entry, use the no form of
this command.
Syntax
snmp-server filter filter-name oid-tree {included | excluded}
no snmp-server filter filter-name [oid-tree]
• filter-name — Specifies the label for the filter record that is being
updated or created. The name is used to reference the record. (Range: 1-
30 characters.)
Switch Management Commands 2107
• oid-tree — Specifies the object identifier of the ASN.1 subtree to be
included or excluded from the view. To identify the subtree, specify a
text string consisting of numbers, such as 1.3.6.2.4, or a word, such
as system. Replace a single subidentifier with the asterisk (*) wild card
to specify a subtree family; for example, 1.3.*.4.
•included — Indicates that the filter type is included.
•excluded — Indicates that the filter type is excluded.
Default Configuration
No filter entry exists.
Command Mode
Global Configuration mode
User Guidelines
An SNMP server filter identifies the objects to be included or excluded from
notifications sent to a server per RFC 2573 Section 6 "NotificationFiltering."
This command can be entered multiple times for the same filter record. Later
lines take precedence when an object identifier is included in two or more
lines.
The filter name may include any printable characters except a question mark.
Enclose the string in double quotes to include spaces within the name. The
surrounding quotes are not used as part of the name. The CLI does not filter
illegal characters and may accept entries up to the first illegal character or
reject the entry entirely. Per RFC 2573, configuring a filter adds an implicit
exclude-all as the first entry in a filter record. Unless an include statement is
specified, all notifications are excluded by default.
Examples
The following example creates a filter that includes all objects in the MIB-II
system group except for sysServices (System 7) and all objects for interface 1
in the MIB-II interfaces group.
console(config)# snmp-server filter user-filter system included
console(config)# snmp-server filter user-filter system.7 excluded
console(config)# snmp-server filter user-filter ifEntry.*.1 included
Switch Management Commands 2108
snmp-server group
Use the snmp-server group command in Global Configuration mode to
configure a new Simple Management Protocol (SNMP) group or a table that
maps SNMP users to SNMP views. To remove a specified SNMP group, use
the no form of this command.
Syntax
snmp-server group groupname { v1 | v2 | v3 { noauth | auth | priv } [
notify notifyview ] } [ context contextname ] [ read readview ] [ write
writeview ]
no snmp-server group groupname { v1 | v2 | v3 { noauth | auth | priv } } [
context contextname ]
• groupname — Specifies the name of the group. (Range: 1-30
characters.)
•v1 — Indicates the SNMP Version 1 security model.
•v2 — Indicates the SNMP Version 2 security model.
•v3 — Indicates the SNMP Version 3 security model.
•noauth — Indicates no authentication of a packet. Applicable only to
the SNMP Version 3 security model.
•auth — Indicates authentication of a packet without encrypting it.
Applicable only to the SNMP Version 3 security model.
•priv — Indicates authentication of a packet with encryption. Applicable
only to the SNMP Version 3 security model.
• contextname — Provides different views of the system and provides the
user a way of specifying that context.
• notifyview — Defines a string that is the name of the view that enables
specifying an inform or a trap. If unspecified, nothing is defined for the
notify view. (Range: 1-30 characters.)
• readview — A string that is the name of the view that enables the you to
view only the contents of the agent. If unspecified, all the objects except
for the community-table and SNMPv3 user and access tables are
available. (Range: 1-30 characters.)
Switch Management Commands 2109
• writeview — A string that is the name of the view that enables the user
to enter data and configure the contents of the agent. If unspecified,
nothing is defined for the write view. (Range: 1-30 characters.)
Default Configuration
No group entry exists. There will be some default groups for
Read/Write/Super users. These groups cannot be deleted or modified by the
user. This command is used only to configure the user-defined groups.
Command Mode
Global Configuration Mode
User Guidelines
View-name should be an existing view created using the snmp-server view
command. If there are multiple records with the same view-name, then the
argument specified in this command points to first view-name in the table.
Example
The following example attaches a group called user-group to SNMPv3 and
assigns to the group the privacy security level and read access rights to a view
called user-view.
console(config)#snmp-server view user-view iso included
console(config)#snmp-server group user-group v3 priv read user-view
snmp-server host
Use the snmp-server host command in Global Configuration mode to specify
the recipient of Simple Network Management Protocol notifications. To
remove the specified host, use the no form of this command. This command
enters the user into SNMP-host configuration mode.
Syntax
snmp-server host host-addr [informs [timeout seconds] [retries retries] |
traps version {1 | 2 }]] community-string [udp-port port] [filter filtername]
no snmp-server host host-addr { traps | informs }
Switch Management Commands 2110
• host-addr—Specifies the IP address of the host (targeted recipient) or
the name of the host. Both IPv4 and IPv6 addresses are
accepted.(Range:1-158 characters)
•community-string—Specifies a password-like community string sent
with the notification operation. (Range: 1-20 characters)
•traps —Indicates that SNMP traps are sent to this host.
•version 1—Indicates that SNMPv1 traps will be used.
•version 2—Indicates that SNMPv2 traps will be used.
•informs— Indicates that SNMPv2 informs are sent to this host.
• seconds—Number of seconds to wait for an acknowledgment before
resending informs. The default is 15 seconds. (Range: 1-300.)
• retries—Maximum number of times to resend an inform request. The
default is 3 attempts. (Range: 1-255)
• port—UDP port of the host to use. The default is 162. (Range: 1-
65535.)
• filtername— A string that is the name of the filter that defines the filter
for this host. If unspecified, does not filter anything (Range: 1-30
characters.)
Default Configuration
The default configuration is 3 retries, and 15 seconds timeout. This
command is disabled by default. No notifications are sent.
If you enter this command with no keywords, the default is to send all trap
types to the host. No informs are sent to this host. If no version keyword is
present, the default is Version 1.
Command Mode
Global Configuration mode
User Guidelines
If a DNS host name is entered instead of an IP address, the switch attempts
to resolve the host name immediately using DNS. Use the ip domain-lookup
command and the ip name-server command to enable resolution of DNS
host names.
Switch Management Commands 2111
Example
The following example enables SNMP traps for host 192.16.12.143.
console(config)# snmp-server host 192.16.12.143 Dell EMC Networking traps
version 2
snmp-server location
Use the snmp-server location command in Global Configuration mode to set
the system location string. To remove the location string, use the no form of
this command.
Syntax
snmp-server location text
no snmp-server location
• text — Character string describing the system location. (Range: 1 to 255
characters.)
Default Configuration
This command has no default configuration.
Command Mode
Global Configuration mode
User Guidelines
The location string may contain embedded blanks if enclosed in quotes. Any
printable character is allowed in the string.
Example
The following example sets the device location as “New_York”.
console(config)# snmp-server location New_York
snmp-server user
Use the snmp-server user command in Global Configuration mode to
configure a new SNMP Version 3 user. To delete a user, use the no form of this
command.
Switch Management Commands 2112
Syntax
snmp-server user username groupname [remote engineid-string] [ { auth-
md5 password | auth-sha password | auth-md5-key md5-key | auth-sha-key
sha-key } [priv-des password | priv-des-key des-key | priv-3des password |
priv-3des-key des-key | priv-aes128 password | priv-aes128-key aes-key ] ]
no snmp-server user username
• username — Specifies the name of the user on the host that connects to
the agent. (Range: 1-32 characters.)
• groupname — Specifies the name of the group to which the user
belongs. (Range: 1-40 characters.)
• engineid-string — Specifies the engine ID of the remote SNMP entity
to which the user belongs. The engine ID is a concatenated hexadecimal
string. Each byte in the hexadecimal character string is two hexadecimal
digits. The remote engine id designates the remote management
station, and should be defined to enable the device to receive
acknowledgments to “informs.” (Range: 5-32 characters.)
•auth-md5 — HMAC-MD5-96 authentication mode.
•auth-sha — HMAC-SHA-96 authentication mode.
• password — A password. (Range: 1 to 32 characters.)
•auth-md5-key — HMAC-MD5-96 authentication message digest key.
Enter a pre-generated MD5 key.
• auth-sha-key — HMAC-SHA-96 authentication message digest key.
Enter a pre-generated SHA key.
• md5-key — Character string —length 32 hex characters.
• sha-key — Character string —length 40 hex characters.
•priv-des — CBC-DES Symmetric Encryption privacy mode. Enter a
shared password to generate the key.
•priv-des-key — CBC-DES Symmetric Encryption privacy mode. The
administrator should enter a pre-generated DES encryption key.
• des-key — The pregenerated DES encryption key. The length is
determined by the authentication method selected . Enter 32 hex
characters if MD5 Authentication is selected, 40 hex characters if SHA
Authentication is selected.
Switch Management Commands 2113
•priv-3des— The CBC 3DES Symmetric Encryption privacy level. Enter
a shared password to generate the key.
•priv-3des-key— The CBC-3DES Symmetric Encryption privacy level.
The administrator should enter a pre-generated 3DES key.
•priv-aes128— CBC-AES128 Symmetric Encryption privacy mode.
•priv-aes128-key— A pre-generated AES128 encryption key - 32 hex
characters in length.
• aes-key— Advanced Encryption Standard. Enter a pre-generated AES
key of the appropriate length (128 or 256 bits). An AES 128 bit key is 32
hexadecimal characters in length.
Default Configuration
No user entry exists.
Command Mode
Global Configuration mode
User Guidelines
If the SNMP local engine ID is changed, configured users will no longer be
able to connect and will need to be re-configured (deleted from the
configuration and added back).
Use of MD5 authentication in conjunction with AES privacy is discouraged
as it results in a weak cypher. Utilize SHA authentication when using AES
privacy.
The SNMP group must exist or an error is displayed and the user is not
configured. The user name can consist of any printable character and may
contain embedded blanks if enclosed in quotes.
Example
The following example configures an SNMPv3 user “John” in group “user-
group”.
console(config)# snmp-server user John user-group
Switch Management Commands 2114
snmp-server view
Use the snmp-server view command in Global Configuration mode to create
or update a Simple Network Management Protocol (SNMP) server view entry.
To delete a specified SNMP server view entry, use the no form of this
command.
Syntax
snmp-server view view-name oid-tree { included | excluded }
no snmp-server view view-name [oid-tree ]
• view-name — Specifies the label for the view record that is being created
or updated. The name is used to reference the record. (Range: 1-30
characters.)
• oid-tree — Specifies the object identifier of the ASN.1 subtree to be
included or excluded from the view. To identify the subtree, specify a
text string consisting of numbers, such as 1.3.6.2.4, or a word, such
as system. Replace a single subidentifier with the asterisk (*) wild card
to specify a subtree family; for example 1.3.*.4.
•included — Indicates that the view type is included.
•excluded — Indicates that the view type is excluded.
Default Configuration
A view entry does not exist.
Command Mode
Global Configuration mode
User Guidelines
A view is a set of ASN.1 objects the SNMP server is allowed to access.
Multiple view statements may be entered for a particular view. This command
can be entered multiple times for the same view record.
Switch Management Commands 2115
The view name accepts any printable characters except a question mark.
Enclose the string in double quotes to include spaces within the name. The
surrounding quotes are not used as part of the name. The CLI does not filter
illegal combinations of characters on entry and may accept entries up to the
first illegal character or reject the entry entirely.
Examples
The following example creates a view named user-view that includes all
objects in the MIB-II system group except for sysServices (system.7) and
includes all objects for interface 1 in the MIB-II interface group. An
additional example of embedded blanks in a view name is given on the last
line.
console(config)# snmp-server view user-view system included
console(config)# snmp-server view user-view system.7 excluded
console(config)# snmp-server view user-view ifEntry.*.1 included
console(config)#snmp-server view "A beautiful view!" 1.1.2.1 included
snmp-server v3-host
Use the snmp-server v3-host command in Global Configuration mode to
specify the recipient of Simple Network Management Protocol Version 3
(SNMPv3) notifications. To remove the specified host, use the no form of
this command.
Syntax
snmp-server v3-host {ip-address | hostname} username {traps | informs}
[noauth | auth | priv] [timeout seconds] [retries retries] [udpport port]
[filter filtername]
no snmp-server v3-host ip-address {traps | informs}
• ip-address — Specifies the IP address of the host (targeted recipient).
Both IPv4 and IPv6 addresses are allowed.
• hostname — Specifies the name of the host. (Range: 1-158 characters.)
The command allows spaces in the host name when specified in double
quotes. For example, #snmp-server v3-host “host name”. Note that the
switch will not resolve host names that are not in conformance with
RFC 1035.
Switch Management Commands 2116
• username — Specifies user name used to generate the notification.
(Range: 1-30 characters.)
•traps — Indicates that SNMP traps are sent to this host.
•informs — Indicates that SNMPv2 informs are sent to this host.
•noauth — Specifies sending of a packet without authentication.
•auth — Specifies authentication of a packet without encrypting it
•priv — Specifies authentication and encryption of a packet.
• seconds — Number of seconds to wait for an acknowledgment before
resending informs. This is not allowed for hosts configured to send traps.
The default is 15 seconds. (Range: 1-300 seconds.)
• retries — Maximum number of times to resend an inform request. This
is not allowed for hosts configured to send traps. The default is 3
attempts. (Range: 0-255 retries.)
• port — UDP port of the host to use. The default is 162. (Range: 1-
65535.)
• filtername — A string that is the name of the filter that define the filter
for this host. If unspecified, does not filter anything. (Range: 1-30
characters.)
Default Configuration
The default configuration is 3 retries and 15 seconds timeout.
Command Mode
Global Configuration mode
User Guidelines
The username can include any printable characters except a question mark.
Enclose the string in double quotes to include spaces within the key. The
surrounding quotes are not used as part of the key. The CLI does not filter
illegal characters but may accept entries up to the first illegal character or
reject the entry entirely.
Example
The following example configures an SNMPv3 host, and sets it to send SNMP
INFORMS with user name John using authentication without encryption.
Switch Management Commands 2117
console(config)# snmp-server v3-host 192.168.0.20 John informs auth
The following example shows the syntax of the no snmp-server host ip-address
command.
console(config)#no snmp-server host 1.2.3.4 ?
informs Sends SNMP informs to this host.
traps Sends SNMP traps to this host.
Command History
Example updated in 6.4 release.
snmp-server source-interface
Use the snmp-server source-interface command to select the interface from
which to use the IP address in the source IP address field of transmitted
SNMP traps and informs. Use the no form of the command to revert to the
default IP address.
Syntax
snmp-server source-interface { loopback loopback-id | vlan vlan-id }
no snmp-server source-interface
• loopback-id — A loopback interface identifier.
• vlan-id — A VLAN identifier.
Default Configuration
By default, the switch uses the assigned switch IP address as the source IP
address for SNMP packets. This is either the IP address assigned to the VLAN
from which the SNMP packet originates or the out-of-band interface IP
address.
Command Mode
Global Configuration
Switch Management Commands 2118
User Guidelines
The source interface must have an assigned IP address (either manually or via
another method such as DHCP). This command is not supported on Dell
EMC N1100-ON switches. Dell EMC N1100-ON switches support
configuration of a single IP address in interface vlan configuration mode.
That IP address is used as the source interface address for this function.
Command History
Introduced in version 6.3.0.1 firmware.
Example
console#conf
console(config)#interface vlan 1
console(config-if-vlan1)#ip address dhcp
console(config-if-vlan1)#exit
console(config)#snmp-server source-interface vlan 1
Switch Management Commands 2119
SupportAssist Commands
The commands in this section enable configuration of SupportAssist.
Commands in this Section
This section explains the following commands:
eula-consent
Use the eula-consent command to accept or reject the end-user license
agreement (EULA) for the SupportAssist service.
Syntax
eula-consent {support-assist} {accept | reject}
•support-assist—Enter the keyword support-assist to either accept or
reject the EULA for the SupportAssist service.
•accept — Accepts the EULA for the specified service.
•reject — Rejects the EULA for the specified service.
Default Configuration
The default is eula-consent support-assist accept.
Command Mode
Global Configuration
eula-consent proxy-ip-address
contact-company server
contact-person show eula-consent support-assist
enable show support-assist status
proxy-ip-address support-assist
–
url
Switch Management Commands 2120
User Guidelines
Messages are shown for both the accept and reject use cases with information
directing the user to URLs for further information. If the user rejects or has
not yet accepted the EULA, the configuration mode for the specified service
will not be usable. If there is existing configuration for that feature, the
configuration will not be removed but the feature will be disabled.
This command can be executed multiple times. It overwrites the previous
information each time. The collected information is stored in the running-
config. The administrator must write the configuration in order to persist it
across reboots.
Command History
Introduced in version 6.3.0.1 firmware.
Example
Example 1
console(config)# eula-consent support-assist accept
I accept the terms of the license agreement. You can reject the license
agreement by configuring this command 'eula-consent support-assist reject'.
By installing SupportAssist, you allow Dell to save your contact information
(e.g. name, phone number and/or email address) which would be used to provide
technical support for your Dell products and services. Dell may use the
information for providing recommendations to improve your IT infrastructure.
SupportAssist also collects and stores machine diagnostic information, which
may include but is not limited to configuration information, user supplied
contact information, names of data volumes, IP addresses, access control
lists, diagnostics & performance information, network configuration
information, host/server configuration & performance information and related
data (Collected Data) and transmits this information to Dell. By downloading
SupportAssist and agreeing to be bound by these terms and the Dell end user
license agreement, available at: http://www.dell.com/aeula, you agree to
allow Dell to provide remote monitoring services of your IT environment and
you give Dell the right to collect the Collected Data in accordance with
Dell's Privacy Policy, available at:
http://www.dell.com/privacypolicycountryspecific, in order to enable the
performance of all of the various functions of SupportAssist during your
entitlement to receive related repair services from Dell. You further agree
to allow Dell to transmit and store the Collected Data from SupportAssist in
accordance with these terms. You agree that the provision of SupportAssist
may involve international transfers of data from you to Dell and/or to Dell's
affiliates,subcontractors or business partners. When making such transfers,
Dell shall ensure appropriate protection is in place to safeguard the
Collected Data being transferred in connection with SupportAssist. If you are
Switch Management Commands 2121
downloading SupportAssist on behalf of a company or other legal entity, you
are further certifying to Dell that you have appropriate authority to provide
this consent on behalf of that entity. If you do not consent to the
collection, transmission and/or use of the Collected Data, you may not
download, install or otherwise use SupportAssist.
Example 2
console(config)# eula-consent support-assist reject
I do not accept the terms of the license agreement. The SupportAssist feature
has been deactivated and can no longer be used.
To enable SupportAssist configurations, accept the terms of the license
agreement by configuring this command 'eula-consent support-assist accept'.
contact-company
Use the contact-company command to configure the contact information to
be sent to the SupportAssist server. Use the no form of the command to
remove the contact information.
Syntax
contact-company name company street-address streetaddress address city
city country country postcode postcode
• company — The company for the technical contact person. Maximum
of 256 printable characters.
• streetaddress — The street address for the technical contact person.
Maximum of 99 printable characters.
• city — The city for the technical contact person. Maximum of 99
printable characters.
• country — The country for the technical contact person in Alpha-3
format-3 capital-case characters.
• postcode — The postal code for the technical contact person. Maximum
of 10 printable characters.
Enclose a parameter in quotes if an embedded blank is desired in the
parameter.
Default Configuration
No contact company information is populated by default.
Switch Management Commands 2122
Command Mode
Support Assist Configuration
User Guidelines
This information is transmitted to Dell if the SupportAssist service is
enabled.
This command can be executed multiple times. It overwrites the previous
information each time. The collected information is stored in the running-
config. The administrator must write the configuration in order to persist it
across reboots.
Command History
Introduced in version 6.3.0.1 firmware.
Example
console(config)# support-assist
console(conf-support-assist)#contact-company name “Dell Inc.“ street-address
“5 Round Rock Way“ city “Round Rock, TX“ country USA postcode 78665
contact-person
Use the contact-person command to configure the contact information to be
sent to the SupportAssist server. Use the no form of the command to remove
the contact information.
Syntax
contact-person first firstname last lastname email-address primary
emailaddress phone phone-number preferred-method { email | phone }
no contact-person
• firstname — The first name of the technical contact person. Maximum
of 50 printable characters.
• lastname — The last name of the technical contact person. Maximum
of 50 printable characters.
•email-address primary—The primary email address of the technical
contact. Maximum of 50 printable characters.
Switch Management Commands 2123
•phone—The complete phone number. Maximum of 23 printable
characters.
•preferred-method—The preferred method of contact. May be either
email or phone.
Default Configuration
No contact person information is populated by default.
Command Mode
Support Assist Configuration
User Guidelines
The email address must conform to RFC 5322 sections 3.2.3 and 3.4.1 and
RFC 5321. Additionally, the character set is further restricted to ASCII
characters.
This information is transmitted to Dell if the SupportAssist service is
enabled.
This command can be executed multiple times. It overwrites the previous
information each time. The collected information is stored in the running-
config. The administrator must write the configuration in order to persist it
across reboots.
Command History
Introduced in version 6.3.0.1 firmware.
Example
The following example
console(config)# support-assist
console(conf-support-assist)#contact-person first john last doe email-
address primary jdoe@mycompany.com phone +1-555-999-9999 preferred-method
email
enable
Use the enable command to enable a SupportAssist server. Use the no form of
the command to disable a SupportAssist server.
Switch Management Commands 2124
Syntax
enable
no enable
Default Configuration
By default, the default server is enabled. It may be disabled using the no
enable form of the command.
Command Mode
Support Assist Configuration
User Guidelines
Only one SupportAssist server may be enabled. If contact with the server fails,
the switch sleeps for the quiet period (default 1 hour) before attempting
contact again.
Command History
Introduced in version 6.3.0.1 firmware.
Example
console(config)# support-assist
console(conf-support-assist)#server New-Server
console(conf-support-assist-NewServer)#enable
proxy-ip-address
Use the proxy-ip-address command to configure a proxy server to be used to
contact the SupportAssist servers. Use the no form of the command to
remove the proxy server information.
Syntax
proxy-ip-address {ipv4-address | ipv6-address} port port-number username
userid password [encryption-type] password
no proxy-ip-address
• ipv4-address — The IPv4 address of the proxy server in dotted decimal
notation.
Switch Management Commands 2125
• ipv6-address — The IPv6 address of the proxy server in IPv6 notation.
• port-number — The TCP port number of the proxy server. Range 1-
65535. Default 443.
• userid— The user name used to log into the proxy server.
• encryption-type— 0 indicates an unencrypted password. 7 indicates an
encrypted password.
• password— An unencrypted or encrypted password. Maximum length is
64 characters for an unencrypted password. Encrypted passwords must
be 128 characters in length.
Default Configuration
By default, no proxy is configured.
By default, passwords are entered as unencrypted and are always displayed
and stored encrypted
Command Mode
Support Assist Configuration
User Guidelines
Passwords are always stored and displayed as encrypted, even if entered in
unencrypted format.
Command History
Introduced in version 6.3.0.1 firmware.
server
Use the server command to configure a SupportAssist server and enter
SupportAssist server configuration mode. Use the no form of the command
to remove a SupportAssist server.
server server-name
no server server-name
Switch Management Commands 2126
• server-name — The server name has a maximum length of 20
characters. Any printable character may be used in the server name
other than a question mark. Enclose the server name in quotes if an
embedded blank is desired in the server name.
Default Configuration
A default server named “default” exists at URL stor.g3.ph.dell.com. This
server is pre-configured and may not be removed or modified other than to
disable it.
Command Mode
Support Assist Configuration
User Guidelines
The server-name is used as a reference only and is not required to be used as
part of a URL definition.
Up to four additional servers may be configured.
Use the exit command to exit from Support Assist Server configuration
mode.
Command History
Introduced in version 6.3.0.1 firmware.
Example
console(config)# support-assist
console(conf-support-assist)#server default
console(conf-support-assist-default)#
show eula-consent support-assist
Use the show eula-consent to may be used to review the EULA details
whenever desired. Displaying the EULA details does not modify the current
state of EULA acceptance for that feature.
Syntax
show eula-consent support-assist
Switch Management Commands 2127
Default Configuration
The SupportAssist EULA is Accepted by default.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
Acceptance of the SupportAssist EULA is enabled by default.
Command History
Introduced in version 6.3.0.1 firmware.
Example
console#show eula-consent support-assist
SupportAssist EULA has been: Accepted
Additional information about the SupportAssist EULA is as follows:
By installing SupportAssist, you allow Dell to save your contact information
(e.g. name, phone number and/or email address) which would be used to provide
technical support for your Dell products and services. Dell may use the
information for providing recommendations to improve your IT infrastructure.
SupportAssist also collects and stores machine diagnostic information, which
may include but is not limited to configuration information, user supplied
contact information, names of data volumes, IP addresses, access control
lists, diagnostics & performance information, network configuration
information, host/server configuration & performance information and related
data (Collected Data) and transmits this information to Dell. By downloading
SupportAssist and agreeing to be bound by these terms and the Dell end user
license agreement, available at: http://www.dell.com/aeula, you agree to
allow Dell to provide remote monitoring services of your IT environment and
you give Dell the right to collect the Collected Data in accordance with
Dell's Privacy Policy, available at:
http://www.dell.com/privacypolicycountryspecific, in order to enable the
performance of all of the various functions of SupportAssist during your
entitlement to receive related repair services from Dell. You further agree
to allow Dell to transmit and store the Collected Data from SupportAssist in
accordance with these terms. You agree that the provision of SupportAssist
may involve international transfers of data from you to Dell and/or to Dell's
affiliates, subcontractors or business partners. When making such transfers,
Dell shall ensure appropriate protection is in place to safeguard the
Collected Data being transferred in connection with SupportAssist. If you are
downloading SupportAssist on behalf of a company or other legal entity, you
are further certifying to Dell that you have appropriate authority to provide
Switch Management Commands 2128
this consent on behalf of that entity. If you do not consent to the
collection, transmission and/or use of the Collected Data, you may not
download, install or otherwise use SupportAssist.
show support-assist status
Use the show support-assist status command to display information on
SupportAssist feature status including any activities, status of
communication, last time communication sent, etc.
Syntax
show support-assist status
Default Configuration
This command has no defaults.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
There are no guidelines for this command.
Command History
Introduced in version 6.3.0.1 firmware.
Example
console# show support-assist status
SupportAssist: Enabled
SupportAssist Server: https://stor.g3.ph.dell.com (resolved)
EULA: Accepted
Proxy Server: 172.167.33.101
Proxy port: 8080
Activity State Last Start Last
Success
Communication
Status Success MM/DD/YYYY
HH:mm:ss AM MM/DD/YYYY
HH:mm:ss AM
Full Transfer Success MM/DD/YYYY
HH:mm:ss AM MM/DD/YYYY
HH:mm:ss AM
Switch Management Commands 2129
support-assist
Use the support-assist command to enable support-assist configuration mode
if the EULA has been accepted. Use the no form of the command to remove
the configured SupportAssist information.
Syntax
support-assist
no support-assist
Default Configuration
By default, a server named “default” is configured. It may be disabled by the
administrator.
Command Mode
Global Configuration
User Guidelines
This command enters support-assist-conf mode. It allows the administrator
to configure SupportAssist information. The configured information is stored
in the running config. Use the write command to save the information into
the startup-config.
Command History
Introduced in version 6.3.0.1 firmware.
Examples
Example 1
In this example, the SupportAssist EULA has been accepted.
console(config)#support-assist
console(conf-support-assist)#
Example 2
In this example, the SupportAssist EULA has been rejected.
console(config)#support-assist
Switch Management Commands 2130
SupportAssist EULA has not been accepted.
SupportAssist cannot be configured until the SupportAssist EULA is accepted.
console(config)#
url
Use the url command to configure the URL to reach on the SupportAssist
remote server. Use the no form of the command to remove the URL
information.
Syntax
url uniform-resource-locator
no url
uniform-resource-locator —
A text string for the URL using one of the
following formats:
http://[username:password@]<hostip>:<portNum>/<filepath>
https://[username:password@]<hostip>:<portNum>/<filepath>
Default Configuration
By default, no URL is configured.
Command Mode
Support Assist Configuration
User Guidelines
The hostip for the server may be specified as an IPv4 address, an IPv6 address
or as a DNS hostname. If using the DNS hostname, the DNS resolver feature
will need to be configured, enabled and operational.
Command History
Introduced in version 6.3.0.1 firmware.
Example
console(config)# support-assist
console(conf-support-assist)#server default
Switch Management Commands 2131
console(config)support-assist
console(conf-support-assist)#server new
console(conf-support-assist-new)#url https://stor.g3.ph.dell.com
Switch Management Commands 2132
SYSLOG Commands
The Dell EMC Networking supports a centralized logging service with
support for local in-memory logs, crash dump logs, and forwarding messages
to syslog servers. All switch components use the logging service. Components
log messages to the logging component using one of the following severity
levels:
• Emergency (0): system is unusable
• Alert (1): action must be taken immediately
• Critical (2): critical conditions
• Error (3): error conditions
• Warning (4): warning conditions
• Notice(5): normal but significant conditions
• Informational(6): informational messages
• Debug(7): debug-level messages
CLI Logged to Local File and SYSLOG Server
The Dell EMC Networking Command Logging component logs all command
line interface commands issued on the system. The command log messages
are stored with the other system logs and provide the system operators with a
detailed log of the commands executed.
CLI command logging is configured through any of the Dell EMC
Networking management interfaces. When the feature is enabled, all CLI
commands are logged using the existing logging service. By default, CLI
command logging is disabled.
Dell EMC Networking supports both RFC 3164 and RFC 5424 logging to
remote SYSLOG servers.
The CLI command logging severity is set to SEVERITY_NOTICE. The
logging severity is not modifiable by the administrator.
For example, the CLI log message for the user admin is:
<189> JAN 10 18:59:09 10.27.21.22-2 CMDLOGGER[209809328]:
cmd_logger_api.c(83) 367 %% CLI:EIA-232:----:configure
<190> JAN 10 18:59:17 10.27.21.22-2 CLI_WEB[209809328]:
cmd_logger_api.c(260) 369 %% [CLI:----:EIA-232] Access level of user admin
has been set to 15
Switch Management Commands 2133
If enabled, the CLI command logger subsystem begins to log commands
immediately after the user is authenticated. After authentication, the CLI
generates an explicit message and invokes the command logger. The format of
the message at login is:
<189> JAN 10 18:58:56 10.27.21.22-2 CMDLOGGER[209809328]:
cmd_logger_api.c(83) 361 %% CLI:10.27.21.22:admin:User admin logged in
<190> JAN 10 18:58:56 10.27.21.22-2 CLI_WEB[209809328]:
cmd_logger_api.c(260) 362 %% [CLI:admin:10.27.21.22] User has successfully
logged in
The CLI command log subsystem also logs all user log out instances. The
format of the log message is:
<190> JAN 10 19:01:04 10.27.21.22-2 CLI_WEB[209809328]:
cmd_logger_api.c(260) 382 %% [CLI:admin:10.27.21.22] User has logged out
Commands in this Section
This section explains the following commands:
clear logging
Use the clear logging command to clear messages from the internal logging
buffer.
clear logging logging monitor
clear logging file logging on
description (Logging) logging protocol
level logging snmp
logging cli-command logging source-interface
logging logging traps
logging audit logging web-session
logging buffered port
logging console show logging
logging facility show logging file
logging file show syslog-servers
–
terminal monitor
Switch Management Commands 2134
Syntax
clear logging
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode
User Guidelines
This command has no user guidelines.
Example
The following example clears messages from the internal syslog message
logging buffer.
console#clear logging
Clear logging buffer [y/n]
clear logging file
Use the clear logging file command to clear messages from the logging file.
Syntax
clear logging file
Default Configuration
There is no default configuration for the command.
Command Mode
Privileged Exec
User Guidelines
This command has no user guidelines.
Switch Management Commands 2135
Example
The following example shows the clear logging file command and
confirmation response.
console#clear logging file
Clear logging file [y/n]
description (Logging)
Use the description command in Logging mode to describe the SYSLOG
server.
Syntax
description description
• description — Sets the description of the syslog server. (Range: 1-64
characters.)
Default Configuration
This command has no default value.
Command Mode
Logging mode
User Guidelines
After entering the view corresponding to a specific syslog server, the
command can be executed to set the description of the server.
Example
The following example sets the syslog server description.
console(config-logging)#description "syslog server 1"
level
Use the level command in Logging mode to specify the severity level of
SYSLOG messages. To reset to the default value, use the no form of the
command.
Switch Management Commands 2136
Syntax
level <level>
no level
• level—The severity level for syslog messages. (Range: emergency, alert,
critical, error, warning, notice, info, debug)
Default Configuration
The default value for level is info.
Command Mode
Logging mode
User Guidelines
After entering the view corresponding to a specific SYSLOG server, the
command can be executed to set the severity level for SYSLOG messages.
Debug level messages are intended for use by support personnel. The output
is voluminous, cryptic, and because of the large number of messages
generated, can adversely affect switch operations. Only set the logging level to
debug under the direction of support personnel.
Example
The following example sets the SYSLOG message severity level to alert.
console(config-logging)#level alert
logging cli-command
Use the logging cli-command in Global Configuration mode to enable CLI
command logging.
Syntax
logging cli-command
no logging cli-command
Default Configuration
Disabled
Switch Management Commands 2137
Command Mode
Global Configuration
User Guidelines
See the CLI commands by using the
show logging
command.
Example
console(config)#logging cli-command
console(config)#do show logging
console#show logging
Logging is enabled
Logging protocol version: 0
Source Interface............................... Default
Console Logging: Level warnings. Messages : 3 logged, 320 ignored
Monitor Logging: disabled
Buffer Logging: Level informational. Messages : 55 logged, 268 ignored
File Logging: Level emergencies. Messages : 0 logged, 323 ignored
Switch Auditing : enabled
CLI Command Logging: disabled
Web Session Logging : disabled
SNMP Set Command Logging : disabled
Logging facility level : local7
0 Messages dropped due to lack of resources
Buffer Log:
<189> JAN 10 18:59:09 10.27.21.22-2 CMDLOGGER[209809328]:
cmd_logger_api.c(83) 367 %% CLI:EIA-232:----:configure
<190> JAN 10 18:59:17 10.27.21.22-2 CLI_WEB[209809328]:
cmd_logger_api.c(260) 369 %% [CLI:----:EIA-232] Access level of user admin
has been set to 15
<189> JAN 10 18:59:19 10.27.21.22-2 CMDLOGGER[209809328]:
cmd_logger_api.c(83) 370 %% CLI:EIA-232:----:exit
<189> JAN 10 18:59:22 10.27.21.22-2 CMDLOGGER[209809328]:
cmd_logger_api.c(83) 371 %% CLI:EIA-232:----:telnet 10.27.21.22
<189> JAN 10 18:59:27 10.27.21.22-2 TRAPMGR[209809328]: traputil.c(614) 372
%% Multiple Users: Unit: 0 Slot: 5 Port: 1
<189> JAN 10 18:59:27 10.27.21.22-2 CMDLOGGER[209809328]:
cmd_logger_api.c(83) 373 %% CLI:10.27.21.22:admin:User admin logged in
<190> JAN 10 18:59:27 10.27.21.22-2 CLI_WEB[209809328]:
cmd_logger_api.c(260) 374 %% [CLI:admin:10.27.21.22] User has successfully
logged in
<190> JAN 10 18:59:28 10.27.21.22-2 CLI_WEB[209809328]:
cmd_logger_api.c(260) 375 %% [CLI:admin:10.27.21.22] User admin logged in to
enable mode.
Switch Management Commands 2138
logging
Use the logging command in Global Configuration mode to log messages to a
SYSLOG server. To delete the SYSLOG server with the specified address
from the list of SYSLOG servers, use the no form of this command.
Syntax
logging {ip-address | ipv6-address | hostname} [tls {anon | x509 | x509
certificate index}]
no logging {ip-address | ipv6-address |hostname}
• ip-address — IP address of the host to be used as a syslog server.
• ipv6-address — IPv6 address of the host to be used as a syslog server.
• hostname — Hostname of the host to be used as a syslog server. (Range:
1-63 characters) The command allows spaces in the host name when
specified in double quotes. For example, #snmp-server v3-host “host
name”.
• anon—Use anonymous authentication (that is, anonymous mode with
no authentication).
• x509—Use mutual authentication (both client and server side). An
optional certificate index can be used to identify a specific server and
client certificate pair.
Default Configuration
When enabling x509 authentication, a default (non-indexed) certificate pair
is used if present and no certificate index has been specified.
The default SYSLOG server port number is 514. When DTLS is configured
(logging protocol 1), the default port number is 6514.
Command Mode
Global Configuration mode
User Guidelines
A signed X509 certificate must be present on the switch in order for DTLS
(logging protocol 1) to operate. See the crypto commands for further
information on certificates.
Switch Management Commands 2139
Up to eight syslog servers can be configured.
The Dell EMC Networking uses the local7(23) facility in the syslog message
by default. Syslog messages will not exceed 96 bytes in length. Syslog
messages use the following format:
<130>JAN0100:00:060.0.0.0-1UNKN[0x800023]:bootos.c(386)4%% Event(0xaaaaaaaa)
| | | | | | | | | |
| | | | | | | | | Message
| | | | | | | | |
| | | | | | | | Sequence Number
| | | | | | | |
| | | | | | | Line Number
| | | | | | |
| | | | | | File Name
| | | | | |
| | | | | Thread ID
| | | | |
| | | | Component Name
| | | |
| | | Stack ID
| | |
| | Host IP Address
| Timestamp
PRI
PRI This consists of the facility code (see RFC 3164) multiplied by
8 and added to the severity. See below for more information on
severity.
Timestamp The system up time. For systems that use SNTP, this is UTC.
When time zones are enabled, local time will be used.
Host IP Address The IP address of the local system.
Stack ID The assigned stack ID. 1 is used for systems without stacking
capability. The top of stack is used to collect messages for the
entire stack.
Component Name Component name for the logging component. Components
must use the new APIs in order to enable identification of the
logging component. Component UNKN is substituted for
components that do not use the new logging APIs.
Thread ID The thread ID of the logging component.
File Name The name of the file containing the invoking macro.
Switch Management Commands 2140
Example
The following example configures the named server as an available SYSLOG
server.
console# logging Syslog-server-1.dell.com
logging audit
Use the logging audit command to enable switch auditing. Use the no form
of the command to disable switch auditing.
Syntax
logging audit
no logging audit
Default Configuration
The command default is enabled.
Command Mode
Global Configuration
Example
console(config)#logging audit
logging buffered
Use the logging buffered command in Global Configuration mode to limit
syslog messages displayed from an internal buffer based on severity. To cancel
the buffer use, use the no form of this command.
Line Number The line number which contains the invoking macro.
Sequence Number The message sequence number for this stack component.
Sequence numbers may be skipped because of filtering but are
always monotonically increasing on a per stack member basis.
Message An informative message regarding the event.
Switch Management Commands 2141
Syntax
logging buffered [severity–level]
no logging buffered
• severity–level—(Optional) The number or name of the desired severity
level. Range:
– [0 | emergencies]
– [1 | alerts]
– [2 | critical]
– [3 | errors]
– [4 | warnings]
– [5 | notifications]
– [6 | informational]
– [7 | debugging]
Default Configuration
The default value for level is informational.
Command Mode
Global Configuration mode
User Guidelines
All the syslog messages are logged to the internal buffer. This command limits
the commands displayed to the user. Debug level messages are intended for
use by support personnel. The output is voluminous, cryptic, and because of
the large number of messages generated, can adversely affect switch
operations. Only set the logging level to debug under the direction of support
personnel.
Example
The following example limits syslog messages collected in the internal buffer
to those of severity level “error” and above (numerically lower).
console(config)#logging buffered error
Switch Management Commands 2142
logging console
Use the logging console command in Global Configuration mode to limit
messages logged to the console based on severity. To disable logging to the
console terminal, use the no form of this command.
Syntax
logging console [severity–level]
no logging console
• severity–level—(Optional) The number or name of the desired severity
level. Range:
– [0 | emergencies]
– [1 | alerts]
– [2 | critical]
– [3 | errors]
– [4 | warnings]
– [5 | notifications]
– [6 | informational]
– [7 | debugging]
Default Configuration
The default console logging severity is emergencies.
Command Mode
Global Configuration mode
User Guidelines
Messages at the selected level and above (numerically lower) are displayed on
the console. Debug level messages are intended for use by support personnel.
The output is voluminous, cryptic, and because of the large number of
messages generated, can adversely affect switch operations. Only set the
logging level to debug under the direction of support personnel.
Switch Management Commands 2143
Example
The following example limits messages logged to the console based on
severity level “alert”.
console(config)#logging console alert
logging facility
Use the logging facility command in Global Configuration mode to
configure the facility to be used in log messages.
Syntax
logging facility facility
no logging facility
• facility—The facility that will be indicated in the message. (Range:
local0, local1, local2, local3, local4, local5, local6, local7).
Default Configuration
The default logging facility is local7.
Command Mode
Global Configuration mode
User Guidelines
This command has no user guidelines.
Example
The following example sets the logging facility as local3.
console(config)#logging facility local3
logging file
Use the logging file command in Global Configuration mode to limit
SYSLOG messages sent to the logging file based on severity. To set the
default logging level, use the no form of this command.
Switch Management Commands 2144
Syntax
logging file [severity–level-number | type]
no logging file
• severity–level—(Optional) The number or name of the desired severity
level. Range:
– [0 | emergencies]
– [1 | alerts]
– [2 | critical]
– [3 | errors]
– [4 | warnings]
– [5 | notifications]
– [6 | informational]
– [7 | debugging]
Default Configuration
The default severity level is emergencies.
Command Mode
Global Configuration mode
User Guidelines
Debug level messages are intended for use by support personnel. The output
is voluminous, cryptic, and because of the large number of messages
generated, can adversely affect switch operations. Only set the logging level to
debug under the direction of support personnel.
Example
The following example limits SYSLOG messages stored in the logging file to
severity level “warning” and above (numerically lower).
console(config)#logging file warning
Switch Management Commands 2145
logging monitor
Use the logging monitor command in Global Configuration mode to enable
logging messages to telnet and SSH sessions with the default severity level.
Use the no logging monitor command to disable logging messages.
Syntax
logging monitor severity
no logging monitor
• severity—(Optional) The number or name of the desired severity level.
Range:
– [0 | emergencies]
– [1 | alerts]
– [2 | critical]
– [3 | errors]
– [4 | warnings]
– [5 | notifications]
– [6 | informational]
– [7 | debugging]
Default Configuration
The default logging monitor severity level is warnings. By default, logging
messages are not displayed on SSH or telnet sessions (no logging monitor
warnings). Logging messages are displayed by default on console sessions
(serial and out-of-band ports).
Command Mode
Global Configuration mode
User Guidelines
Messages logged to the console are filtered based on severity. Selecting a
severity level will log that severity and higher (numerically lower) level
messages.
Switch Management Commands 2146
logging on
Use the logging on command in Global Configuration mode to control error
messages logging. This command globally enables the sending of logging
messages to the currently configured locations. To disable the sending of log
messages, use the no form of this command.
Syntax
logging on
no logging on
Default Configuration
Logging is enabled.
Command Mode
Global Configuration mode
User Guidelines
The logging process controls the distribution of logging messages to the
various destinations, such as the logging buffer, logging file, or syslog server.
Logging on and off for these destinations can be individually configured using
the logging buffered, logging file, and logging
server
global configuration
commands. However, if the logging on command is disabled, no messages are
sent to these destinations. In this case, only the console will continue to
receive logging messages.
Example
The following example shows how logging is enabled.
console(config)#logging on
logging protocol
Use this command to log messages in RFC5424 format, including time zone
and subsecond resolution time stamps. Use the no form of this command to
set the logging to the default format.
Switch Management Commands 2147
Syntax
logging protocol {protocol-selector}
no logging protocol
• protocol-selector—One of the following:
– 0 – Generate RFC3164 format messages
– 1 – Generate RFC5424 format messages
Default Configuration
Messages are logged in RFC3164 format by default (logging protocol 0).
Command Modes
Global Configuration mode.
User Guidelines
During system startup, messages are logged in RFC3164 format (e.g., in the
startup persistent log). Messages are logged in the selected format upon the
system processing the startup configuration.
The time zone must be configured for the system to generate RFC5424 log
messages with the time zone included.
Example
This example set the logging message format to RFC5424. DTLS is used for
X509 configured SYSLOG servers if a certificate is available.
console(config)#logging protocol 1
This example sets the logging message format to RFC3164
console(config)#no logging protocol
The following example shows the logging format when logging protocol is set
to 0.
console(config)#logging protocol 0
console(config)#
<190> DEC 20 20:45:20 10.130.182.151-1 USER_MGR[249300304]: user_mgr.c(1789)
5 %% User abcd Failed to login because of authentication failures
<189> DEC 20 20:45:20 10.130.182.151-1 TRAPMGR[249300304]: traputil.c(657) 6
%% Failed User Login with User ID: abcd
Switch Management Commands 2148
The following example shows the logging format when logging protocol is set
to 1.
console(config)#logging protocol 1
console(config)#
<190>1 DEC 20 20:46:20.250 10.130.182.151-1 USER_MGR[249300304]:
user_mgr.c(1789) 9 %% User xyz Failed to login because of authentication
failures
<189>1 DEC 20 20:46:20.250 10.130.182.151-1 TRAPMGR[249300304]:
traputil.c(657) 10 %% Failed User Login with User ID: xyz
The following example shows the logging format when logging protocol is set
to 1 with timezone configured on the switch.
console(config)#clock timezone +5 minutes 30 zone IST
console(config)#show clock
02:17:44 IST(UTC+5:30) Dec 21 2014
Time source is Local
console(config)#
<190>1 DEC 21 02:18:15.110+5:30 10.130.182.151-1 USER_MGR[249300304]:
user_mgr.c(1789) 13 %% User xyzt Failed to login because of authentication
failures
<189>1 DEC 21 02:18:15.110+5:30 10.130.182.151-1 TRAPMGR[249300304]:
traputil.c(657) 14 %% Failed User Login with User ID: xyzt
logging snmp
Use the logging snmp command in Global Configuration mode to enable
SNMP Set command logging. To disable, use the no form of this command.
Syntax
logging snmp
no logging snmp
Default Configuration
By default, logging snmp is disabled.
Switch Management Commands 2149
Command Mode
Global Configuration mode
User Guidelines
To see SNMP Set command logs use the
show logging
command.
Example
console(config)#logging snmp
logging source-interface
Use the logging source-interface command to select the interface from which
to use the IP address in the source IP address field of transmitted SYSLOG
packets. Use the no form of the command to revert to the default IP address.
Syntax
logging source-interface {loopback loopback-id} | {tunnel tunnel-id} |
{vlan vlan-id} | {out-of-band }
no logging source-interface
• loopback-id — The name of a loopback interface.
• tunnel-id — The name of a tunnel-id.
• vlan-id —A VLAN identifier.
• out-of-band —The out-of-band interface identifier.
Default Configuration
By default, the switch uses the assigned switch IP address. This is either the
IP address assigned to VLAN or the out-of-band interface IP address.
Command Mode
Global Configuration
Switch Management Commands 2150
User Guidelines
This command is not supported on Dell EMC N1100-ON switches. Dell
EMC N1100-ON switches support configuration of a single IP address in
interface vlan configuration mode. That IP address is used as the source
interface address for this function..
Command History
Introduced in version 6.3.0.1 firmware.
Example
console#conf
console(config)#interface vlan 1
console(config-if-vlan1)#ip address dhcp
console(config-if-vlan1)#exit
console(config)#logging source-interface vlan 1
logging traps
Use the logging traps command in Global Configuration mode to set the
lowest severity level at which SNMP traps are logged. To revert the urgent
severity level to its default value, use the no form of this command.
Syntax
logging traps severity
no logging traps
• severity—If you specify a severity level, log messages at or above the
severity level are e-mailed. The severity level may either be specified by
keyword or as an integer from 0 to 7. The accepted keywords, and the
numeric severity level each represents, are as follows.
– emergency (0)
– alert (1)
– critical (2)
– error (3)
– warning (4)
– notice (5)
Switch Management Commands 2151
– info (6)
– debug (7)
Default Configuration
The default severity level is info(6).
Command Mode
Global Configuration mode
User Guidelines
You can filter log messages that appear in the buffered log by severity level.
You can specify the severity level of log messages that are e-mailed. You can
use this command to specify the severity level at which SNMP traps are
logged, and thus control whether traps appear in the buffered log or are e-
mailed and, if they are e-mailed, whether traps are considered urgent or non-
urgent.
logging web-session
Use the logging web-session command in Global Configuration mode to
enable web session logging. To disable, use the no form of this command.
Syntax
logging web-session
no logging web-session
Default Configuration
Disabled.
Command Mode
Global Configuration mode
User Guidelines
To see web session logs use the
show logging
command.
Switch Management Commands 2152
Example
console(config)#logging web-session
<133> MAR 24 07:46:07 10.131.7.165-2 UNKN[83102768]: cmd_logger_api.c(140)
764 %% WEB:10.131.7.67:<<UNKNOWN>>:EwaSessionLookup : session[0] created
<133> MAR 24 07:46:07 10.131.7.165-2 UNKN[83102768]: cmd_logger_api.c(140)
765 %% WEB:10.131.7.67:admin:User admin logged in
port
Use the port command in Logging mode to specify the port number of a
SYSLOG server to which SYSLOG messages are sent. To reset to the default
value, use the no form of the command.
Syntax
port port
no port
• port—The port number to which SYSLOG messages are sent. (Range:
1-65535)
Default Configuration
The default port number for UDP messages is 514. When DTLS is
configured (logging protocol 1), the default port number is 6514.
Command Mode
SYSLOG server configuration mode
User Guidelines
After entering the view corresponding to a specific SYSLOG server, the
command can be executed to set the port number for the server.
If the port value is changed for a server, the configuration does not take effect
until the server is disconnected and reconnected.
Example
The following example sets the SYSLOG server port to 300.
console(config-logging)#port 300
Switch Management Commands 2153
show logging
Use the show logging command to display all logging information, including
auditing status and logging protocol version. Protocol version 1 means that
the messages are logged with the time zone and time resolution up to
milliseconds.
Syntax
show logging
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
This command has no user guidelines.
Example
The following example displays the state of logging and the SYSLOG
messages stored in the internal buffer.
console#show logging
Logging is enabled
Logging protocol version: 1
Console Logging: Level warnings. Messages : 1 logged, 706 ignored
Monitor Logging: disabled
Buffer Logging: Level informational. Messages : 73 logged, 634 ignored
File Logging: Level emergencies. Messages : 0 logged, 707 ignored
Switch Auditing : enabled
CLI Command Logging: disabled
Web Session Logging : disabled
SNMP Set Command Logging : disabled
Logging facility level : local7
Logging source interface: Vl17
Switch Management Commands 2154
show logging file
Use the show logging file command to display the state of logging and the
messages stored in the logging file.
Syntax
show logging file
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
This command has no user guidelines.
Example
The following example displays the state of logging messages sorted in the
logging file.
console#show logging file
Persistent Logging : enabled
Persistent Log Count : 1
<186> JAN 01 00:00:05 0.0.0.0-1 UNKN[268434928]: bootos.c(382) 3 %%
Event(0xaaaaaaaa)
show syslog-servers
Use the show syslog-servers command to display the SYSLOG servers
settings.
Syntax
show syslog-servers
Switch Management Commands 2155
Default Configuration
When enabling x509 authentication, a default (non-indexed) certificate pair
is used if present and no index was selected for the server.
Anonymous authentication does not use a certificate.
The default SYSLOG server port number is 514. When DTLS is configured
(logging protocol 1), the default port number is 6514.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
This command has no user guidelines.
Example
The following example displays the SYSLOG server settings.
console#show syslog-servers
IP address Port Severity Description
----------------------------------------------
192.180.2.275 14 Info 7
192.180.2.285 14 Warning 7
Transport Type Authentication Certificate Index
-------------- ----------------- -------------------
UDP
TLS X509 5
TLS Anonymous
terminal monitor
Use the terminal monitor command to enable the display of system messages
on the terminal for telnet and SSH sessions.
Syntax
terminal monitor
no terminal monitor
Switch Management Commands 2156
Default Configuration
The default setting is that system messages are not displayed on telnet or
SSH sessions. System messages are always displayed on console sessions
(serial or out-of-band port connections).
Command Mode
Privileged Exec mode
User Guidelines
Use the terminal monitor command enables system messages to be displayed
in a Telnet or SSH session.
Use the no terminal monitor command to disable the display of system
messages on the terminal for Telnet and SSH sessions. Use the
logging
monitor
command to display logging messages in a Telnet or SSH session.
Terminal monitor and logging monitor are enabled on console sessions by
default.
Example
This example enables the display of system messages and logging messages on
the current telnet session.
console#terminal monitor
console#configure
console(cinsfig)#logging monitor
Switch Management Commands 2157
System and Stack Management
Commands
This section explains the following commands:
asset-tag logout show idprom
interface
show system
banner exec member show interfaces show system fan
banner login memory free low-
watermark
show interfaces
advanced firmware
show system id
banner motd nsf show interfaces
utilization
show system power
banner motd
acknowledge
ping show memory cpu show system
temperature
buffers process cpu
threshold
show nsf show tech-support
clear checkpoint
statistics
quit show power-usage-
history
show users
clear counters
stack-ports
reload show process app-
list
show version
connect service
unsupported-
transceiver
show process app-
resource-list
stack
cut-through mode set description show process cpu stack-port
disconnect slot show process proc-
list
stack-port shutdown
exit show banner show sessions standby
hardware profile
portmode
show buffers show slot switch renumber
load-interval show checkpoint
statistics
show supported
cardtype
telnet
locate show cut-through
mode
show supported
switchtype
traceroute
Switch Management Commands 2158
asset-tag
Use the asset-tag command in Global Configuration mode to specify the
switch asset tag. To remove the existing asset tag, use the no form of the
command.
Syntax
asset-tag [unit] tag
no asset-tag [unit]
• unit — Switch number. (Range: 1–12)
• tag — The switch asset tag.
Default Configuration
No asset tag is defined by default.
Command Mode
Global Configuration mode
User Guidelines
The asset-tag command accepts any printable characters for a tag name
except a question mark. Enclose the string in double quotes to include spaces
within the name. The surrounding quotes are not used as part of the name.
The CLI does not filter illegal characters and may accept entries up to the
first illegal character or reject the entry entirely.
Example
The following example specifies the switch asset tag as 1qwepot. Because the
unit parameter is not specified, the command defaults to the master switch
number.
console(config)# asset-tag 1qwepot
–
show hardware
profile
show switch update bootcode
Switch Management Commands 2159
banner exec
Use the banner exec command to set the message that is displayed after a
successful login. Use the no form of the command to remove the set message.
Syntax
banner exec
MESSAGE
no banner exec
• MESSAGE — Quoted text
Default Configuration
This command has no default configuration.
Command Mode
Global Configuration
User Guidelines
The exec message may consist of multiple lines. Enter a quote to complete
the message and return to configuration mode. Up to 2000 characters may be
entered into a banner. Each line entered will consume an extra two characters
to account for the carriage return and line feed.
Example
console(config)# banner exec “banner text”
banner login
Use the banner login command to set the message that is displayed just
before the login prompt after a user has successfully connected to the switch
and prior to the login banner. Use no banner login command to remove the
message.
Syntax
banner login
Message
no banner login
• Message — Quoted text
Switch Management Commands 2160
Default Configuration
This command has no default configuration.
Command Mode
Global Configuration
User Guidelines
The login banner can consist of multiple lines. Enter a quote to end the
banner text and return to the configuration prompt. Up to 2000 characters
may be entered into a banner. Each line entered will consume an extra two
characters to account for the carriage return and line feed. Different terminal
emulators will exhibit different behaviors when logging in over SSH. See the
user guidelines for
banner motd acknowledge
for some examples.
Example
console(config)# banner login “banner text”
banner motd
Use the banner motd command to set the message that is displayed prior to
logging into the switch. Use no banner motd command to remove the
message.
Syntax
banner motd
MESSAGE
no banner motd
• MESSAGE — Quoted text
Default Configuration
This command has no default configuration.
Command Mode
Global Configuration
Switch Management Commands 2161
User Guidelines
The motd banner can consist of multiple lines. Enter a quote to end the
banner text and return to the configuration prompt. Up to 2000 characters
may be entered into a banner. Each line entered will consume an extra two
characters to account for the carriage return and line feed.
The motd banner is usually displayed prior to logging into the switch,
although some protocols, for example SSH, may enforce different behavior.
See the user guidelines for
banner motd acknowledge
for some examples.
Example
console(config)# banner motd “IMPORTANT: There is a power shutdown at
23:00hrs today, duration 1 hr 30 minutes.”
When the MOTD banner is executed, the following displays:
IMPORTANT: There is a power shutdown at 23:00hrs today, duration 1 hr 30
minutes.
banner motd acknowledge
The banner displayed on the console must be acknowledged if banner motd
acknowledge is executed. Enter “y” or “n” to continue to the login prompt. If
“n” is entered, the session is terminated and no further communication is
allowed on that session. However, serial connection will not get terminated if
‘y’ is not entered. Use the no banner motd acknowledge command to disable
banner acknowledge.
Syntax
banner motd acknowledge
no banner motd acknowledge
Default Configuration
This command has no default configuration.
Command Mode
Global Configuration mode
Switch Management Commands 2162
User Guidelines
Various terminal emulators exhibit different behaviors with regards to the
MOTD and the acknowledge prompt, for example, TeraTerm and putty.
There are also different behaviors based upon the protocol used (SSH versus
telnet). See below for some examples where the MOTD prompt occurs either
before or after the acknowledge prompt. The banner motd in this example is
“If you need to utilize this device or otherwise make changes
to the configuration, you may contact Kevin at x911. Please
be advised this unit is under test by Kevin.” and the banner
login is “Welcome to the N3024 in the Bottom Chassis -
192.168.12.190. This unit is located in A2 and is currently
under test.”
SSH (putty):
login as: dellradius
If you need to utilize this device or otherwise make changes to the
configuration, you may contact Kevin at x911.
Please, be advised this unit is under test by Kevin.
dellradius@192.168.12.84's password:
Press 'y' to continue (within 30 seconds) (y/n)
Welcome to the N3024 in the Bottom Chassis - 192.168.12.190. This unit is
located in A2 and is currently under test.
N3024-C1>
SSH (Linux Terminal):
[root@kevin ~]# ssh 192.168.12.84 -l dellradius
If you need to utilize this device or otherwise make changes to the
configuration, you may contact Kevin at x911.
Please, be advised this unit is under test by Kevin.
dellradius@192.168.12.84's password:
Press 'y' to continue (within 30 seconds) (y/n)
Welcome to the N3024 in the Bottom Chassis - 192.168.12.190. This unit is
located in A2 and is currently under test.
N3024-C1>
SSH (xterm):
Switch Management Commands 2163
[root@kevin ~]# ssh 192.168.12.84 -l dellradius
If you need to utilize this device or otherwise make changes to the
configuration, you may contact Kevin at x911.
Please, be advised this unit is under test by Kevin.
dellradius@192.168.12.84's password:
Press 'y' to continue (within 30 seconds) (y/n)
Welcome to the N3024 in the Bottom Chassis - 192.168.12.190. This unit is
located in A2 and is currently under test.
N3024-C1>
Telnet:
If you need to utilize this device or otherwise make changes to the
configuration, you may contact Kevin at x911.
Press 'y' to continue (within 30 seconds) (y/n) y
Please, be advised this unit is under test by Kevin.
User:root
Password:******
Welcome to the N3024 in the Bottom Chassis - 192.168.12.190. This unit is
located in A2 and is currently under test.
N3024-C1>
Example
console(config)# banner motd “There is a power shutdown at 23:00hrs today,
duration 1 hr 30 minutes.”
console(config)# banner motd acknowledge
When the MOTD banner is executed, the following displays:
IMPORTANT: There is a power shutdown at 23:00hrs today, duration 1 hr 30
minutes.
Press ‘y’ to continue
If ‘y’ is entered, the following displays:
console >
If ‘n’ is entered, the session will get disconnected, unless it is a serial
connection.
buffers
Use the buffers command to configure the rising and falling thresholds for
the issuance of the message buffer SNMP trap and notification via a
SYSLOG message.
Switch Management Commands 2164
Syntax
buffers {rising-threshold rising-threshold-val | falling-threshold falling-
threshold-val | severity severity-level}
no buffers {rising-threshold | falling-threshold | severity }
• rising-threshold-val—The rising message buffer threshold over which a
trap will be issued. This is a percentage of messages buffers utilized and
ranges from 0 to 100.
• falling-threshold-val—The falling threshold value. Once the rising
threshold has been crossed, another trap will not be issued until the
message buffer has dropped below the falling threshold. This is a
percentage of messages buffers utilized and ranges from 0 to 100.
• severity-level—The severity level of the trap issued by SNMP. Range is 0
(EMERGENCY) to 7 (DEBUG).
Default Configuration
The default rising-threshold-val is 80%.
The default falling-threshold-val is 50%
The default severity level is NOTICE.
Command Mode
Global Configuration
User Guidelines
Message buffers are used internally by the switch firmware to pass network
PDUs. This includes PDUs such as spanning tree BPDUs or multicast or
unicast packets forwarded in software. On rare occasions, a packet storm may
cause the switch to become congested due to an excessive number of
messages forwarded to the switch CPU. The switch has numerous rate
limiters and other mechanisms to appropriately handle such packet floods,
however, due to the changing nature of Internet traffic, new types of traffic
may cause temporary internal congestion conditions. This command allows
the operator to enable the issuance of a trap in such a condition as an aid to
early diagnosis and mitigation of the conditions causing traffic to flood the
switch CPU.
Setting the rising threshold to 0 disables message buffer monitoring.
Switch Management Commands 2165
The falling-threshold-val should be configured to be less than or equal to the
rising-threshold-val.
Command History
Introduced in version 6.2.0.1 firmware.
Example
console(config)#buffers rising-threshold 90
clear checkpoint statistics
Use the clear checkpoint statistics command to clear the statistics for the
checkpointing process.
Syntax
clear checkpoint statistics
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode
User Guidelines
When nonstop forwarding is enabled on a stack, the stack's management unit
checkpoints operational data to the backup unit. If the backup unit takes over
as the management unit, the control plane on the new management unit uses
the checkpoint data when initializing its state. Checkpoint statistics track the
amount of data checkpointed from the management unit to the backup unit.
Example
console#clear checkpoint statistics
clear counters stack-ports
Use the clear counters stack-ports command to clear the statistics for all
stack-ports.
Switch Management Commands 2166
Syntax
clear counters stack-ports
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode
User Guidelines
This command resets all statistics shown by the show switch stack-ports
counters and the show switch stack-ports diag commands.
Example
console#clear counters stack-ports
connect
Use this command to connect the serial console of a different stack member
to the local unit. The connect command allows administrations that deploy
terminal servers to connect a single serial line to any stack member for
administration of the stack via the console. The network administrator can
use the connect command to access the master unit console session when
presented with a “CLI unavailable message” due to a master switchover.
Syntax
connect unit
• unit—A unit number in the stack.
Default Configuration
There is no default configuration for this command.
Command Modes
Privileged Exec mode on stack master.
Unit Prompt on stack member.
Switch Management Commands 2167
User Guidelines
This command is available from the Unit prompt on a member unit serial
port. The user need not be currently connected over the serial port to connect
to another unit.
The stack member being connected to must be up and running and
connected as part of the stack. This command connects the the serial console
from the target stack member to the local unit. There is only one console
session allowed per stack. The remote console session is not restarted and the
privilege level is not changed as a result of being connected to the local unit.
All security mechanisms applicable to the serial port remain in place.
Example
Example 1:
To connect to a remote stack member from master.
Stack-Master#connect 2
Remote session started. Type "exit" to exit the session.
(Unit 2 - CLI unavailable - please connect to master on Unit 1)>
Example 2:
To connect to the stack master (unit 1, below) over a stack member serial
port.
(Unit 2 - CLI unavailable - please connect to master on Unit 1)>connect 1
Stack-Master#
cut-through mode
Use the cut-through mode command to enable the cut-through mode on the
switch. The mode takes effect on all ports on next reload of the switch. To
disable the cut-through mode on the switch, use the no form of this
command.
Syntax
cut-through mode
Switch Management Commands 2168
no cut-through mode
Default Configuration
This command has no default configuration.
Command Mode
Global Configuration
User Guidelines
Cut-through mode is only supported on Dell EMC Networking N4000 series
switches. It is not supported on Dell EMC Networking N1100-
ON/N1500/N2000/N2100-ON/N3000/N3100-ON Series switches.
Example
console(config)#cut-through mode
The mode (enable) is effective from the next reload of Switch/Stack.
disconnect
Use the disconnect command to detach a UI session.
Syntax
disconnect { session-id | all }
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode.
User Guidelines
This command forcibly logs out and disconnects a Telnet, SSH, HTTP or
HTTPs session. Use the show sessions command to display the session
identifier.
The session identifier ranges from 0-42. The all parameter disconnects all
telnet, SSH, HTTP or HTTPs sessions.
Switch Management Commands 2169
It is not possible to disconnect the EIA-232 (serial console) session.
exit
Use this command to disconnect the serial connection to a remote unit.
Syntax
exit
Default Configuration
There is no default configuration for this command.
Command Modes
User Exec mode on stack master.
Unit prompt on the stack member.
User Guidelines
This command is available in User Exec mode on the master unit serial port
and from the Unit prompt on member unit serial ports. The user need not be
currently connected over the serial port to connect to another unit.
The stack member being connected to must be up and running and
connected as part of the stack.
Example
Example 1:
To disconnect a remote session to a stack member established from the stack
manager.
Stack-Master#connect 2
Remote session started. Type “exit” to exit the session.
(Unit 2 - CLI unavailable - please connect to master on Unit 1)>exit
Stack-Master#
Example 2:
Switch Management Commands 2170
To disconnect a remote session to the stack master established from a stack
member.
(Unit 2 - CLI unavailable - please connect to master on Unit 1)>connect 2
(Unit 2 - CLI unavailable - please connect to master on Unit 1)>
(Unit 2 - CLI unavailable - please connect to master on Unit 1)>connect 1
Stack-Master#
Stack-Master#exit
Stack-Master>exit
(Unit 2 - CLI unavailable - please connect to master on Unit 1)>
hardware profile portmode
Use the hardware profile portmode command in Interface Configuration
mode to configure a 40G port in 4x10G mode or 1x40G mode.
Use the no form of the command to return the port to the default mode
(1x40G).
Syntax
hardware profile portmode {1x40g|4x10g}
no hardware profile portmode
• 1x40g—Configure the port as a single 40G port using 4 lanes.
• 4x10g—Configure the port as four 10G ports, each on a separate lane.
This mode requires the use of a suitable 4x10G to 1x40g pigtail cable.
Default Configuration
By default, 40G ports are configured in 1x40G mode.
Command Mode
Interface Configuration mode
User Guidelines
This command is only available on the N4000 series switches. This command
can only be executed on the 40G interface. Entering this command on any of
the 4x10G interfaces (or any other 10G port) will give an error.
Switch Management Commands 2171
This command takes effect only after rebooting the switch.
hostname
Use the hostname command in Global Configuration mode to specify or
modify the switch host name. To restore the default host name, use the no
form of the command.
Syntax
hostname name
no hostname
• name — The name of the host. (Range: 1–255 characters) The
command allows spaces in the host name when specified in double
quotes. For example, #snmp-server v3-host “host name”.
Default Configuration
No host name is configured.
Command Mode
Global Configuration mode
User Guidelines
The hostname, if configured, is advertised in the LLDP system-name TLV.
The hostname may include any printable characters except a question mark.
Enclose the string in double quotes to include spaces within the name. The
surrounding quotes are not used as part of the name. The CLI does not filter
illegal characters and may truncate entries at the first illegal character or
reject the entry entirely.
Example
The following example specifies the switch host name.
console(config)# hostname Dell
Switch Management Commands 2172
initiate failover
To manually force a failover from the management unit to the backup unit in
a stack, use the initiate failover command in Stack Configuration mode.
The initiate failover command checks for stack port errors and NSF
synchronization prior to initiating failover. If stack port errors are found, or if
the NSF status is not synchronized, a message is displayed and the user is
prompted to continue or abort the operation (see example, below).
Syntax
initiate failover
Default Configuration
There is no default configuration.
Command Mode
Stack Configuration mode
User Guidelines
This command forces a warm restart of the stack. The backup unit takes over
as the new management unit without clearing the hardware state on any of
the stack members. The original management unit reboots. If the system is
not ready for a warm restart, for example because no backup unit has been
elected or one or more members of the stack do not support nonstop
forwarding, the command fails with a warning message. Use the standby
command to select a specific unit to act as the backup unit. Use the show nsf
command to check the NSF state. If the switch shows Warm Restart Ready as
Yes, then the master switch state is synchronized with the standby switch.
Examples
Example-No Stack Port Errors
console(config-stack)#initiate failover ?
<cr> Press enter to execute the command.
console(config-stack)#initiate failover
Management unit will be reloaded.
Are you sure you want to failover to the backup unit? (y/n) y
Switch Management Commands 2173
Example-Stack Port Errors
console(config-stack)#initiate failover
Warning! Stack errors detected on the following interfaces:
Interface Error Count
---------------- ----------------
Gi1/0/1 12
Gi1/0/3 22
NSF Status: Not synchronized
Stack port errors or lack of NSF synchronization may indicate a non-redundant
stack topology exists. Fail-over on a non-redundant topology may cause the
stack to split!
Management unit will be reloaded.
Are you sure you want to failover to the backup unit? (y/n)
load-interval
Use this command to load the interface utilization measurement interval.
Use the no form of this command to reset the duration to the factory default
value.
Syntax
load-interval time
no load-interval
• time—The number of seconds after which interface utilization is
measured periodically. The time has to be a multiple of 30. (Range 30-
600 seconds)
Default Configuration
The default interval is 300 seconds.
Command Modes
Interface Configuration mode, Interface Range Configuration mode, Port
Channel Configuration mode, Port Channel Range Configuration mode.
Switch Management Commands 2174
User Guidelines
This command has no user guidelines.
Example
console(config-if-Gi1/0/1)#load-interval 150
locate
Use the locate command to locate a switch by LED blinking.
Syntax
locate [switch
unit
] [time
time
]
• switch unit—If multiple devices are stacked, you can choose which
switch to identify.
•time time —LED blinking duration in seconds. Range 1-3600 seconds.
Default Configuration
Default value is 20 seconds.
Command Mode
Privileged Exec
User Guidelines
When this command is executed on N1100-ON/N1500/N2000/N2100-
ON/N3000/N3100-ON switches, the front panel power supply 1 LED blinks.
On N4000 switches, the back panel green Locator LED blinks.
The LED blinks until it times out. The user may select a new time value
while the LED is blinking. The last value selected takes effect immediately.
The locate command does not persist across reboots.
Example
console# locate switch 1 time 555
Switch Management Commands 2175
logout
Use this command to disconnect the serial connection to the remote unit on
the stack member.
Syntax
logout
Default Configuration
There is no default configuration for this command.
Command Modes
User Exec mode on the stack master. Unit prompt on the stack member.
User Guidelines
This command is available in User Exec mode on the master unit serial port
and from the Unit prompt on member unit serial ports. The user need not be
currently connected over the serial port to connect to another unit.
The stack member being connected to must be up and running and
connected as part of the stack.
This command is an alias for the
exit
command.
Example
(Example 1:
To disconnect a remote session to stack master established from a stack
member.
Unit 2 - CLI unavailable - please connect to master on Unit 1)>connect 1
Stack-Master#
Stack-Master#logout
(Unit 2 - CLI unavailable - please connect to master on Unit 1)>
Example 2:
To disconnect a remote session to stack master established from a stack
member.
(Unit 2 - CLI unavailable - please connect to master on Unit 1)>connect 1
Stack-Master#exit
Stack-Master>logout
Switch Management Commands 2176
(Unit 2 - CLI unavailable - please connect to master on Unit 1)>
member
Use the member command in Stack Configuration mode to preconfigure a
switch stack member. Execute this command on the Management Switch. To
remove a stack-member configuration from the stack, use the no form of the
command.
The no form of the command may not be used if the member is present in the stack.
Syntax
member unit switchindex
no member unit
• unit — The switch identifier of the switch to be added or removed from
the stack. (Range: 1–12)
• switchindex — The index into the database of the supported switch
types, indicating the type of the switch being preconfigured. The switch
index is obtained from the
show supported switchtype
command.
Default configuration
This command has no defaults.
Command Mode
Stack Configuration
User Guidelines
The switch index (SID) can be obtained by executing the
show supported
switchtype
command in User Exec mode. When removing a unit from a
stack, use the no member command to remove the stack member
configuration after physically removing the unit.
Example
The following example displays how to add to stack switch number 2 with
index 1.
console(config)# stack
console(config-stack)# member 2 1
Switch Management Commands 2177
memory free low-watermark
Use the memory free low-watermark command to configure the notification
of a low memory condition on the switch. for the issuance of the CPU
overload SNMP trap and notification via a SYSLOG message. Use the no
form of the command to return the threshold to its default value.
Syntax
memory free low-watermark processor [kb]
no memory free low-watermark processor
•kb—The amount of free memory (in Kilobytes) below which a trap is
issued and a message is logged.
Default Configuration
The default low memory notification is 0 MB.
The SYSLOG notification message is issued with severity NOTICE.
Command Mode
Global Configuration
User Guidelines
Use the show memory cpu command to display the allocated and free
memory.
Setting the threshold to 0 disables low memory notifications.
The traps and SYSLOG messages are suppressed if they occur more
frequently than once a minute.
Command History
Introduced in version 6.2.0.1 firmware.
Example
This example sets the notification for low memory at 1 megabyte. A notice
message and trap will be issued if free memory falls below 1M and another
notice message and trap will be issued when free memory rises above 1M.
console(config)#memory free low-watermark processor 1000
Switch Management Commands 2178
nsf
Use this command to enable non-stop forwarding. The no form of the
command will disable NSF.
Syntax
nsf
no nsf
Default Configuration
Non-stop forwarding is enabled by default.
Command Mode
Stack Configuration mode
User Guidelines
Nonstop forwarding allows the forwarding plane of stack units to continue to
forward packets while the control and management planes restart as a result
of a power failure, hardware failure, or software fault on the stack
management unit.
Example
console(config)#nsf
ping
Use the ping command to check the accessibility of the specified station on
the network.
Use of the optional VRF parameter executes the command within the
context of the VRF specific routing table.
Switch Management Commands 2179
Syntax
ping [vrf vrf-name] {[ ip ]ip-address | hostname | { ipv6 { interface
interface-id | vlan vlan-id | loopback loopback-id | out-of-band | tunnel
tunnel-id} link-local-address | ipv6-address | hostname} [count count] [
interval interval] [ size size] [source { ip-address | ipv6-address | interface-id
| vlan vlan-id | out-of-band}]
• ip-address—The IPv4 address to ping.
• ipv6-address—The IPv6 address to ping.
• link-local-address — The link local IPv6 address to ping.
• hostname—The domain name of the host to ping. (Range: 1–158
characters). When used with the IPv6 keyword, the hostname will be
resolved to an IPv6 address, otherwise, it will be resolved to an IPv4
address.
• vrf-name—(Optional) The name of the VRF instance from which to
ping. Only hosts reachable from within the VRF instance can be pinged.
If a source parameter is specified in conjunction with a VRF parameter,
it must be a member of the VRF. The ipv6 parameter cannot be used
with the vrf parameter.
• interface-id—The interface over which a link local IPv6 address may be
reached. Only available when used with the IPv6 keyword.
•repeat—The number of ping packets to send. (Range: 1–100 packets).
• interval—The time between Echo Requests, in seconds (Range: 1–60
seconds).
• size—Number of data bytes in a packet (Range: 0–13000 bytes).
•source ip-address—The ping packets are transmitted using the specified
source IP address.
•source loopback loopback-id—The ping packets are transmitted with
the source address of the loopback interface.
•source vlan vlan-id—The ping packets are transmitted over the VLAN
with the source address of the VLAN.
•source tunnel tunnel-id—The ping packets are transmitted with the
source address of the tunnel.
•out-of-band—The ping packets are transmitted over the out-of-band
interface.
Switch Management Commands 2180
Default Configuration
The default mode is IPv4. The command defaults to an IPv4 address.
The default ping count is 4.
The default interval is 1 second.
The default packet size is 0 data bytes.
The packet size is specified in bytes and refers to the packet payload, not the
frame size.
Packets are padded to extend the frame to the minimum legal frame length
by default.
Command Mode
User Exec mode, Privileged Exec mode
User Guidelines
If the ipv6 or ip parameter is specified, all the other arguments must match
(i.e., it is not possible to ping an IPv6 address from an IPv4 source and vice-
versa).
The ipv6 parameter must be specified if an IPv6 address is entered.
Otherwise, the command will interpret the IPv6 address as a hostname
parameter.
The switch can be pinged from a remote IPv4/IPv6 host with which the
switch is connected through the default VLAN (VLAN 1) or another VLAN, if
configured, as long as there is a physical path between the switch and the
host.
Use the optional interface keyword to ping an IPv6 link-local interface by
using the IPv6 link-local address or the global IPv6 address of the interface as
the destination address in the ICMP echo packet.
Use the source keyword to specify the source IPv6 address to use in the ping
packet and to specify the source interface on which to transmit the ICMP
packet. The source can be a loopback, tunnel, logical interface, or the out-of-
band interface.
Switch Management Commands 2181
If a host name is specified, a DNS server must be configured locally on the
switch and the host name must resolve to an IPv4/IPv6 address as appropriate
for the syntax entered. The command allows spaces in the host name when
specified in double quotes, even though host names may only consist of
letters, numbers and the hyphen character.
The VRF identified in the parameter must have been previously created or an
error is returned.
Only IPv4 addresses are supported with the vrf parameter.
The vrf parameter is only available on the N3000/N3100/N4000 switches.
Loopback interfaces are not supported on the N1100-ON Series switches.
Examples
The following example sends an IPv4 ICMP Echo request from VLAN 3 to
10.1.1.3
console#ping 10.1.1.3 source vlan 3
The following example determines whether the loopback interface is
reachable on the network at the IPv6 address specified.
console(config)#ping ipv6 interface loopback 1 FE80::202:BCFF:FE00:3068
Pinging fe80::21e:c9ff:fede:b137 with 0 bytes of data:
Reply From fe80::21e:c9ff:fede:b137: icmp_seq = 0. time <10 msec.
Reply From fe80::21e:c9ff:fede:b137: icmp_seq = 1. time <10 msec.
Reply From fe80::21e:c9ff:fede:b137: icmp_seq = 2. time <10 msec.
Reply From fe80::21e:c9ff:fede:b137: icmp_seq = 3. time <10 msec.
The following example determines whether another computer is reachable
over the network at the IPv6 address specified.
console#ping ipv6 2030:1::1
Pinging 2030:1::1 with 0 bytes of data:
Reply From 2030:1::1: icmp_seq = 0. time <10 msec.
Reply From 2030:1::1: icmp_seq = 1. time <10 msec.
Reply From 2030:1::1: icmp_seq = 2. time <10 msec.
Reply From 2030:1::1: icmp_seq = 3. time <10 msec.
Switch Management Commands 2182
process cpu threshold
Use the process cpu threshold command to configure the rising and falling
thresholds for the issuance of the CPU overload SNMP trap and notification
via a SYSLOG message. Use the no form of the command to return the
thresholds to their default values.
Syntax
process cpu threshold type total rising percentage interval seconds [ falling
percentage interval seconds ]
no process cpu threshold total type {rising | falling }
•rising percentage—The rising CPU percentage threshold over which a
trap will be issued and a message logged. This is a percentage of CPU
utilized over the period and ranges from 1 to 100.
•falling percentage—The falling threshold value under which a trap will
be issued and message logged. This is a percentage of CPU utilized and
ranges from 1 to 100.
•interval seconds—The number of seconds in the exponential weighted
moving average period (multiple of 5 seconds).
Default Configuration
• The default rising-threshold-val is 0%.
• The default falling-threshold-val is 0%
• The default interval is 0 seconds.
• The default severity level is NOTICE.
Command Modes
Global Configuration
User Guidelines
CPU utilization is calculated using Exponential Moving Weighted Average
(EMWA) over the total time period. The EMWA is calculated using the
following formula:
EMWA(current_period) = EMA(prev_period) + (currentUtilization –
EMA(prev_period)) * weight
Switch Management Commands 2183
where weight = 2 / ((TotalTimePeriod/samplePeriod) + 1). The sample
period is 5 seconds. The utilization monitoring time period can be configured
from 5 secs to 86400 seconds in multiples of 5 seconds.
Setting a threshold or interval to 0 disables that individual function.
The falling-threshold percentage should be configured to be less than or
equal to the rising-threshold percentage. The switch reports the task level
CPU utilization for the last 5 second, 1 minute and 5 minute periods. To aid
the operator in troubleshooting when the CPU utilization has crossed the
rising threshold, the show proc cpu command has been extended to show the
task/total CPU utilization for the rising threshold period also. If the
utilization thresholds are not configured, then the utilization for last 5 secs, 1
minute and 5 minutes is displayed as before. The CPU utilization for any
given period is displayed in only after the first average has been calculated
over the time period.
For instance, the 5 minute average is shown only after the switch has been up
for more than 5 minutes. Additionally, whenever a time-period is configured
for CPU utilization monitoring, the existing utilization data for the time-
period is cleared and average is built again over the time period. This is done
to prevent generation of notifications based on the old utilization data.
Command History
Introduced in version 6.2.0.1 firmware.
Example
console(config)#process cpu threshold type total rising 90 interval 100
quit
Use this command to disconnect the serial connection to the remote unit on
the stack member.
Syntax
quit
Default Configuration
There is no default configuration for this command.
Switch Management Commands 2184
Command Modes
User Exec mode on the stack master. Unit prompt on the stack member.
User Guidelines
This command is available in User Exec mode on the master unit serial port
and from the Unit prompt on member unit serial ports. The user need not be
currently connected over the serial port to connect to another unit.
The stack member being connected to must be up and running and
connected as part of the stack.
This command is an alias for the
exit
command.
Example
Example 1:
To disconnect a remote session to the stack master established from a stack
member.
(Unit 2 - CLI unavailable - please connect to master on Unit 1)>connect 1
Stack-Master#
Stack-Master#quit
(Unit 2 - CLI unavailable - please connect to master on Unit 1)>
Example 2:
To disconnect a remote session to the stack master established from stack
member.
(Unit 2 - CLI unavailable - please connect to master on Unit 1)>connect 1
Stack-Master#exit
Stack-Master>quit
(Unit 2 - CLI unavailable - please connect to master on Unit 1)>
reload
Use the reload command to reload stack members.
The reload command checks for stack port errors prior to reloading stack
members and after the check for unsaved configuration changes. If stack port
errors are found, a message is displayed.
Syntax
reload [stack–member–number]
Switch Management Commands 2185
• stack–member–number—The stack member to be reloaded.
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode
User Guidelines
If no unit is specified, all units are reloaded.
Examples
Example-Reloading the Stack
The following example displays how to reload the stack.
console#reload 1
Management switch has unsaved changes.
Would you like to save them now? (y/n)n
Configuration Not Saved!
Are you sure you want to reload the switch? (y/n) y
Reloading management switch 1.
Example-Stack Port Errors
The following example shows stack port errors detected by the command.
console#reload
Management switch has unsaved changes.
Are you sure you want to continue? (y/n)
Warning! Stack port errors detected on the following interfaces:
Interface Error Count
---------------- ----------------
Gi1/0/1 12
Gi1/0/3 22
Stack port errors may indicate a non-redundant stack topology exists. Fail-
over on a non-redundant topology may cause the stack to split!
Are you sure you want to reload the stack? (y/n)
Switch Management Commands 2186
service unsupported-transceiver
Use this command to avoid the following on using an unsupported optic.
• Logging of a message.
• Generation of SNMP trap.
Use the no form of this command to set the transceiver support to the factory
default.
Syntax
service unsupported-transceiver
no service unsupported-transceiver
Default Configuration
The default configuration is to log a message along with the SNMP trap
generation on insertion or removal of an optic that is not qualified by Dell.
Command Mode
Global Configuration mode
User Guidelines
The switch logs a message and generates a trap on inserting or removing an
optics not qualified by Dell. This command suppresses the above mentioned
behavior.
Example
The following example bypasses logging of a message and trap generation on
inserting or removing an optics not qualified by Dell.
console(config)# service unsupported-transceiver
set description
Use the set description command in Stack Configuration mode to associate a
text description with a switch in the stack.
Switch Management Commands 2187
Syntax
set description unit description
• unit — The switch identifier. (Range: 1–12)
• description — The text description. (Range: 1–80 alphanumeric
characters)
Default Configuration
This command has no default configuration.
Command Mode
Stack Configuration mode
User Guidelines
This command has no user guidelines.
Example
The following example displays
console(config)#stack
console(config-stack)#set description 1 “unit 1"
slot
Use the slot command to configure a slot in the system. The unit/slot is the
slot identifier of the slot located in the specified unit. The cardindex is the
index to the database of the supported card types (see the command
show
supported cardtype
) indicating the type of card being preconfigured in the
specified slot. The card index is a 32-bit integer. If a card is currently present
in the slot that is unconfigured, the configured information will be deleted
and the slot will be reconfigured with default information for the card. The
supported card types are:
• Dell EMC Networking N2024
• Dell EMC Networking N2024P
• Dell EMC Networking N2048
• Dell EMC Networking N2048P
• Dell EMC Networking N3024
Switch Management Commands 2188
• Dell EMC Networking N3024F
• Dell EMC Networking N3024P
• Dell EMC Networking N3048
• Dell EMC Networking N3048P
• Dell EMC Networking N4032
• Dell EMC Networking N4032F
• Dell EMC Networking N4064
• Dell EMC Networking N4064F
• Dell SFP+ Card
• Dell QSFP Card
• Dell 10GBase-T Card
Use the no form of the command to return the unit/slot configuration to the
default value.
Syntax
slot
unit/slot
cardindex
no slot unit/slot
• unit/slot — The slot identifier of the slot.
• cardindex — The index into the database of the supported card types
(see
show supported cardtype
) indicating the type of card being
preconfigured in the specified slot. The card index is a 32-bit integer.
Default Configuration
This command has no default configuration.
Command Mode
Global Configuration
User Guidelines
The card index (CID) can be obtained by executing the
show supported
cardtype
command.
Administrators may issue multiple consecutive slot commands addressing a
particular unit/slot without issuing an intervening no slot command.
Switch Management Commands 2189
Example
console(config)#slot 1/3 3
console(config)#slot 1/3 4
show banner
Use the show banner command to display banner information.
Syntax
show banner
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec, Global Configuration mode and all Configuration submodes
User Guidelines
This command has no user guidelines.
Example
console#show banner
Banner:Exec
Line Console...................... Enable
Line SSH.......................... Disable
Line Telnet....................... Enable
===exec=====
Banner:Login
Line Console...................... Enable
Line SSH.......................... Enable
Line Telnet....................... Disable
===login=====
Banner:MOTD
Line Console...................... Enable
Line SSH.......................... Enable
Line Telnet....................... Enable
===motd=====
Switch Management Commands 2190
show buffers
Use the show buffers command to display the system allocated buffers.
Syntax
show buffers
Default Configuration
There is no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
The internal message buffers are partitioned into one transmit group reserved
for system generated messages and five receive priority groups. The receive
priority groups are processed in strict priority order starting with the High
group and proceeding down through the Mid0, Mid1 and Mid2 groups down
to the Normal group. Small numbers of buffer failures in the low priority
groups (Norm, Mid2, Mid1) may occur without affecting system operation,
(for example, loss of an LLDP packet is not likely to cause any noticeable
system disruption).
Command History
Introduced in version 6.2.0.1 firmware.
Example
console#show buffers
Message Buffer Utilization
--------------------------
0 of 246 total buffers used
Receive Attempts Failures %Failure
-------------------------------------------------
Norm 0 0 0%
Mid2 0 0 0%
Switch Management Commands 2191
Mid1 0 0 0%
Mid0 0 0 0%
High 0 0 0%
Transmit Attempts Failures %Failure
-------------------------------------------------
All 145 0 0%
Monitoring Parameters
---------------------
Rising Threshold................................ 0%
Falling Threshold............................... 0%
Trap Severity................................. INFO
show checkpoint statistics
Use the show checkpoint statistics command to display the statistics for the
checkpointing process.
Syntax
show checkpoint statistics
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
When nonstop forwarding is enabled on a stack, the stack's management unit
checkpoints operational data to the backup unit. If the backup unit takes over
as the management unit, the control plane on the new management unit uses
the checkpointed data when initializing its state. Checkpoint statistics track
the amount of data checkpointed from the management unit to the backup
unit.
Example
console#show checkpoint statistics
Switch Management Commands 2192
Messages Checkpointed.....................6708
Bytes Checkpointed........................894305
Time Since Counters Cleared...............3d 01:05:09
Checkpoint Message Rate...................0.025 msg/sec
Last 10-second Message Rate...............0 msg/sec
Highest 10-second Message Rate............8 msg/sec
show cut-through mode
Use the show cut-through mode command to show the cut-through mode on
the switch.
Syntax
show cut-through mode
Command Mode
Privileged Exec, Global Configuration mode and all Configuration submodes
Default Configuration
This command has no default configuration.
User Guidelines
This command is not available on N1100-ON/N1500/N2000/N2100-
ON/N3000/N3100-ON switches.
Example
Console#show cut-through mode
Current mode : Enable
Configured mode : Disable (This mode is effective on next reload)
show hardware profile
Use the show hardware profile command to display the hardware profile
information for the 40G ports. The user can optionally specify an interface or
all 40G interfaces are displayed.
Switch Management Commands 2193
Syntax
show hardware profile portmode [interface-id]
Default Configuration
This command has no default setting.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
This command is not available on the N1100-ON/N1500/N2000/N2100-
ON/N3000/N3100-ON switches.
Examples
console#show hardware profile portmode
Configured Running
40G Interface 10G Interfaces Mode Mode
------------- -------------- ---------- -------
Fo1/0/1 Te1/0/25-28 1x40G 4x10G
Fo1/0/2 Te1/0/29-32 1x40G 1x40G
console#show hardware profile portmode fo1/0/1
Configured Running
40G Interface 10G Interfaces Mode Mode
------------- -------------- ---------- -------
Fo1/0/1 Te1/0/25-28 1x40G 4x10G
show idprom interface
Use this command to display the optics EEPROM contents in user-readable
format.
Syntax
show idprom interface interface-id
• interface-id—The physical interface.
Switch Management Commands 2194
Default Configuration
This command has no default configuration.
Command Modes
User Exec, Privileged Exec mode, Global Configuration mode and all
Configuration submodes
User Guidelines
This command has no user guidelines.
Example
The following example shows the optic parameters in user readable format.
console#show idprom interface tengigabitethernet 1/0/9
Type.............................. SFP+
Media............................. 10GBASE-LRM
Serial Number..................... ANF0L5J
Dell Qualified.................... Yes
The following example shows the optic parameters, but not the IDPROM
content as the entered activation code in incorrect.
console#show idprom interface tengigabitethernet 1/0/9 debug abc
Type.............................. SFP+
Media............................. 10GBASE-LRM
Serial Number..................... ANF0L5J
Dell Qualified.................... Yes
show interfaces
Use the show interfaces command to display the traffic statistics for one or
multiple interfaces. If no parameter is given, all interfaces are shown.
Syntax
show interfaces interface-id
• interface-id—The ID for any valid physical interface (that is, a 1G, 10G,
or 40G interface in standard interface format or a port-channel
identifier).
Switch Management Commands 2195
Default Configuration
This command has no default configuration.
Command Modes
All modes
User Guidelines
The show interface command shows the actual operational status of the
interface, which is not necessarily the same as the configuration.
Input/output rate statistics are collected every 10 seconds.
Example
The following example shows the output for a 1G interface:
console#show interfaces gi1/0/1
Interface Name : .............................. Gi1/0/1
SOC Hardware Info :............................ BCM56342_A0
Link Status : ................................. Up
Keepalive Enabled.............................. True
Err-disable Cause.............................. None
VLAN Membership Mode: ......................... Trunk Mode
VLAN Membership: .............................. (1),2-3,101-113,813,3232
MTU Size : .................................... 1518
Port Mode [Duplex] : .......................... Full
Port Speed : .................................. 1000
Link Debounce Flaps : ......................... 0
Auto-Negotation Status : ...................... Auto
Burned MAC Address : .......................... 001E.C9DE.B110
L3 MAC Address................................. 001E.C9DE.B112
Sample load interval : ........................ 300
Received Input Rate Bits/Sec : ................ 784
Received Input Rate Packets/Sec : ............. 1
Transmitted Input Rate Bits/Sec : ............. 1344
Transmitted Input Rate Packets/Sec : .......... 1
Total Packets Received Without Errors.......... 102792
Unicast Packets Received....................... 0
Multicast Packets Received..................... 102792
Broadcast Packets Received..................... 0
Total Packets Received with MAC Errors......... 0
Jabbers Received............................... 0
Fragments/Undersize Received................... 0
Switch Management Commands 2196
Alignment Errors............................... 0
FCS Errors..................................... 0
Overruns....................................... 0
Total Received Packets Not Forwarded........... 7
Total Packets Transmitted Successfully......... 147070
Unicast Packets Transmitted.................... 0
Multicast Packets Transmitted.................. 147070
Broadcast Packets Transmitted.................. 0
Transmit Packets Discarded..................... 0
Total Transmit Errors.......................... 0
Total Transmit Packets Discarded............... 0
Single Collision Frames........................ 0
Multiple Collision Frames...................... 0
Excessive Collision Frames..................... 0
console#show interfaces po1
Channel Ports Ch-Type Hash Type Min-links Local Prf
------- ----------------------------- -------- --------- --------- --------
Po1 Active: Gi1/0/1 Dynamic 7 1 Disabled
Hash Algorithm Type
1 - Source MAC, VLAN, EtherType, source module and port Id
2 - Destination MAC, VLAN, EtherType, source module and port Id
3 - Source IP and source TCP/UDP port
4 - Destination IP and destination TCP/UDP port
5 - Source/Destination MAC, VLAN, EtherType, source MODID/port
6 - Source/Destination IP and source/destination TCP/UDP port
show interfaces advanced firmware
Use the show interfaces advanced firmware command to display the firmware
revision of the PHY for a port with upgradable firmware.
Syntax
show interfaces advanced firmware interface
• interface—A firmware upgradable physical interface.
Default Configuration
This command has no default configuration.
Switch Management Commands 2197
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
This command is only applicable to firmware upgradable interfaces. 1G
interfaces are never shown in the command output. Some 10G interfaces may
show as not firmware upgradable.
Example
console#show interfaces advanced firmware
Port Revision Part number
-------- ---------- -----------
Te1/0/1 0x411 BCM8727
Te1/0/2 0x411 BCM8727
Te1/0/3 0x411 BCM8727
Te1/0/4 0x411 BCM8727
Te1/0/5 0x411 BCM8727
show interfaces utilization
Use this command to display interface utilization.
Syntax
show interfaces utilization [interface-id]
• interface-id—A physical or port-channel interface identifier.
Default Configuration
There is no default configuration for this command.
Command Modes
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
Switch Management Commands 2198
User Guidelines
This command displays interface transmit and receive utilization in bits/sec
and packets/sec. The transmit utilization and transmit packet counts include
packets generated by the CPU.
Buffer utilization is the count of cells queued for transmission on a port. A
buffer utilization value of less than 10 generally indicates that the port is not
experiencing congestion and packets are transmitted as soon as they are
queued for output. A value above 10 that increases and decreases indicates a
port that is experiencing burstiness. A persistent value above 10 indicates a
port that is experiencing congestion (incast); if the cell count continues to
increase over time, the port begins discarding packets when reaching the tail
drop threshold.
The value of 10 cells above corresponds to one and one-half maximum length
packets queued for transmission. For the N1100-ON, N2000, N2100-ON,
N3000, N3100-ON, and N4000 switches, the cell size is 208 bytes; for the
N1500, the cell size is 128 bytes. If jumbo frames are enabled (MTU 9200),
the expected size of a single maximum length packet is 45 cells (9200/208 =
44.2). Allowing for a frame and a half to be buffered on average, a value of 75
is perhaps more appropriate to consider as the indicator for determining if
congestion exists on a port.
The clear counters command clears the underlying counters for transmit and
receive utilization values, transmit and receive packets per second values, and
the drops counter. The count of buffered packets is not a sampled counter
and cannot be cleared.
This command displays the following interface transmit and receive
utilization in bits/sec and packets/sec.
Field Description
Port The interface for which information is
displayed.
Load Interval The load interval for the interface.
Oper. Speed The operational speed, which is the
speed at which the interface is currently
operating (e.g., 1M, 10M, 100M, 1G,
10G, 40G).
Switch Management Commands 2199
Example
The following example shows a classical incast situation on interface Gi1/0/2
where the port is fully utilized or nearly fully utilized, buffering many frames
(with increased latency) and beginning to drop frames as the internal
Rx Util The receive utilization which is the link
utilization in the receive direction as a
percentage of operational speed (range
0-100). The utilization is derived by
dividing the link speed by the number of
bytes received averaged over the last
sampling interval.
Tx Util The transmit utilization. The link
utilization in the transmit direction as a
percentage of operational speed (range
0-100). The utilization is derived by
dividing the link speed by the number of
bytes received averaged over the last
sampling interval.
Rx PPS The received packets per second. This
value is the average number of packets
received over the last sampling interval.
Tx PPS The transmitted packets per second.
This value is the average number of
packets transmitted over the last
sampling interval.
Buffer Size The number of bytes queued for egress
on the interface. This value is calculated
as the number of cells multiplied by the
cell size (cell size is hardware specific)
and is read directly from the hardware,
i.e. this value is not sampled.
Drop Count The number of packets queued for
egress that are dropped for any reason. It
is the same value as shown for “Transmit
Packets Discarded” in the show statistics
command.
Field Description
Switch Management Commands 2200
thresholds for buffering on the port are reached. A conscientious network
operator might want to examine why the devices attached to Gi1/0/5 and
Gi1/0/6 are sending so much traffic to Gi1/0/2 attached devices and either re-
distribute the devices, rate-limit traffic egressing the devices attached to
Gi1/0/5 and Gi1/0/6, or increase the number of links available for the device
attached to Gi1/0/2.
console#show interfaces utilization
Port Load Oper. Rx Tx Rx Tx Buffer Drop
Interval Speed Util Util PPS PPS Size Count
--------- -------- ------ ----- ----- ------- -------- -------- ---------
Gi1/0/1 300 10M 1 0 296 0 0 0
Gi1/0/2 300 1G 0 99 0 674500 938098 1102
Gi1/0/3 300 1G 0 15 0 112428 7 0
Gi1/0/4 300 0 0 0 0 1 0 0
Gi1/0/5 300 1G 37 0 249565 1 0 1
Gi1/0/6 300 1G 88 1 593560 3 0 0
Gi1/0/7 300 0 0 0 0 0 0 0
Gi1/0/8 300 0 0 0 0 1 0 0
show memory cpu
Use the show memory cpu command to check the total and available RAM
space on the switch.
Syntax
show memory cpu
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
No specific guidelines.
Switch Management Commands 2201
Example
console#show memory cpu
Total Memory........................... 262144 KBytes
Available Memory Space................. 121181 KBytes
show nsf
Use the show nsf command to show the status of non-stop forwarding.
Syntax
show nsf
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
The Global Status Parameters for NSF are explained as follows:
Parameter Description Range Default
NSF
Administrative
Status
Whether nonstop forwarding is
administratively enabled or disabled
Enabled
Disabled
Enabled
NSF Operational
Status
Indicates whether NSF is enabled
on the stack.
Enabled
Disabled
None
Switch Management Commands 2202
Last Startup
Reason
The type of activation that caused
the software to start the last time.
There are four options. “Power-On”
means that the switch rebooted.
This could have been caused by a
power cycle or an administrative
“Reload” command.
“Administrative Move” means that
the administrator issued a
command for the stand-by manager
to take over. “Warm-Auto-Restart”
means that the primary
management card restarted due to a
failure, and the system executed a
nonstop forwarding failover. “Cold-
Auto-Restart” means that the
system switched from the active
manager to the backup manager and
was unable to maintain user data
traffic. This is usually caused by
multiple failures occurring close
together.
Power-On
Administrative-
Move
Warm-Auto-
Restart
Cold-Auto-
Restart
None
Time Since Last
Restart
Time since the current management
card became the active management
card. For the backup manager, the
value is set to 0d 00:00:00
Time Stamp 0d
00:00:00
Restart in progress Whether a restart is in progress. A
restart is not considered complete
until all hardware tables have been
fully reconciled.
Yes or No
Warm Restart
Ready
Whether the initial full checkpoint
has finished
Yes or No
Status Whether the running configuration
on the backup unit includes all
changes made on the management
unit.
Current or Stale
Parameter Description Range Default
Switch Management Commands 2203
Example
The show nsf command is used to display which unit is the management unit
and which is the backup unit.
console#show nsf
Administrative Status.......................... Enable
Operational Status............................. Enable
Last Startup Reason............................ Warm Auto-Restart
Time Since Last Restart........................ 0 days 16 hrs 52 mins 55 secs
Restart In Progress............................ No
Warm Restart Ready............................. Yes
Copy of Running Configuration to Backup Unit:
Status...................................... Stale
Time Since Last Copy........................ 0 days 4 hrs 53 mins 22 secs
Time Until Next Copy........................ 28 seconds
Unit NSF Support
---- -----------
1 Yes
2 Yes
3 Yes
show power-usage-history
Use the show power-usage-history command to display the history of unit
power consumption for the unit specified in the command and total stack
power consumption. Historical samples are not saved across switch
reboots/reloads.
Time Since Last
Copy
When the running configuration
was last copied from the
management unit to the backup
unit.
Time Stamp
Time Until Next
Copy
The number of seconds until the
running configuration will be copied
to the backup unit. This line only
appears when the running
configuration on the backup unit is
Stale.
0 - 120 seconds
Parameter Description Range Default
Switch Management Commands 2204
Syntax
show power-usage-history <unit-id>
• unit-id—Stack unit for which to display the power history. Range 1-12.
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
Power draw is measured at the power supplies. Power draw is not measured at
the interfaces.
This command is not available on the Dell EMC Networking N1100-ON
Series switches.
Example
console#show power-usage-history 1
Sampling Interval (sec)........................ 30
Total No. of Samples to Keep................... 168
Current Power Consumption (Watts)............. 56.2
Sample Time Since Power Power
No. The Sample Consumption Consumption
Was Recorded On This Unit Per Stack
(Watts) (Watts)
------ -------------------- ----------- -----------
3 00:00:00:13 56.2 56.2
2 00:00:00:43 56.2 56.2
1 00:00:01:12 54.3 54.3
show process app-list
Use the show process app-list command to display the system applications.
Switch Management Commands 2205
Syntax
show process app-list
Default Configuration
This command does not have a default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
The following fields are displayed.
Command History
Introduced in version 6.2.0.1 firmware.
Example
console#show process app-list
Admin Auto Running
ID Name PID Status Restart Status
---------------------------------------------------------
1 switchdrvr 280 Enabled Enabled Running
Fields Description
ID Application ID assigned by the Process
Manager.
Name Application Name
PID Application Linux Process ID.
Admin-Status Flag indicating if the application is
administratively enabled.
Auto-Restart Flag indicating if the Process Manager
should automatically restart the
application if the application fails.
Running-Status Flag indicating if the application is
running.
Switch Management Commands 2206
2 syncdb-test 0 Disabled Disabled Stopped
show process app-resource-list
This command lists the configured and in-use resources for each application
known to the Process Manager.
Syntax
show process app-resource-list
Default Configuration
There is no default configuration for this command.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
The following fields are displayed.
Fields Description
ID Application ID assigned by the Process
Manager.
Name Application Name
PID Application Linux Process ID.
Memory-limit Configured memory limit for the
application, in Megabytes.
CPU Share Configured CPU share in terms of
percentage
Memory Usage Current memory usage by this
application, in Megabytes
Max Memory Usage Maximum memory usage by this
application, in Megabytes.
Switch Management Commands 2207
Command History
Introduced in version 6.2.0.1 firmware.
Example
console#show process app-resource-list
Memory CPU Memory Max Mem
ID Name PID Limit Share Usage Usage
----------------------------------------------------------------------
1 switchdrvr 280 Unlimited Unlimited 256MB 280MB
2 syncdb-test 0 10MB 20% 0MB 0MB
show process cpu
Use the show process cpu command to check the CPU utilization for each
process currently running on the switch.
Syntax
show process cpu
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
No specific guidelines.
Example
console#show process cpu
Memory Utilization Report
status bytes
------ ----------
free 64022608
alloc 151568112
Switch Management Commands 2208
CPU Utilization:
PID Name 5 Sec 1 Min 5 Min
---------------------------------------------------------
328bb20 tTffsPTask 0.00% 0.00% 0.02%
3291820 tNetTask 0.00% 0.00% 0.01%
3295410 tXbdService 0.00% 0.00% 0.03%
347dcd0 ipnetd 0.00% 0.00% 0.01%
348a440 osapiTimer 1.20% 1.43% 1.21%
358ee70 bcmL2X.0 0.40% 0.30% 0.12%
359d2e0 bcmCNTR.0 0.80% 0.42% 0.50%
3b5b750 bcmRX 0.00% 0.13% 0.12%
3d3f6d0 MAC Send Task 0.00% 0.07% 0.10%
3d48bd0 MAC Age Task 0.00% 0.00% 0.03%
40fdbf0 bcmLINK.0 0.00% 0.14% 0.46%
4884e70 tL7Timer0 0.00% 0.06% 0.02%
48a1250 osapiMonTask 0.00% 0.32% 0.17%
4969790 BootP 0.00% 0.00% 0.01%
4d71610 dtlTask 0.00% 0.06% 0.05%
4ed00e0 hapiRxTask 0.00% 0.06% 0.03%
562e810 DHCP snoop 0.00% 0.00% 0.06%
58e9bc0 Dynamic ARP Inspection 0.00% 0.06% 0.03%
62038a0 dot1s_timer_task 0.00% 0.00% 0.03%
687f360 dot1xTimerTask 0.00% 0.06% 0.07%
6e23370 radius_task 0.00% 0.00% 0.01%
6e2c870 radius_rx_task 0.00% 0.06% 0.03%
7bc9030 spmTask 0.00% 0.09% 0.01%
7c58730 ipMapForwardingTask 0.00% 0.06% 0.03%
7f6eee0 tRtrDiscProcessingTask 0.00% 0.00% 0.01%
b1516d0 dnsRxTask 0.00% 0.00% 0.01%
b194d60 tCptvPrtl 0.00% 0.06% 0.03%
b585770 isdpTask 0.00% 0.00% 0.02%
bda6210 RMONTask 0.00% 0.11% 0.11%
bdb24b0 boxs Req 0.00% 0.13% 0.10%
c2d6db0 sshd 0.00% 0.00% 0.01%
---------------------------------------------------------
Total CPU Utilization 2.40% 3.62% 3.45%
show process proc-list
This command lists the configured and in-use resources for each application
known to the Process Manager.
Switch Management Commands 2209
Syntax
show process proc-list
Default Configuration
There is no default configuration for this command.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
The following fields are displayed.
Fields Description
PID Application Linux Process ID
Process-Name Linux process name
Application ID-VRID-Name Name of the application that started the
process and the application ID assigned
by the Process Manager. The VRID is the
virtual router with which this application
is associated. The VRID is 0 for processes
associated with the default router and on
platforms which do not support the
virtual routing feature.
Child Flag indicating if this process is started
directly by the Process Manager or if it is a
child process started by the application
process.
VM Size Virtual Memory consumed by this process
in Kilobytes
VM Peak Maximum Virtual Memory consumed by
this process in Kilobytes
FD Count Number of file descriptors open in this
process.
Switch Management Commands 2210
Command History
Introduced in version 6.2.0.1 firmware.
Example
console##show process proc-list
Process Application VM Size VM Peak
PID Name ID-VRID-Name Child (KB) (KB) FD Count
-----------------------------------------------------------------
280 switchdrvr 1-0-switchdrvr No 220992 230724 36
281 syncdb 2-0-syncdb No 2656 2656 8
281 proctest 3-55-proctest No 2656 2656 8
show sessions
Use the show sessions command to display a list of the open sessions from
remote hosts.
Syntax
show sessions
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
This command has no user guidelines.
Example
The following example displays a list of open sessions from remote hosts.
console#show sessions
Session User Name Connection from Idle Session Session
ID Time Time Type
------- ---------------------- ----------------- -------- -------- ---------
0 EIA-232 00:00:00 00:01:03 Serial
Switch Management Commands 2211
1 admin 10.130.128.17 00:00:05 00:00:10 Telnet
11 admin 10.27.192.56 00:00:27 00:00:28 HTTP
The following table describes the significant fields shown in the display.
show slot
Use the show slot command to display information about all the slots in the
system or detailed information for a specific slot.
Syntax
show slot [slot/port]
Default Configuration
This command has no default configuration.
Command Mode
User Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
Switch slots are populated with cards (see the
show supported cardtype
command below). However, not all slots are available to be externally
populated. Slots which may be populated in the field are marked as pluggable.
Field Description
Session ID The session identifier. Use with the disconnect
command.
User Name The login ID associated with the session.
Connection from The origin of the connection.
Idle Time The elapsed time since session activity was last
detected.
Session Time The elapsed time since the session was connected.
Session Type The type of connection (Serial, Telnet, SSH,
HTTP, HTTPS).
Switch Management Commands 2212
Every switch has a least one slot, which is populated with the base switching
card. Systems with an external CPU will show an additional slot which is
populated with the external CPU. Both of these slots are marked as non-
pluggable.
The following table explains the output parameters.
If you supply a value for slot/port, the following additional information
appears as shown in the table below.
Parameter Description
Slot The slot identifier in a slot/port format.
Slot Status The slot is empty, full, or has encountered
an error.
Admin State The slot administrative mode is enabled
or disabled.
Power State The slot power mode is enabled or
disabled.
Configured Card Model Identifier The model identifier of the card
preconfigured in the slot. Model identifier
is a 32-character field used to identify a
card.
Pluggable Cards are pluggable or non-pluggable in
the slot.
Parameter Description
Inserted Card Model Identifier The model identifier of the card inserted
in the slot. Model identifier is a 32-
character field used to identify a card.
This field is displayed only if the slot is
full.
Inserted Card Description The card description. This field is
displayed only if the slot is full.
Configured Card Description The description of the card preconfigured
in the slot.
Switch Management Commands 2213
Example
console>show slot
Admin Power Configured Card
Slot Status State State Model ID Pluggable
----- ------ ------- ------- -------------------------------- ---------
1/0 Full Enable Enable Dell Networking N4032 No
1/1 Empty Disable Disable Yes
Command History
Description updated in the 6.4 release.
show supported cardtype
Use the show supported cardtype command to display information about all
card types supported in the system.
Syntax
show supported cardtype [
cardindex
]
• cardindex — Displays the index into the database of the supported card
types. This index is used when preconfiguring a slot.
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
If a card index is entered, then the command displays information about
specific card types supported in the system. Card index values are specific to
each family of products. Use the generic form (without specifying an index)
to display all the card types for a product family.
The CID information is used when preconfiguring cards using the slot
command.
The following table explains the output parameters.
Switch Management Commands 2214
If you supply a value for cardindex, the following additional information
appears as shown in the table below.
Example
This example shows the supported card types for the Dell EMC Networking
N4000 switch.
console>show supported cardtype
CID Card Model ID
--- --------------------------------
1 XLP308 Base CPU Card
2 Dell Networking N4032
3 Dell Networking N4032F
4 Dell Networking N4064
5 Dell Networking N4064F
6 Dell QSFP Card
7 Dell SFP+ Card
8 Dell 10GBase-T Card
Command History
Description updated in the 6.4 release.
Parameter Description
Card Index (CID) The index into the database of the
supported card types. This index is used
when preconfiguring a slot.
Card Model Identifier The model identifier for the supported
card type.
Parameter Description
Card Type The 32-bit numeric card type for the
supported card.
Model Identifier The model identifier for the supported
card type.
Card Description The description for the supported card
type.
Switch Management Commands 2215
show supported switchtype
Use the show supported switchtype command to display information about
all supported switch types.
Syntax
show supported switchtype [switchindex]
• switchindex — Specifies the index into the database of the supported
switch types, indicating the type of the switch being preconfigured. The
switch index is a 32-bit integer. (Range: 0–65535)
Default Configuration
This command has no default configuration.
Command Mode
User Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
The switch SID is used when preconfiguring switches in a stack using the
member command in config-stack mode.
The following table describes the fields in the first example.
Field Description
Switch Index (SID) This field displays the index into the database of
supported switch types. This index is used when
preconfiguring a member to be added to the
stack.
Model Identifier This field displays the model identifier for the
supported switch type.
Management Preference This field indicates the management preference
value of the switch type.
Code Version This field displays the code load target identifier
of the switch type.
Switch Management Commands 2216
The following table describes the fields in the second example.
Example
The following example displays the information for supported switch types.
console#show supported switchtype
SID Switch Model ID
--- --------------------------------
1 N4032
2 N4032F
3 N4064
4 N4064F
The following example displays the format of the show supported switchtype
command.
console#show supported switchtype 1
Switch Type....................... 0xd8420001
Model Identifier.................. N4032
Switch Description................ Dell Networking N4032
Supported Cards:
Slot........................... 0
Card Index (CID)............... 1
Model Identifier............... Dell Networking N4032
Slot........................... 1
Card Index (CID)............... 5
Model Identifier............... Dell QSFP Card
Slot........................... 1
Card Index (CID)............... 6
Model Identifier............... Dell SFP+ Card
Slot........................... 1
Field Description
Switch Type This field displays the 32-bit numeric
switch type for the supported switch.
Model Identifier This field displays the model identifier for
the supported switch type.
Switch Description This field displays the description for the
supported switch type.
Switch Management Commands 2217
Card Index (CID)............... 7
Model Identifier............... Dell 10GBase-T Card
show switch
Use the show switch command to display information about units in the
stack.
Syntax
show switch [stack–member–number | stack–ports[counters | diag | stack-
path {from-unit | all} to unit] | stack–standby]
•unitid—The unit number.
• stack–member–number—The stack member number.
•stack–ports—Display summary stack-port information for all interfaces.
•counters—Display summary data counter information for all interfaces.
•diag—Display front panel stacking diagnostics for each port.
•stack-path—Display the active path from one stacking unit to another.
• From-unit—The unit from which the packets originate.
• All—Displays all unit paths.
• To-unit—The unit to which the packets are sent.
•stack–standby—Display the configured or automatically selected
standby unit number.
Default Configuration
This command has no default configuration.
Command Mode
User Exec, Privileged Exec modes, Global Configuration mode and all
Configuration submodes
User Guidelines
The show switch command shows the configuration and status of the
stacking units, including the active and standby stack management units, the
pre-configured model identifier, the plugged in model identifier, the switch
Switch Management Commands 2218
status and the current code version. Both the pre-configured switch type (as
set by the member command in stack mode) and the actual connected
switchtype, if any, are shown.
The show switch unitid command also shows details of the switch
configuration including the SFS last attempt status for the specified unit. If
there is a stack firmware synchronization (SFS) operation in progress, the
switch status will show as Updating Code.
The show switch command may show an SDM Mismatch value in the Switch
Status field. This value indicates that the unit joined the stack, but is running
a different SDM template than the management unit. This status should be
temporary; the stack unit should automatically reload using the template
running on the stack manager.
Use the show supported switchtype command to display switch SIDs.
Use the show switch stack-ports command to display details regarding
stacking links.
Use the show switch stack-ports stack-path command to display the active
path from one stacking unit to another.
Use the show slot command to display details regarding slot configuration.
Use the show sdm prefer command to display the SDM template
configuration.
The show switch stack-ports stack-path command is useful in tracking the
path a packet may take when traversing stacking links. The command shows
active paths only, not those that may be taken after a stack failover or stack
reconvergence.
The following table describes the fields in the switch stack status example.
Unit Description
Switch This field displays the unit identifier assigned to
the switch.
Management Status This field indicates whether the switch is the
Management Switch, a stack member, or the
status is unassigned.
Switch Type This field displays the 32-bit numeric switch
type.
Switch Management Commands 2219
The additional fields in the all units example are as follows:
Preconfigured Model Identifier This field displays the model identifier for this
switch. Model Identifier is a 32-character field
assigned by Dell to identify the switch.
Plugged-in Model Identifier This field displays the model identifier for this
switch. Model Identifier is a 32-character field
assigned by Dell to identify the switch. If no
physical unit is present for the unit number, this
field is empty.
Switch Status This field displays the switch status. Possible
values are OK, Unsupported, Code Mismatch,
Config Mismatch, SDM Mismatch Not Present,
Updating Code, or STM Mismatch
Switch Description This field displays the switch description.
Detected Code Version This field displays the version of code running
on this switch. If the switch is not present and
the data is from preconfiguration, the code
version is “None.”
Detected Code in Flash This field displays the version of code that is
currently stored in FLASH memory on the
switch. This code will execute after the switch is
reset. If the switch is not present and the data is
from preconfiguration, then the code version is
“None.”
SFS Last Attempt Status This field displays the Stack Firmware
Synchronization status. The possible values are:
Success, Failure, Min bootcode version not
present, None.
Serial Number This field displays the Switch serial number.
Up Time This field displays the system up time.
Unit Description
Switch This field displays the unit identifier assigned to
the switch.
Unit Description
Switch Management Commands 2220
Per Unit Status Parameters are explained as follows:
Examples
Example – Stack Status for the Switch
console#show switch 1
Switch............................ 1
Management Status................. Management Switch
Switch Type....................... 0xd8460001
Preconfigured Model Identifier.... N4064
Plugged-in Model Identifier....... N4064
Switch Status..................... OK
Management Status This field indicates whether the switch is the
Management Switch, a stack member, or the
status is unassigned.
Standby Status This field indicates whether the switch is the
Standby Switch.
Preconfigured Model Identifier This field displays the model identifier of a
preconfigured switch ready to join the stack.
The Model Identifier is a 32-character field
assigned by Dell to identify the switch.
Plugged-In Model Identifier This field displays the model identifier of the
switch physically present in the stack. The
Model Identifier is a 32-character field assigned
by Dell to identify the switch.
Switch Status This field indicates the switch status. Possible
values for this state are: OK, Unsupported,
Code Mismatch, Cfg Mismatch, SDM
Mismatch, STM Mismatch, or NotPresent
Code Version This field indicates the detected version of code
on this switch.
Parameter Description Range Default
NSF Support Whether a unit
supports NSF
Yes or No Yes
Unit Description
Switch Management Commands 2221
Switch Description................ Dell Networking N4064
Detected Code Version............. 6.0.0.0
Detected Code in Flash............ 6.0.0.0
SFS Last Attempt Status........... None
Serial Number..................... CN0H0F6C2829831P0023A00
Up Time........................... 3 days 1 hrs 16 mins 20 secs
Example-Stack Ports
This example displays information about the stack ports.
console#show switch stack-ports
Configured Running
Stack Stack Link Link Admin
Interface Mode Mode Status Speed (Gb/s) Status
---------------- ---------- ---------- ------------ ------------ -----------
Tw1/0/1 Stack Stack Link Down 21 Enabled
Tw1/0/2 Stack Stack Link Up 21 Disabled
Tw2/0/1 Stack Stack Link Down 21 Disabled
Tw2/0/2 Stack Stack Link Up 21 Enabled
Example – All Units in the Stack
This example displays information about all units in the stack.
console>show switch
Management Standby Preconfig Plugged-in Switch Code
SW Status Status Model ID Model ID Status Version
--- ---------- --------- ------------- ------------- ------------- ---------
1 Mgmt Sw N3048 N3048 OK 6.0.0.0
Example-Stacking Links Path
This command tracks the path a packet may take when traversing stacking
links. The command shows active paths only, not those that may be taken
after a stack failover or stack reconvergence.
console#show switch stack-ports stack-path 3 1
Packet-path from unit 3 to unit 1:
1 unit-3 port gi3/0/49 to unit-2
2 unit-2 port gi2/0/49 to unit-1
Example – Switch Firmware Stack Status
The following example displays the Switch Firmware stack status information
for the switch.
Switch Management Commands 2222
console#show switch
Management Standby Preconfig Plugged-in Switch Code
SW Switch Status Model ID Model ID Status Version
--- ---------- --------- ------------- ------------- ------------- ---------
1 Mgmt Sw N3024 N3024 OK 6.0.0.0
2 Stack Mbr N3024 N3024 Updating Code 6.0.0.0
console#show switch 1
Switch............................ 1
Management Status................. Management Switch
Switch Type....................... 0x63400004
Preconfigured Model Identifier.... N3048P
Plugged-in Model Identifier....... N3048P
Switch Status..................... OK
Switch Description................ Dell Networking N3048P
Detected Code Version............. 6.0.0.0
Detected Code in Flash............ 6.0.0.0
SFS Last Attempt Status........... None
Serial Number..................... 13820M0230LF
Up Time........................... 0 days 3 hrs 1 mins 13 secs
Example – SDM Templates
This example shows the SDM Mismatch value in the Switch Status field.
console(config)#show switch
Management Standby Preconfig Plugged-in Switch Code
SW Status Status Model ID Model ID Status Version
--- ---------- --------- ------------- ------------- ------------- ---------
1 Mgmt Sw N4032F N4032F SDM Mismatch 10.7.14.21
show system
Use the show system command to display system information.
Syntax
show system [unit]
• unit — The unit number.
Default Configuration
This command has no default configuration.
Switch Management Commands 2223
Command Mode
User Exec mode, Privileged Exec mode, Global Configuration mode and all
Configuration submodes
User Guidelines
The temperature and power sections are only displayed for switches that have
temperature or power monitoring capability.
Example
console#show system
System Description: Dell Networking Switch
System Up Time: 0 days, 03h:02m:30s
System Contact:
System Name:
System Location:
Burned In MAC Address: 001E.C9DE.B41B
System Object ID: 1.3.6.1.4.1.674.10895.3060
System Model ID: N3048P
Machine Type: Dell Networking N3048P
System Thermal Conditions:
Unit Temperature State
(Celsius)
---- ----------- -----------
1 34 Good
Temperature Sensors:
Unit Description Temperature
(Celsius)
---- ------------------ -----------
1 MAC 33
1 PHY 34
Fans:
Unit Description Status
---- ----------- -------
1 Fan-1 Failure
1 Fan-2 Failure
Power Supplies:
Switch Management Commands 2224
Unit Description Status Average Current Since
Power Power Date/Time
(Watts) (Watts)
---- ----------- ----------- ---------- -------- -------------------
1 System OK 39.8 39.8
1 PS-1 Failure
1 PS-2 No Power N/A N/A 01/01/1970 00:00:00
USB Port Power Status:
----------------------
Device Not Present
show system fan
Use the show system fan command to explicitly display the fan status.
Syntax
show system fan
Default Configuration
This command has no default configuration.
Command Mode
User Exec mode, Privileged Exec mode, Global Configuration mode and all
Configuration submodes
User Guidelines
This command has no user guidelines.
Example
console>show system fan
Fans:
Unit Description Status
---- ----------- ------
1 Fan 1 OK
1 Fan 2 OK
1 Fan 3 OK
Switch Management Commands 2225
show system id
Use the show system id command to display the system identity information.
Syntax
show system id [unit]
• unit — The unit number.
Default Configuration
This command has no default configuration.
Command Mode
User Exec mode, Privileged Exec mode, Global Configuration mode and all
Configuration submodes
User Guidelines
The tag information is on a switch by switch basis.
Example
The following example displays the system service tag information.
console#show system id
Service Tag: 13820M0230LF
Serial Number: 13820M0230LF
Asset Tag: none
Unit Service tag Serial number Asset tag
---- ------------ -------------- ------------
1 13820M0230LF 13820M0230LF none
show system power
Use the show system power command to display information about the
system level power consumption.
Syntax
show system power
Switch Management Commands 2226
Default Configuration
This command has no default configuration.
Command Mode
User Exec mode, Privileged Exec mode, Global Configuration mode and all
Configuration submodes
User Guidelines
This command is only available on switches with a power monitoring circuit.
It is not available on the Dell EMC Networking N1100-ON Series switches.
Examples
console#show system power
Power Supplies:
Unit Description Status Average Current Since
Power Power Date/Time
(Watts) (Watts)
---- ----------- ----------- ---------- -------- -------------------
1 System OK 39.8 39.8
1 PS-1 Failure
1 PS-2 No Power N/A N/A 01/01/1970 00:00:00
show system temperature
Use the show system temperature command to display information about the
system temperature and fan status.
Syntax
show system temperature
Default Configuration
This command has no default configuration.
Switch Management Commands 2227
Command Mode
User Exec mode, Privileged Exec mode, Global Configuration mode and all
Configuration submodes
User Guidelines
The system temperature is read from one or more sensors placed at critical
locations on the PCB. Status ranges are subdivided into Good (Cool),
Medium (Warm), and High (Hot). Each status range has a lower, mid-range,
and upper limit with the upper limit of the lower temperature status being
the same as the lower limit of the adjacent higher temperature status. Within
a range, the fans run at a reduced speed for the lower temperature part of the
range and an increased speed for the higher temperature part of the range.
Each range runs the fans at increasingly higher speeds for increasingly higher
temperatures. Above the High status upper limit, the system is shut down.
Typically, the shutoff temperature for the switch is 90-105<Variable>°C.
To avoid fan speed oscillation around a temperature limit, a small hysteresis is
added to the limit such that the temperature for increasing the fan speed is
higher than the temperature for lowering the fan speed. This implies that the
higher fan speed (and status) is maintained until the switch is cooled 3-5
degrees below the threshold for increasing the fan speed (and possibly
changing the status). The exact thresholds for increasing or lowering the fan
speed are determined during thermal analysis and are different for each
switch family.
Examples
console#show system temperature
System Thermal Conditions:
Unit Temperature State
(Celsius)
---- ----------- -----------
1 34 Good
Temperature Sensors:
Unit Description Temperature
(Celsius)
---- ------------------ -----------
1 MAC 33
Switch Management Commands 2228
1 PHY 34
show tech-support
Use the show tech-support command to display system and configuration
information for use in debugging or contacting technical support. The output
of the show tech-support command combines the output of the following
commands:
• show interfaces transceiver
• show power inline
• show switch stack-port counters
• show nsf
• show slot
• show interfaces advertise
• show interfaces advanced firmware
• show lldp remote-device all
• show interfaces counters errors
• show fiber-ports optical-transceiver
• show process cpu
• show iscsi sessions
• show ethernet cfm errors (N4000 series only)
• show power inline firmware-version
• show version
• show interfaces transceiver properties
Syntax
show tech-support [ bgp | bgp-ipv6 | ospf | ospfv3 | bfd ] [file | usb]
•bgp — Show detailed information specific to BGP.
•bgp-ipv6 — Show detailed information specific to BGP IPv6.
•ospf — Show detailed information specific to OSPF.
•ospfv3 — Show detailed information specific to OSPFv3.
•bfd — Show detailed information specific to BFD.
•file — Write the output to a file in the local flash instead of the console.
Switch Management Commands 2229
•usb — Write the output to a file on the USB drive instead of the
console.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
The output of the show tech-support command combines the output of the
following commands at a minimum:
• show interfaces transceiver
• show power inline
• show switch stack-port counters
• show nsf
• show slot
• show interfaces advertise
• show interfaces advanced firmware
• show lldp remote-device all
• show interfaces counters errors
• show fiber-ports optical-transceiver
• show process cpu
• show iscsi sessions
• show ethernet cfm errors (N4000 series only)
• show power inline firmware-version
• show version
• show interfaces transceiver properties
Tech support files are named tech-supportXXX.txt, where XXX is the date
and time stamp of the form YYMMDDHHMMSS. YY is the last two digits of
the year, MM is the month, DD is the day of the month, HH is the hour in
24-hour format, MM is the minute, and SS is the second.
Use the copy flash://techsupportXXX.txt <destination> form of the copy
command to copy the tech-support file from the switch.
Switch Management Commands 2230
A USB device must be plugged in to the USB port, and cleanly mounted, if
the usb parameter is given.
Default Value
This command has no defaults.
Example
console#show tech-support
***************** Show Version ******************
Switch: 1
System Description................ Dell Networking N4032, 6.0.0.0, Linux
2.6.32.9
Machine Description............... Dell Networking Switch
System Model ID................... N4032
Machine Type...................... Dell Networking N4032
Serial Number..................... 0000
Manufacturer...................... 0xbc00
Operating System.................. Linux 2.6.32.9
Burned In MAC Address............. 0011.2233.4455
System Object ID.................. 1.3.6.1.4.1.674.10895.3042
CPU Version....................... XLP308H-B2
SOC Version....................... BCM56842_A1
HW Version........................ 3
CPLD Version...................... 17
unit active backup current-active next-active
---- ----------- ----------- -------------- --------------
1 6.0.0.0 <none> 6.0.0.0 6.0.0.0
Operating System............................... Linux 2.6.32
Additional Packages............................ FTOS QoS
FTOS Multicast
FTOS Stacking
FTOS Routing
FTOS Data Center
***************** Show SysInfo ******************
System Location................................
Switch Management Commands 2231
System Contact.................................
System Object ID............................... 1.3.6.1.4.1.674.10895.3042
System Up Time................................. 0 days 0 hrs 14 mins 53 secs
10/100 Ethernet/802.3 interface(s)............. 1
Gig Ethernet/802.3 interface(s)................ 0
10Gig Ethernet/802.3 interface(s).............. 0
40Gig Ethernet/802.3 interface(s).............. 0
Virtual Ethernet/802.3 interface(s)............ 1
System Thermal Conditions:
The following example writes the tech-support output to a file on a USB
stick.
console#show tech-support usb
Command History
Description updated in the 6.4 release.
show users
Use the show users command to display information about the active users.
Syntax
show users [long]
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
The command also shows which administrative profiles have been assigned to
local user accounts and to show which profiles are active for logged-in users.
Example
The following example displays a list of active users and the information
about them.
Switch Management Commands 2232
console#show users
Username Protocol Location Profile(s)
-------- -------- --------- ------------
admin Serial EIA-232 net-admin
console#show users accounts
UserName Privilege Password Password Lockout
Aging Expiry date
------- --------- -------- ------------- -------
admin 15 --- --- False
Administrative Profile(s): network-admin
user 1 --- --- False
Administrative Profile(s): network-operator
show version
Use the show version command in User Exec mode to displays the system
version information.
Syntax
show version [unit ]
• unit — The unit number.
Default Configuration
This command has no default configuration.
Command Mode
User Exec mode, Privileged Exec mode, Global Configuration mode and all
Configuration submodes
User Guidelines
This command has no user guidelines.
Example
console#show version
Machine Description............... Dell Networking Switch
System Model ID................... N4064
Machine Type...................... Dell Networking N4064
Serial Number..................... X01-64C-55
Switch Management Commands 2233
Manufacturer...................... 0xbc00
Burned In MAC Address............. D067.E5C0.D19B
System Object ID.................. 1.3.6.1.4.1.674.10895.3045
CPU Version....................... XLP308H-A1
SOC Version....................... BCM56846_A1
HW Version........................ 3
CPLD Version...................... 14
unit active backup current-active next-active
---- ----------- ----------- -------------- --------------
1 6.0.0.1 5.1.0.1 6.0.0.1 5.1.0.1
console#show version 2
SOC Version....................... BCM56842_B1
HW Version........................ 1
CPLD Version...................... 14
Unit Image 1 Image 2 Current Active Next Active
----- ------------ ------------ ----------------- -----------------
2 6.0.0.1 5.1.0.1 6.0.0.1 6.0.0.1
stack
Use the stack command in Global Configuration mode to enter Stack
Configuration mode.
Syntax
stack
Default Configuration
This command has no default mode.
Command Mode
Global Configuration mode
Switch Management Commands 2234
User Guidelines
If no stack configuration appears in the saved config, it is built at runtime and
appears in the running config. The operator can save the stack configuration.
Switches that do not match the saved config (are of a different type than as
configured) after a reboot will show a config mismatch and do not join the
stack. Units that do not join the stack will show their interfaces as detached.
Example
The following example sets the console command mode to Stack Config.
console(config)#stack
console(config-stack)#
stack-port
Use the stack-port command in Stack Configuration mode to configure ports
as either Stacking ports or as Ethernet ports.
NOTE: This command is only valid on the N1100-ON, N1500 and N4000 switches. It
issues an error response if used on the N2000, N2100-ON, N3000-ON, or N3100
switches.
Syntax
stack-port {fortygigabitethernet|tengigabitethernet}
unit/slot/port
{ethernet
| stack}
Default Configuration
By default, Ethernet ports are configured to operate in Ethernet mode.
Command Mode
Stack Configuration mode
User Guidelines
This command is used to configure Ethernet ports to operate as either
stacking or Ethernet ports, or to configure stacking modules to operate as
Ethernet ports.
Switch Management Commands 2235
Once this command has been issued, the switch must be rebooted in order for
the command to take effect. Issuing multiple stack-port commands for a
single interface without intervening reboots results in undefined behavior and
is not supported. Reboot the switch and examine the output of the show
switch stack-ports command to determine the active configuration. The clear
config command does not change the stacking port mode. Only the stack-
port command can change the operating mode of the stacking port and it
only takes effect after a reboot.
The stack-port configuration mode does not appear in the running config.
Use the show switch stack-port command to display configuration and status
of stacking ports. Ports that are configured to operate as stacking ports will
show as detached in the show interfaces status command output.
Use the show switch command to display information regarding the switches
in a stack. Fortygigabitethernet ports are only supported on the N4000 series
switches. Redundant stacking links between any two units must operate at
the same speed. A 40G port configured in 4x10G mode is considered to be
operating at 10G speed.
Up to eight stack ports can be configured per stacking unit (four in each
direction).
The N4000 Series switches support up to twelve units configured in a stack
and can utilize 10GBaseT, SFP+ or QSFP connections for stacking. The
N2000/N2100-ON/N3000/N3100-ON Series switches support up to twelve
units configured in a stack and can only utilize the rear panel mini-SAS ports
for stacking. The N1100-ON andN1500 Series switches support stacking up
to four units in a stack and can utilize pairs of SFP+ ports for stacking.
On the N1100-ON/N1500 Series switch, configuring an SFP+ port as
stacking will always configure the corresponding pair in stacking mode as well
(i.e., configuring Te1/0/1 as stacking configures Te1/0/2 as stacking and
configuring Te1/0/3 as stacking configures Te1/0/4 as stacking).
Example
console(config-stack)#stack-port tengigabitethernet 1/0/3 stack
console(config-stack)#
Switch Management Commands 2236
stack-port shutdown
Use this command to enable or disable the stack port administratively. This
command is usually used to diagnose the stack in case any one of the stack
ports is exhibiting errors.
Syntax
stack-port interface-id shutdown
no stack-port interface-id shutdown
• interface-id—The stacking interface identifier.
Default Configuration
There no default configuration for this command.
Command Modes
Stack Configuration mode
User Guidelines
This command must be used with caution, as disabling a stack port causes
the stack to attempt to reconverge. Ensure that the stack is in an active ring
topology in order to avoid a stack split. Check the stack ports for errors and
also verify that NSF is synced before shutting down any stacking links.
Application messages will appear in the logs during stack convergence.
This command persists across reboots, therefore, administrators should use
this command with caution during stack upgrade procedures.
Example
console(config-stack)#stack-port tengigabitethernet 1/2/1 shutdown
Disabling a stack port will cause the stack to attempt to re-converge.
Application messages will appear in the logs during stack convergence.
Before shutting down a stack link, please ensure that your stack is in an
active ring topology in order to avoid a stack split. Continue? (y/n)
console(config-stack)#no stack-port twentygigbitethernet 1/0/1 shutdown
Switch Management Commands 2237
standby
Use the standby command to configure the standby unit in the stack. This
unit comes up as the master when the stack failover occurs. Use the no form
of this command to reset to default, in which case, a standby is automatically
selected from the existing stack units if there no preconfiguration.
Syntax
standby unit
no standby
• unit — Valid unit number in the stack. (Range: 1–6 maximum. The
range is limited to the number of units available on the stack.)
Default Configuration
The default configuration is to allow the software to automatically select a
standby unit.
Command Mode
Stack Configuration mode
User Guidelines
This unit comes up as the master when the stack failover occurs. Use the no
form of this command to reset to default, in which case, a standby is
automatically selected from the existing stack units if there is no
preconfiguration.
Examples
console(config)#stack
console(config-stack)#standby 2
Command History
User Guidelines updated in the 6.4 release.
Switch Management Commands 2238
switch renumber
Use the switch renumber command in Global Configuration mode to change
the identifier for a switch in the stack.
Syntax
switch oldunit renumber newunit
• oldunit — The current switch identifier. (Range: Dependent on
Series/Model)
• newunit — The updated value of the switch identifier. (Range:
Dependent on Series/Model)
Command Mode
Global Configuration mode
User Guidelines
Upon execution, the switch is configured with the configuration information
for the new switch if any is available. The old switch configuration
information is retained; however, the original switch will be operationally
detached. This means the interfaces show as detached in show interfaces
status output and no switch type will show for the Plugged-in Model Id in the
output of the show switch command.
This command may be executed on the stack master or a standalone
unit.This command reboots the renumbered switch. After renumbering a
switch, it is important to let the master switch synchronize the NSF state
before proceeding with additional stack management operations. Use the
show nsf command to check the NSF state. If the switch shows Warm Restart
Ready as Yes, then the master switch state is synchronized with the standby
switch. Failure to observe this caution may result in the master unit
spontaneously resetting due to configuration mismatch in order to re-elect a
master unit. The range of switch numbers is 1 to maximum stack size. The
maximum stack size varies, depending on the switch model. The switch
renumber command prompt will display the valid range.
Switch Management Commands 2239
Example
The following example displays how to reconfigure switch number “1” to an
identifier of “2.”
console(config)#switch 1 renumber 2
telnet
Use the telnet command to log into a host that supports Telnet.
Syntax
telnet {ip-address | hostname} [port] [keyword1......]
• ip-address—Valid IP address of the destination host.
• hostname—Hostname of the destination host. (Range: 1–158
characters).
• port—A decimal TCP port number.
• keyword—One or more keywords from the keywords table in the user
guidelines (see
Keywords Table
below).
Keywords Table
Default Configuration
port — Telnet TCP port (decimal 23) on the host.
Command Mode
User Exec, Privileged Exec mode
Options Description
/debug Enable telnet debugging mode.
/line Enable telnet linemode.
/localecho Enable telnet localecho.
<cr> Press ENTER to execute the command.
port Enter the TCP port number.
Switch Management Commands 2240
User Guidelines
This command has no user guidelines.
Example
Following is an example of using the telnet command to connect to
176.213.10.50.
console#telnet 176.213.10.50
Trying 176.213.10.50...
Connected to 176.213.10.50
Entering character mode...
Escape character is'^^'.
traceroute
Use the traceroute command to discover the routers that packets traverse
when traveling to their destination.
Syntax
traceroute [vrf vrf-name] [ip] ipaddress|hostname [init-ttl initTtl] [max-ttl
maxTtl] [max-fail maxFail] [interval interval] [count count] [port port]
[size size][source {src-ip-address|vlan vlan-id|loopback loopback-id}]
• vrf-name—The name of the VRF associated with the routing table
context used by the command. If no vrf is specified, the global routing
table context is used.
• ipaddress—Valid IP address of the destination host.
• hostname—Hostname of the destination host. (Range: 1–158
characters). The command allows spaces in the host name when
specified in double quotes. For example, console(config)#snmp-
server host “host name”
• initTtl—The initial time-to-live (TTL); the maximum number of router
hops between the local and remote system (Range: 1–255).
• maxTtl—The largest TTL value that can be used (Range:1–255).
• maxFail—Terminate the traceroute after failing to receive a response for
this number of consecutive probes (Range: 1–255).
Switch Management Commands 2241
• interval—The timeout period. If a response is not received within this
period of time, then traceroute considers that probe a failure (printing
*) and sends the next probe. If traceroute does receive a response to a
probe, then it sends the next probe immediately. (Range: 1–60 seconds).
• count—The number of probes to be sent at each TTL level (Range:1–
10).
• port—The destination UDP port of the probe. This should be an
unused port on the remote destination system (Range: 1–65535).
• size—The size, in bytes, of the payload of the Echo Requests sent
(Range: 0–39936 bytes).
• src-ip-address—The IPv4 source address to use in the ICMP echo
request packets.
• vlan-id—A valid VLAN interface.
• loopback-id—A configured loopback ID
Default Configuration
The default count is 3 probes.
The default interval is 3 seconds.
The default size is 0 data bytes.
The default port is 33434.
The default initTtl is 1 hop.
The default maxTtl is 30 hops.
The default maxFail is 5 probes.
Command Mode
User Exec mode and Privileged Exec mode
User Guidelines
Use of the optional VRF parameter executes the command within the
context of the VRF-specific routing table.
Traceroute operates by sending a sequence of Internet Control Message
Protocol (ICMP) echo request packets. The time-to-live (TTL) value, is used
in determining the intermediate routers through which the packet flows
Switch Management Commands 2242
toward the destination address. Routers decrement a packet’s TTL value and
discard packets whose TTL equals 0. On discarding a packet, the router
returns an ICMP time exceeded message to the source.
The VRF identified in the parameter must have been previously created or an
error is returned.
Only IPv4 addresses are supported with the vrf parameter. The vrf parameter
is only available on the N3000/N3100/N4000 switches.
Loopback interfaces are not supported on the N1100-ON Series switches.
Examples
The following example discovers the routes that packets will actually take
when traveling to the destination specified in the command.
(console)# traceroute 10.240.10.115 init-ttl 1 max-ttl 4 max-fail 0 interval
1 count 3 port 33434 size 43
Traceroute to 10.240.10.115, 4 hops max, 43 byte packets:
1 10.240.4.1 708 msec 41 msec 11 msec
2 10.240.10.115 0 msec 0 msec 0 msec
Hop Count = 1 Last TTL = 2 Test attempt = 6 Test Success = 6
Command History
Syntax updated in 6.4 release.
traceroute ipv6
Use the traceroute command to discover the routers that packets traverse
when traveling to their destination.
Syntax
traceroute [ipv6] ipv6address|hostname [init-ttl initTtl] [max-ttl maxTtl]
[max-fail maxFail] [interval interval] [count count] [port port] [size
size][source {src-ip-address|vlan vlan-id|loopback loopback-id}]
• ipv6address—Valid IPv6 address of the destination host.
• hostname—Hostname of the destination host. (Range: 1–158
characters). The command allows spaces in the host name when
specified in double quotes. For example, console(config)#snmp-
server host “host name”
Switch Management Commands 2243
• initTtl—The initial time-to-live (TTL); the maximum number of router
hops between the local and remote system (Range: 1–255). the default is
1.
• maxTtl—The largest TTL value that can be used (Range:1–255). The
default is 30. This must be larger or equal to the value specified in
initTtl.
• maxFail—Terminate the traceroute after failing to receive a response for
this number of consecutive probes (Range: 1–255).
• interval—The timeout period. If a response is not received within this
period of time, then traceroute considers that probe a failure (printing
*) and sends the next probe. If traceroute does receive a response to a
probe, then it sends the next probe immediately. (Range: 1–60 seconds).
The default is 3.
• count—The number of probes to be sent at each TTL level (Range:1–
10).
• port—The destination UDP port of the probe. This should be an
unused port on the remote destination system (Range: 1–65535).
• size—The size, in bytes, of the payload of the Echo Requests sent
(Range: 0–39936 bytes). The default is 0.
• src-ip-address—The IPv4 source address to use in the ICMP echo
request packets.
• vlan-id—The source VLAN over which to send the echo request.
• loopback-id—A configured loopback ID
Default Configuration
The default count is 3 probes.
The default interval is 3 seconds.
The default size is 0 data bytes.
The default port is 33434.
The default initTtl is 1 hop.
The default maxTtl is 30 hops.
The default maxFail is 5 probes.
Switch Management Commands 2244
Command Mode
Privileged Exec mode
User Guidelines
Traceroute operates by sending a sequence of Internet Control Message
Protocol (ICMP) echo request packets. The time-to-live (TTL) value, is used
in determining the intermediate routers through which the packet flows
toward the destination address. Routers decrement a packet’s TTL value and
discard packets whose TTL equals 0. On discarding a packet, the router
returns an ICMP time exceeded message to the source. Loopback interfaces
are not supported on the N1100-ON Series switches.
Examples
The following example discovers the routes that packets will actually take
when traveling to the destination specified in the command.
(console)# traceroute ipv6 2001::2 init-ttl 1 max-ttl 4 max-fail 0 interval 1
count 3 port 33434 size 43
Traceroute to 2001::2, 4 hops max, 43 byte packets:
1 2001::2 708 msec 41 msec 11 msec
2 2001::2 12 msec 13 msec 12 msec
3 2001::2 14 msec 9 msec 11 msec
Command History
Syntax and description updated in 6.4 release.
update bootcode
Use the update bootcode command to update the bootcode on one or more
switches. For each switch, the bootcode is extracted from the active image
and programmed to flash.
Syntax
update bootcode [unit ]
• unit —Unit number.
Switch Management Commands 2245
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode
User Guidelines
It is not required to update the boot code unless directed to do so in the
release notes. Dell EMC Networking switches utilize a universal boot loader
and do not contain version specific dependencies in the boot loader. If unit is
not specified, all units in the stack are updated. This command does not
reboot the stack members after the update completes. Do not reload or power
off stack members during the update process as it may cause a switch to fail
on a subsequent boot.
Example
The following example updates the bootcode on unit 2.
console#update bootcode 2
Switch Management Commands 2246
Telnet Server Commands
The Telnet protocol (outlined in RFC 854) allows users (clients) to connect
to multiuser computers (servers) on the network. Telnet is often employed
when a user communicates with a remote login service.
Telnet is the terminal emulation protocol in the TCP/IP suite. Telnet uses
TCP as the transport protocol to initiate a connection between server and
client. After connecting, the telnet server and client enter a period of option
negotiation that determines the options each side is capable of supporting for
the connection. The connected systems can negotiate new options or
renegotiate old options at any time. In general, each end of the Telnet
connection attempts to implement all options that maximize performance
for the systems involved.
When a Telnet connection is initiated, each side of the connection is
assumed to originate and terminate at a Network Virtual Terminal, or NVT.
Therefore, the server and user hosts do not maintain information about the
characteristics of each other's terminals and terminal-handling conventions.
Telnet Client Behaviors
Different telnet clients operate differently with respect to the display of the
login banner, the MOTD banner and acknowledgments. The following
behaviors have been observed for some widely used telnet clients with a
MOTD banner configured with the following text:
If you need to utilize this device or otherwise make changes to the
configuration, you may contact the owner at x38525.
Please, be advised this unit is under test.
and a login banner configured with the following text:
Welcome to the N3024 in the Bottom Chassis - 192.168.12.190. This unit is
located in A2 and is currently under test.
Examples
1
SSH (putty):
login as: dellradius
If you need to utilize this device or otherwise make changes to the
configuration, you may contact the owner at x38525.
Please, be advised this unit is under test.
Switch Management Commands 2247
dellradius@192.168.12.84's password:
Press 'y' to continue (within 30 seconds) (y/n)
Welcome to the N3024 in the Bottom Chassis - 192.168.12.190. This unit is
located in A2 and is currently under test.
console
2
SSH (Linux Terminal):
[root ~]# ssh 192.168.12.84 -l dellradius
If you need to utilize this device or otherwise make changes to the
configuration, you may contact the owner at x38525.
Please, be advised this unit is under test.
dellradius@192.168.12.84's password:
Press 'y' to continue (within 30 seconds) (y/n)
Welcome to the N3024 in the Bottom Chassis - 192.168.12.190. This unit is
located in A2 and is currently under test.
console
3
SSH (xterm):
[root ~]# ssh 192.168.12.84 -l dellradius
If you need to utilize this device or otherwise make changes to the
configuration, you may contact the owner at x38525.
Please, be advised this unit is under test.
dellradius@192.168.12.84's password:
Press 'y' to continue (within 30 seconds) (y/n)
Welcome to the N3024 in the Bottom Chassis - 192.168.12.190. This unit is
located in A2 and is currently under test.
console
4
Telnet:
If you need to utilize this device or otherwise make changes to the
configuration, you may contact the owner at x38525.
Press 'y' to continue (within 30 seconds) (y/n) y
Please, be advised this unit is under test.
User:root
Password:******
Welcome to the N3024 in the Bottom Chassis - 192.168.12.190. This unit is
located in A2 and is currently under test.
Switch Management Commands 2248
Command History
Examples updated in 6.4 release.
Commands in this Section
This section explains the following commands:
ip telnet server disable
The ip telnet server disable command is used to enable/disable the Telnet
service on the switch.
Syntax
ip telnet server disable
no ip telnet server disable
Command Mode
Global Configuration
User Guidelines
No specific guidelines.
Default Value
This feature is enabled by default.
Dell EMC Networking N-Series switches support the Telnet service over IPv4
and IPv6.
Example
console#configure
console(config)#ip telnet server disable
console(config)# no ip telnet server disable
ip telnet server disable show ip telnet
ip telnet port
–
Switch Management Commands 2249
ip telnet port
The ip telnet port command is used to configure the Telnet TCP port
number on which the switch listens for Telnet connections.
Syntax
ip telnet port port number
• port number — Telnet TCP port number (Range: 1025–65535)
Default Configuration
The default value for the Telnet TCP port is 23.
Command Mode
Global Configuration
User Guidelines
The Telnet server TCP port should not be set to a value that might conflict
with other well-known protocol port numbers used on this switch.
UDP, TCP and RAW ports reserved by the switch and unavailable for use or
configuration are:
Ports 1, 17, 58, 255, 546, 547, 2222, 4567, 6343, 49160
Example
console(config)#ip telnet port 1045
console(config)#no ip telnet port
show ip telnet
The show ip telnet command displays the status of the Telnet server and the
Telnet TCP port number.
Syntax
show ip telnet
Default Configuration
This command has no default configuration.
Switch Management Commands 2250
Command Mode
Privileged Exec, Global Configuration mode and all Configuration submodes
Example
console#show ip telnet
Telnet Server is Enabled. Port:23
Switch Management Commands 2251
Time Ranges Commands
Time ranges are used with time-based ACLs to restrict their application due
to specific time slots.
This section explains the following commands:
time-range [name]
Use the time-range command to globally enable or disable the event
notification service of the time range component. If disabled, ACLs using
time ranges are not started.
Use the optional
name
parameter to create a time range consisting of one
absolute time entry and/or one or more periodic time entries. If a time range
by this name already exists, this command enters Time-Range Configuration
mode to allow updating the time range entries.
Use the no form of the command to disable the event notification service.
Use the no form of this command with the optional
name
parameter to delete
a time-range identified by
name
.
Syntax
time-range [
name
]
no time-range [
name
]
• name—A case-sensitive alphanumeric string from 1 to 31 characters
uniquely identifying the time range. An alpha-numeric string is defined
as consisting of only alphabetic, numeric, dash, underscore, or space
characters.
Default Configuration
Time range event notification is enabled by default.
time-range [name] periodic
absolute show time-range
Switch Management Commands 2252
Command Mode
Global Configuration
User Guidelines
The CLI mode changes to Time-Range Configuration mode when you
successfully execute this command.
Example
console(config)#time-range timeRange_1
absolute
Use the absolute command in Time Range Configuration mode to add an
absolute time entry to a time range.
Use the no form of this command to delete the absolute time entry in the
time range.
Syntax
absolute {[start
time
date
] [end
time
date
]}
no absolute
•start time date—Time and date at which the configuration that
referenced the time range is in effect. The time is expressed in a 24-hour
clock, in the form of hours:minutes. For example, 8:00 is 8:00 am and
20:00 is 8:00 pm. The date is expressed in the format day month year. If
no start time and date are specified, the configuration statement is in
effect immediately.
•end time date—Time and date at which the configuration that
referenced the time range is no longer in effect. Same time and date
format as described for the start. The end time and date must be after
the start time and date. If no end time and date are specified, the
configuration statement is in effect indefinitely.
Default Configuration
This command has no default configuration.
Switch Management Commands 2253
Command Mode
Time Range Configuration
User Guidelines
Only one absolute time entry is allowed per time-range. The time parameter
is referenced to the currently configured time zone.
Example
console#time-range timeRange_1
console(config-time-range)#absolute end 12:00 16 Dec 2010
periodic
Use the periodic command to add a periodic time entry to a time range. The
time
parameter is based off of the currently configured time zone. Use the no
form of this command to delete a periodic time entry from a time-range.
Syntax
periodic {days-of-the-week
time
} to {[days-of-the-week]
time
}
no periodic
• days-of-the-week—The first occurrence of this argument is the starting
day or days from which the configuration that referenced the time range
starts going into effect. The second occurrence is the ending day or days
from which the configuration that referenced the time range is no longer
in effect. If the end days-of-the-week are the same as the start, they can
be omitted.
This argument can be any single day or combinations of days: Monday,
Tuesday, Wednesday, Thursday, Friday, Saturday, Sunday.
Other possible values are:
– daily -- Monday through Sunday
– weekdays -- Monday through Friday
– weekend -- Saturday and Sunday
– If the ending days of the week are the same as the starting days of the
week, they can be omitted.
Switch Management Commands 2254
• time—The first occurrence of this argument is the starting
hours:minutes which the configuration that referenced the time range
starts going into effect. The second occurrence is the ending
hours:minutes at which the configuration that referenced the time range
is no longer in effect.
The hours:minutes are expressed in a 24-hour clock. For example, 8:00 is
8:00 am and 20:00 is 8:00 pm.
Default Configuration
This command has no default configuration.
Command Mode
Time Range Configuration
User Guidelines
Multiple periodic entries can exist in a time range, but periodic time entries
cannot overlap each other. Periodic time entries can also coexist with an
absolute time entry in a time range.
When both periodic and absolute time entries are specified within a time
range, the periodic time entries limit the time range to only those times
specified within the periodic time range and bounded by the absolute time
range. In this case, the absolute time entry specifies the absolute start and
end dates/times and the periodic entries specify the start/stop times within
the limits of the absolute time entry dates and times.
If a periodic time entry is added to an active time-range with an existing
absolute time entry, the absolute time entry immediately becomes inactive.
For example, an administrator applies a absolute time-range configured for a
week's work hours (08/09-08/13 9am to 6pm) and later adds multiple periodic
entries for same days configured individually (Monday, Tuesday, Wednesday,
Thursday, Friday) but with after-work hours (9pm to 11pm). The
administrator wants to permit/deny HTTP traffic for this time-range, but the
entire time-range is invalid due to conflicting entries. The absolute entry is
forced to inactive because the periodic entry time is not yet in effect.
Examples
console#time-range timeRange_2
console(config-time-range)#periodic monday 00:00 to tuesday 12:30
Switch Management Commands 2255
console(config-time-range)#periodic tuesday 13:00 to wednesday 12:00
console(config-time-range)#periodic wednesday 12:30 to thursday 20:00
console(config-time-range)#periodic weekend 18:00 to 20:00
show time-range
Use the show time-range command to display a time range and all the
absolute/periodic time entries that are defined for the time range. The
[name] parameter is used to identify a specific time range to display. When
the [name] parameter is not specified, all the time ranges defined in the
system are displayed.
Syntax
show time-range [name]
•name—A specific time range to display
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
User Guidelines
This command outputs the following.
Parameter Description
Number of Time
Ranges
Number of time ranges configured in the system.
Time Range Name Name of the time range.
Time Range Status Status of the time range (active/inactive).
Absolute start Start time and day for absolute time entry.
Absolute end End time and day for absolute time entry.
Periodic Entries Number of periodic entries in a time-range.
Switch Management Commands 2256
Examples
console#show time-range
Admin mode: Enabled
Current number of all Time Ranges: 1
Maximum number of all Time Ranges: 100
Periodic
Time Range Name Status Entry count Absolute Entry
------------------------------ -------- ----------- --------------
t1 Active 0 Does not exist
Periodic start Start time and day for periodic entry.
Periodic end End time and day for periodic entry.
Parameter Description
Switch Management Commands 2257
USB Flash Drive Commands
When available, a USB flash drive can be used to configure, upgrade and
provide consistency to a switching network. A USB flash drive can be plugged
in sequentially to a set of routers/switches to upgrade to newer software
versions without depending on the network to upgrade the switches with new
firmware. New switches can be preloaded with configuration prior to
deployment.
The USB Configuration Port provides access to an optional secondary storage
capability to the switch. A USB flash drive can be used to store and deploy
configurations and images from USB flash drive to the switch. A USB flash
drive can be used easily to move and copy configuration and image files from
one switch to other. Files from the switch can be copied to a USB flash device
and can be used to deploy on other switches in the network.
Validation of Files Downloaded/Uploaded from
USB Device
Image files are validated before downloading from the USB flash drive to the
switch. Files other than image files and scripts are copied with no validation.
Downloaded image files will be validated against the following conditions:
• File exists- Check if the file being downloaded from the USB flash drive
exists on the device.
• Valid CRC checksum.- Verify CRC for the file downloaded from the
USB flash drive to switch.
• Valid STK format - Check if the file is of type STK.
• Target device validation – Check if the file being downloaded is
compatible with the target switch.
Validation for Files Uploaded from Switch to USB
Flash Drive
• Memory insufficient -Check memory availability on the USB flash drive
to upload the file.
Switch Management Commands 2258
Files downloaded from USB flash drive are not copied to RAM to perform
validations. Instead, the file is directly read from the USB flash device and
copied to buffers to perform the necessary validations.
Downloading and Uploading of Files
After the file validations are successful, the switch proceeds with downloading
of files from the USB flash device to the switch or uploading of files from the
switch to the USB flash drive. The status of file download / upload is shown
on the console. Detailed messages are logged in the system log for further
reference.
Commands in this Section
This section explains the following commands:
unmount usb
Use the unmount usb command to make the USB flash device inactive.
Syntax
unmount usb
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec
User Guidelines
Once a flash drive has been unmounted, it must be removed and reinserted in
order to be accessed again. If a file is open on the USB, the unmount will fail.
The USB drive can be unmounted after the file operation completes.
show boot show usb
Switch Management Commands 2259
Example
console#unmount usb
Command History
Description updated in 6.4 release.
show usb
Use the show usb command to display the USB flash device details.
Syntax
show usb device
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec
User Guidelines
The following table explains the output parameters.
Parameter Description
Device Status This field specifies the current status of device.
•Active if device is plugged-in and the device is recognized by
the switch.
•Inactive if device is not mounted.
•Invalid if device is not present or invalid device is plugged-in.
Manufacturer Manufacturer details
Serial Number Serial number of the device.
USB Version
Compliance
Version of the USB device.
Class Code Device Class.
Subclass Code Device SubClass.
Switch Management Commands 2260
Example
The following example is the output if the device is plugged into the USB
slot.
console#show usb device
Device Status.................................. Active
Manufacturer................................... JetFish
Product Name................................... Mass Storage Device
Device Serial Number........................... 4JC25PTQ
Class Code..................................... 0x0000
Subclass Code.................................. 0x0000
Protocol....................................... 0x0000
Vendor ID...................................... 0x8564
Product ID..................................... 0x1000
USB Version Compliance......................... 2.0
The following example is the output if the device is not plugged into the USB
slot.
console#show usb device
USB flash device is not plugged in.
dir usb
Use the dir usb command to display the USB device contents and memory
statistics.
Syntax
dir usb [subdir]
• A subdirectory that exists on the USB flash drive. Multiple levels of sub-
directories may be specified in a single string using the forward slash (/)
path separator.
Protocol Device Protocol.
Vendor ID Vendor specific details of device- Vendor ID.
Product ID Vendor specific details of device- Product ID.
Parameter Description
Switch Management Commands 2261
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec
User Guidelines
Only the first 32 characters of the file name are displayed, even if the file
name is longer.
Examples
console#dir usb
Attr Size(bytes) Creation Time Name
drwx 2640 Feb 02 2022 00:26:43 .
drwx 0 Feb 19 2014 15:22:53 ..
-rw- 96 Jan 28 2022 23:05:45 snmpOprData.cfg
-rw- 14363703 Jan 22 2022 03:36:08 image1.stk
drwx 1024 Jan 22 2022 03:36:08 examples
Total Size: 1001914368
Bytes Used: 128319488
Bytes Free: 873594880
console#dir usb examples
Attr Size(bytes) Creation Time Name
drwx 1024 Feb 02 2022 00:26:43 .
drwx 0 Feb 19 2014 15:22:53 ..
-rw- 96 Jan 28 2022 23:05:45 examples/example.txt
Total Size: 1001914368
Bytes Used: 128319488
Bytes Free: 873594880
console#dir usb examples/..
Attr Size(bytes) Creation Time Name
drwx 2640 Feb 02 2022 00:26:43 .
drwx 0 Feb 19 2014 15:22:53 ..
-rw- 96 Jan 28 2022 23:05:45 examples/../snmpOprData.cfg
-rw- 14363703 Jan 22 2022 03:36:08 examples/../image1.stk
Switch Management Commands 2262
drwx 1024 Jan 22 2022 03:36:08 examples/../examples
Total Size: 1001914368
Bytes Used: 128319488
Bytes Free: 873594880
Switch Management Commands 2263
User Interface Commands
This section explains the following commands:
configure terminal
Use the configure terminal command to enter Global Configuration mode.
This command is equivalent to the configure command with no terminal
argument.
Syntax
configure [terminal]
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode
Example
console#conf t
console(config)#
console#configure terminal
console(config)#
do
Use the do command to execute commands available in Privileged Exec
mode from Global Configuration or any Configuration submode with
command line completion.
configure terminal end
do exit
enable quit
Switch Management Commands 2264
Syntax
do
line
do ?
• line — Command to be executed. It must be an unambiguous
command from the Privileged Exec mode. Commands such as configure
are forbidden. Command line completion for the line parameter is
supported. Users may only execute commands for which they have the
appropriate privileges.
Default Configuration
This command has no default configuration.
Command Mode
All modes except Privileged Exec and User Exec modes.
User Guidelines
Command completion using the space bar is available when using this
command.
Example #1
console>en
console#configure
console(config)#interface gi1/0/1
console(config-if-Gi1/0/1)#d?
description dhcp do
dot1x duplex
console(config-if-Gi1/0/1)#do ? ! Help from privileged Exec level
console(config-if-Gi1/0/1)#do ?
application Start or stop an application.
arp Purge a dynamic or gateway ARP entry.
boot Select a boot image for use on the next reload.
captive-portal Manage captive portal clients.
clear Clear learned configuration or statistics.
configure Enter global config mode.
connect Connect console session to another stack unit.
copy Copy files to or from the switch.
debug Configure debug flags.
delete Delete a file.
Switch Management Commands 2265
dir Display directory information.
disconnect Close remote console session(s).
dot1x Initialize dot1x or re-authenticate clients.
enable Enter into user privilege mode.
erase Delete a file.
exit Exit privileged exec mode.
filedescr Set a text description for an image file.
help Display help for various special keys.
locate Blink the locator LED.
logout Exit this session. Any unsaved changes are lost.
monitor Configure packet monitoring.
ping Send ICMP echo packets to a specified IP address.
quit Exit this session. Any unsaved changes are lost.
release Release an in-band DHCP assigned address.
reload Reload stack or a switch in the stack.
rename Rename a file.
renew Renew an in-band DHCP assigned address.
script Manage and execute configuration scripts.
show Show configured settings and operational status.
telnet Open a telnet connection to another system.
terminal Configure console session parameters.
test Test a copper port. Disable EEE modes first!
traceroute Trace route to destination.
udld Reset UDLD disabled interfaces.
unmount Flush cache and un-mount a USB device.
write Copy running configuration to startup configuration.
console(config-if-Gi1/0/1)#do a?
application arp
enable
Use the enable command in User Exec mode to enter the Privileged Exec
mode.
Syntax
enable
Default Configuration
The default privilege level is 15.
Switch Management Commands 2266
Command Mode
User Exec and Privileged Exec modes
User Guidelines
If there is no authentication method defined for enable, then a privilege level
1 user is not allowed to execute this command.
Example
The following example shows how to enter privileged mode.
console>enable
console#
end
Use the end command to return the CLI command mode back to the
privileged execution mode or user execution mode.
Syntax
end
Default Configuration
This command has no default configuration.
Command Mode
All command modes
User Guidelines
The first invocation of end from Global Configuration mode, or any
configuration submode, returns the command mode to Privileged Exec mode.
This command is equivalent to using the Ctrl-Z key press.
Example
console(config)#end
console#end
console>
Switch Management Commands 2267
exit
Use the exit command to go to the next lower command mode or, in User
Exec mode, to close an active terminal session by logging off the switch.
Syntax
exit
Default Configuration
This command has no default configuration.
Command Mode
All command modes. In User Exec mode, this command behaves identically
to the quit command.
User Guidelines
There are no user guidelines for this command.
Example
The following example changes the configuration mode from Interface
Configuration mode to User Exec mode to the login prompt.
console(config-if-Gi1/0/1)# exit
console(config)# exit
console#exit
console>exit
User:
quit
Use the quit command in User Exec mode to close an active terminal session
by logging off the switch.
Syntax
quit
Switch Management Commands 2268
Default Configuration
This command has no default configuration.
Command Mode
User Exec command mode
User Guidelines
There are no user guidelines for this command.
Example
The following example closes an active terminal session.
console>quit
Switch Management Commands 2269
Web Server Commands
If enabled, the Dell EMC Networking is manageable via industry standard
web browsers. User privilege levels are the same as for the CLI. Over 95% of
the management functions are available via the web interface, including
configuration and firmware upgrades.
Web Sessions
The HTTP protocol does not provide support for persistent connections.
Connections are constantly made and broken so there is no way to know who
is accessing the web interface or for how long they are doing so. Additionally,
with the use of basic authentication the user authorization is handled by the
client browser. This means that once entered, the user name and password are
cached in the browser and given to the server on request. Effectively, once a
user logs in to the switch, they have access until the browser closes, even
across reboots of the switch. This poses a security threat.
The Web Sessions feature makes use of cookies to control web connections,
sessions. Cookies must be enabled on the browser. The Set-Cookie directive is
sent only once at initiation of the session. With the introduction of Web
Sessions the client connections can be monitored and controlled. Web
Sessions put the authentication control in the Dell EMC Networking switch
instead of the client browser resulting in a more efficient implementation
that allows web access while using Radius or TACACS+ for authentication.
The exec-timeout command in line telnet command mode also sets the
timeout for the web interface.
The web login is implemented in the login page itself instead of a client
browser popup. Additionally, there is a logout button, always present on the
web interface. There are various commands that have been modified or added
to support Web Sessions. Similarly there are modifications to some of the
web pages. Support of SNMP configuration for Web Sessions is also available.
When the authentication method set for web login authentication is set to
TACACS+, the exec shell configuration on the TACACS+ server is used to
determine user permissions (read-only or read/ write). If the configured value
on the server is 15, the user is given read-write permissions. Any other value is
read-only. If exec shell feature is not enabled on the server, the user is given
read-only permissions.
Switch Management Commands 2270
Commands in this Section
This section explains the following commands:
common-name
Use the common-name command in Crypto Certificate Generation or
Crypto Certificate Request mode to specify the common-name for the
switch.
Syntax
common-name common-name
• common-name —Specifies the fully qualified URL or IP address of the
switch. If left unspecified, this parameter defaults to the lowest IP
address of the switch (when the certificate is generated). (Range: 1–64)
Default Configuration
This command has no default configuration.
Command Mode
Crypto Certification mode
common-name ip http secure-server
crypto certificate generate key-generate
crypto certificate import location
crypto certificate request no crypto certificate
duration organization-unit
ip http port show crypto certificate mycertificate
ip http server show ip http server status
ip http secure-certificate show ip http server secure status
ip http secure-port state
Switch Management Commands 2271
User Guidelines
This command mode is entered using the crypto certificate request or crypto
certificate generate command.
Example
The following example displays how to specify the name of “router.gm.com.”
console(config-crypto-cert)#common-name router.gm.com
country
Use the country command in Crypto Certificate Generation or Crypto
Certificate Request mode to specify the country.
Syntax
country country
• country — Specifies the country name. (Range: 2 characters)
Default Configuration
This command has no default configuration.
Command Mode
Crypto Certificate Generation or Crypto Certificate Request mode
User Guidelines
This command mode is entered using the crypto certificate request or crypto
certificate generate command. The user can enter any two printable
characters other than a question mark.
Example
The following example displays how to specify the country as “us.”
console(config-crypto-cert)#country us
Switch Management Commands 2272
crypto certificate generate
Use the crypto certificate generate command to generate a self-signed
HTTPS certificate.
Syntax
crypto certificate number generate
• number—Specifies the certificate number. (Range: 1–2)
•generate—Regenerates the SSL RSA key.
Default Configuration
This command has no default configuration.
Command Mode
Global Configuration mode
User Guidelines
This command is not saved in the router switch configuration; however, the
certificate and keys generated by this command are saved in the private
configuration. If the RSA keys do not exist, the generate parameter must be
used. The generate sub-command regenerates the RSA key pair. To save the
generated certificate and keys on the local switch and distribute the
certificate across a stack, save the configuration. Otherwise, the certificate
and keys will not be available after the next reboot.
This command generates two files:
• sslt_certN.pem
• sslt_keyN.pem
where N is the certificate number.
To use a signed certificate on the switch, perform the following steps:
• Generate the RSA and DSA keys using the crypto key generate
command for RSA followed by DSA.
• Generate a self signed certificate using the crypto key generate
command.
Switch Management Commands 2273
• Generate a certificate request using the crypto certificate request
command. This command uses the DSA keys and the self signed
certificate.
• Copy the certificate request displayed on the screen and send it to a CA.
• When the signed certificate is received, copy the signed certificate onto
the switch using the crypto certificate import command
Example
The following example generates a self-signed HTTPS certificate. This
certificate can be used to request a certificate from a signing authority.
console(config)#crypto certificate 1 generate
console(config-crypto-cert)#common-name DELL
console(config-crypto-cert)#country US
console(config-crypto-cert)#duration 3650
console(config-crypto-cert)#email no-reply@dell.com
console(config-crypto-cert)#location “Round Rock”
console(config-crypto-cert)#organization-unit “Dell Networking”
console(config-crypto-cert)#organization-name “Dell EMC, Inc.”
console(config-crypto-cert)#state TX
console(config-crypto-cert)#key-generate
console(config-crypto-cert)#exit
console(config)#crypto certificate 1 request
console(config-crypto-cert)#common-name DELL
console(config-crypto-cert)#country US
console(config-crypto-cert)#email no-replay@dell.com
console(config-crypto-cert)#location “Round Rock”
console(config-crypto-cert)#organization-unit “Dell Networking”
console(config-crypto-cert)#organization-name “Dell EMC, Inc.”
console(config-crypto-cert)#state TX
console(config-crypto-cert)#exit
-----BEGIN CERTIFICATE REQUEST-----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Switch Management Commands 2274
-----END CERTIFICATE REQUEST-----
crypto certificate import
Use the crypto certificate import command in Global Configuration mode to
import a certificate signed by the Certification Authority for HTTPS.
Syntax
crypto certificate number import
• number — Specifies the certificate number. (Range: 1–2)
Default Configuration
This command has no default configuration.
Command Mode
Global Configuration mode
User Guidelines
Use this command to enter an external certificate (signed by the Certification
Authority) to the switch. To end the session, add a period (.) on a separate
line after the input, and press ENTER.
The imported certificate must be based on a certificate request created by the
crypto certificate request Privileged Exec command.
If the public key found in the certificate does not match the switch's SSL RSA
key, the command fails.
Regenerating the RSA key will render existing certificates invalid.
Certificates are validated on input. The system log will show any encountered
certificate errors such as invalid format or if the certificate could not be
validated against the switch private key. Invalid certificates are not imported.
The signed certificate must contain the switch public key and match the RSA
key on the switch and must be in X509 PEM text format.
This command is not saved in the router configuration; however, the
certificate imported by this command is saved in the private configuration.
Certificates are propagated across the stack.
Switch Management Commands 2275
Example
The following example imports a certificate signed by the Certification
Authority for HTTPS.
console(config)#crypto certificate 1 import
Please paste the input now, add a period (.) on a separate line after the
input, and press Enter.
-----BEGIN CERTIFICATE-----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-----END CERTIFICATE-----
.
Certificate imported successfully
console(config)#show crypto certificate mycertificate 1
-----BEGIN CERTIFICATE-----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 Management Commands 2276
BYY2a2YOtjoGcY7sBiEPJQbji+U9W7xCjz1q/Un8YRshdW/7dNmTwFTh55S2QmXV
RN/UVjShWRmMn0vbiyyzHaKAON+9fBt3rMQCYiRyEuWISb31/3SlWY9iQJezwoOh
ZX9DEgnxvzUjLMoYVRhqCE0+LoBWikhy6ROS+b4cubJpzTdv2n+zY8dbM9jSwiky
6rFhVznvamGap8Aw0rUnEvU5kM9MM0hsVU95H+QzWJwychy9Fhh1zhYzNTpr+VQs
c4psyXEd8GE=
-----END CERTIFICATE-----
Issued by: Dell Networking
Valid from to Oct 22 17:46:02 2017 GMT
Subject: /CN=DELL/OU=Dell Networking/L=Round Rock/ST=TX/C=US/emailAddress=
no-reply@dell.com
Fingerprint: FA06E0DD138FA22A4D696A80171FF3D8
crypto certificate request
Use the crypto certificate request command to generate and display a
certificate request for HTTPS. This command takes you to Crypto Certificate
Request mode.
Syntax
crypto certificate number request
• number — Specifies the certificate number. (Range: 1–2)
Default Configuration
This command has no default configuration.
Command Mode
Privileged Exec mode
User Guidelines
Use this command to generate a certificate request to send to a Certification
Authority. The certificate request is generated in Base64-encoded X.509
format.
Before generating a certificate request, you must first generate a self-signed
certificate using the crypto certificate generate command in Global
Configuration mode in order to sign the certificate request. Make sure to
reenter the identical values in the certificate request fields as were entered in
the self-signed certificate generated by the crypto certificate generate
command.
Switch Management Commands 2277
After receiving the certificate from the Certification Authority, use the crypto
certificate import command in Global Configuration mode to import the
certificate into the switch. This certificate replaces the self-signed certificate.
Use the
end
command to exit Crypto Certificate Request mode without
generating a certificate request. Use the
exit
command to exit Crypto
Certificate Request mode and generate a certificate request.
Example
console(config)#crypto certificate 1 request
console(config-crypto-cert)#common-name DELL
console(config-crypto-cert)#country US
console(config-crypto-cert)#email no-reply@dell.com
console(config-crypto-cert)#location “Round Rock”
console(config-crypto-cert)#organization-name “Dell EMC”
console(config-crypto-cert)#organization-unit “Dell Networking”
console(config-crypto-cert)#state TX
console(config-crypto-cert)#exit
-----BEGIN CERTIFICATE REQUEST-----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-----END CERTIFICATE REQUEST-----
duration
Use the duration command in Crypto Certificate Generation mode to specify
the duration of certificate validity.
Syntax
duration days
• days — Specifies the number of days a certification would be valid. If
left unspecified, the parameter defaults to 365 days. (Range: 30–3650
days)
Switch Management Commands 2278
Default Configuration
This command defaults to 365 days.
Command Mode
Crypto Certificate Generation mode
User Guidelines
This command mode is entered using the crypto certificate generate
command.
Example
The following example displays how specify that a certification is valid for a
duration of 50 days.
console(config-crypto-cert)#duration 50
ip http port
Use the ip http port command to specify the TCP port on which the switch
listens for HTTP connections. To use the default TCP port, use the no form
of this command.
Syntax
ip http port port-number
no ip http port
• port-number — Port number on which the switch HTTP server listens
for connections. (Range: 1025–65535)
Default Configuration
This default port number is 80.
Command Mode
Global Configuration mode
Switch Management Commands 2279
User Guidelines
The HTTP TCP port should not be set to a value that might conflict with
other well-known protocol port numbers used on this switch.
Example
The following example shows how the http port number is configured to
10013.
console(config)#ip http port 10013
ip http server
Use the ip http server command to enable the switch to allow HTTP access
to the switch. To disable this function use the no form of this command.
Syntax
ip http server
no ip http server
Default Configuration
The default mode is enabled.
Command Mode
Global Configuration mode
User Guidelines
This command enables HTTP access to the switch. Use the ip http secure-
server command to enable HTTPS access. It is recommended that
administrators enable HTTPS access in preference to HTTP access in order
to ensure that management activity is not snooped.
Example
The following example enables the switch to be configured from a browser.
console(config)#ip http server
Switch Management Commands 2280
ip http secure-certificate
Use the ip http secure-certificate command to configure the active certificate
for HTTPS. To return to the default setting, use the no form of this
command.
Syntax
ip http secure-certificate number
no ip http secure-certificate
• number—Specifies the certificate number. (Range: 1–2)
Default Configuration
The default value of the certificate number is 1.
Command Mode
Global Configuration mode
User Guidelines
The HTTPS certificate is imported using the crypto certificate import
command in Global Configuration mode.
Example
The following example configures the active certificate for HTTPS.
console(config)#ip http secure-certificate 1
ip http secure-port
Use the ip http secure-port command to configure a TCP port on which the
switch listens for HTTPS connections. To use the default port, use the no
form of this command.
Syntax
ip http secure-port port-number
no ip http secure-port
Switch Management Commands 2281
• port-number— Port number for use by the secure HTTP server. (Range:
1025–65535)
Default Configuration
This default port number is 443.
Command Mode
Global Configuration mode
User Guidelines
The HTTPS TCP port should not be set to a value that might conflict with
other well known protocol port numbers used on this switch. It is not possible
for the administrator to directly configure the port number to 443 as 443 is
out of range. Use the no form of the command to set the port number to the
default value of 443.
Example
The following example configures the HTTPS port number to 4545.
console(config)#ip http secure–port 4545
ip http secure-server
Use the ip http secure-server command to enable the switch to be accessed
via HTTPS clients. To disable HTTPS access, use the no form of this
command.
Syntax
ip http secure-server
no ip http secure-server
Default Configuration
The default for the switch is disabled.
Command Mode
Global Configuration mode
Switch Management Commands 2282
User Guidelines
The switch must be configured with RSA and DSA keys (crypto key generate)
prior to enabling the HTTP server. Optionally, the switch may be provisioned
with up to two signed certificates.
Dell EMC Networking N-Series switches support HTTPS over IPv4 and IPv6.
Example
The following example enables the switch to be configured from a browser
using HTTPS.
console(config)#ip http secure-server
key-generate
Use the key-generate command in Crypto Certificate Generation mode to
generate a new RSA key prior to generating the certificate key. The certificate
generated by a crypto certificate generate command is not a signed certificate
and is used to generate a certificate signing request. Once a signed certificate
is received, download the certificate to the switch.
Syntax
key-generate [length]
• length — Specifies the length of the SSL RSA key. If left unspecified,
this parameter defaults to 1024. (Range: 512–2048)
Default Configuration
By default, the certificate generation process will utilize existing RSA keys.
Command Mode
Crypto Certificate Generation mode
User Guidelines
This command mode is entered using the crypto certificate request
command. You must use the
key-generate
command prior to exiting the
crypto certificate request mode to properly generate a certificate request. All
Switch Management Commands 2283
of the
common-name
,
country
,
location
,
state
,
organization-unit
, and
logging
email
commands must be issued prior to executing the
key-generate
command.
Example
The following example displays how to specify that you want to regenerate
the SSL RSA key 1024 byes in length.
console(config-crypto-cert)#key-generate 1024
location
Use the location command in Crypto Certificate Generation or Crypto
Certificate Request mode to specify the location or city name.
Syntax
location location
• location — Specifies the location or city name. (Range: 1–64 characters)
Default Configuration
This command has no default configuration.
Command Mode
Crypto Certificate Generation or Crypto Certificate Request mode
User Guidelines
This command mode is entered using the crypto certificate request or crypto
certificate generate command.
Example
The following example displays how to specify the city location of “austin.”
console(config-crypto-cert)#location austin
no crypto certificate
Use the no crypto certificate command to delete a certificate.
Switch Management Commands 2284
Syntax
no crypto certificate { openflow | number }
•number— The number of the SSH certificate to remove(between 1 to
2).
•openflow—Remove the openflow certificate and associated
information.
Default Configuration
This command has no default configuration.
Command Mode
Global Configuration mode
User Guidelines
The no crypto certificate openflow command erases the Certificate
Authority certificates used for validating the OpenFlow Controllers from the
switch. Issuing this command automatically disables and re-enables the
OpenFlow feature. New SSL certificates may be reloaded from the OpenFlow
Controller or may be manually loaded with the copy command.
Example
The following example removes the OpenFlow certificates from the switch
and resets the OpenFlow feature.
console(config)#no crypto certificate openflow
organization-unit
Use the organization-unit command in Crypto Certificate Generation or
Crypto Certificate Request mode to specify the organization unit.
Syntax
organization-unit organization-unit
• organization-unit — Specifies the organization-unit or department
name. (Range: 1–64 characters)
Switch Management Commands 2285
Default Configuration
This command has no default configuration.
Command Mode
Crypto Certificate Generation or Crypto Certificate Request mode
User Guidelines
This command mode is entered using the crypto certificate request or crypto
certificate generate command.
Example
The following example displays how to specify the Dell EMC Networking
organization-unit.
console(config-crypto-cert)#organization-unit “Dell EMC Networking“
show crypto certificate mycertificate
Use the show crypto certificate mycertificate command to view the SSL
certificates of your switch.
Syntax
show crypto certificate mycertificate [number]
•number — Specifies the certificate number. (Range: 1–2 digits)
Default configuration
This command has no default configuration.
Command Mode
Privileged Exec mode, Global Configuration mode and all Configuration
submodes
Example
The following example displays the SSL certificate of a sample switch.
console(config)#show crypto certificate mycertificate 1
Switch Management Commands 2286
-----BEGIN CERTIFICATE-----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-----END CERTIFICATE-----
Issued by: Dell Networking
Valid from to Oct 22 17:46:02 2017 GMT
Subject: /CN=DELL/OU=Dell Networking/L=Round Rock/ST=TX/C=US/emailAddress=
no-reply@dell.com
Fingerprint: FA06E0DD138FA22A4D696A80171FF3D8
show ip http server status
Use the show ip http server command to display the HTTP server status
information.
Syntax
show ip http server status
Default Configuration
This command has no default configuration.
Command Mode
User Exec mode, Privileged Exec mode, Global Configuration mode and all
Configuration submodes
Switch Management Commands 2287
User Guidelines
This command has no user guidelines.
Example
The following example displays the HTTP server configuration.
console#show ip http server status
HTTP server enabled. Port: 80
show ip http server secure status
Use the show ip http server secure status command to display the HTTP
secure server status information.
Syntax
show ip http server secure status
Default Configuration
This command has no default configuration.
Command Mode
User Exec mode, Privileged Exec mode, Global Configuration mode and all
Configuration submodes
User Guidelines
This command has no user guidelines.
Example
The following example displays an HTTPS server configuration with DH Key
exchange enabled.
console#show ip http server secure status
HTTPS server enabled. Port: 443
DH Key exchange enabled.
Certificate 1 is active
Issued by: www.verisign.com
Valid from: 8/9/2003 to 8/9/2004
Subject: CN= router.gm.com, 0= General Motors, C= US
Finger print: DC789788 DC88A988 127897BC BB789788
Switch Management Commands 2288
Subject: /CN=DELL/OU=Dell Networking/L=Round Rock/ST=TX/C=US/emailAddress=
no-reply@dell.com
Finger print: 1873B936 88DC3411 BC8932EF 782134BA
The following example displays the HTTPS server configuration with DH Key
exchange disabled.
console(config)#show ip http server secure status
HTTPS Server is Disabled. Port : 443
DH Key exchange disabled. Parameters are being generated.
Certificate 1 is active.
Issued by: Dell Networking
Valid from to Oct 22 17:46:02 2017 GMT
Subject: /CN=DELL/OU=Dell Networking/L=Round Rock/ST=TX/C=US/emailAddress=
no-reply@dell.com
Fingerprint: FA06E0DD138FA22A4D696A80171FF3D8
state
Use the state command in Crypto Certificate Generation or Crypto
Certificate Request mode to specify the state or province name.
Syntax
state state
• state — Specifies the state or province name. (Range: 1–64 characters)
Default Configuration
This command has no default configuration.
Command Mode
Crypto Certificate Generation or Crypto Certificate Request mode
User Guidelines
This command mode is entered using the crypto certificate request or crypto
certificate generate command.
Example
The following example shows how to specify the state of “TX.”
console(config-crypto-cert)#state TX
Appendix A: List of Commands
A
aaa accounting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 844
aaa authentication dot1x default . . . . . . . . . . . . . . . . . . . . . . . . . . . . 847
aaa authentication enable . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 848
aaa authentication login . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 850
aaa authorization . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 852
aaa authorization network default radius . . . . . . . . . . . . . . . . . . . . . . 855
aaa ias-user username . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 856
aaa new-model . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 857
aaa server radius dynamic-author . . . . . . . . . . . . . . . . . . . . . . . . . . . . 857
absolute . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2252
accounting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1972
acct-port . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 908
action . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 544
add . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 546
address-family . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1216
address-family ipv4 vrf . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1218
address-family ipv6 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1219
address-family vpnv4 unicast . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1219
admin-profile . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 884
aggregate-address . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1221
application install . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1824
application start . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1825
application stop . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1826
area default-cost (Router OSPF) . . . . . . . . . . . . . . . . . . . . . . . . . . . 1626
area default-cost (Router OSPFv3) . . . . . . . . . . . . . . . . . . . . . . . . . 1714
area nssa (Router OSPF) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1627
area nssa (Router OSPFv3) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1715
area nssa default-info-originate (Router OSPF Config) . . . . . . . . . 1629
area nssa default-info-originate (Router OSPFv3 Config) . . . . . . . 1716
area nssa no-redistribute . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1630, 1717
area nssa no-summary . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1630, 1718
area nssa translator-role . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1631, 1719
area nssa translator-stab-intv . . . . . . . . . . . . . . . . . . . . . . . . . . 1632, 1720
area range (Router OSPF) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1633
area range (Router OSPFv3) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1721
area stub . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1635, 1722
area stub no-summary . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1636, 1723
area virtual-link . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1637, 1723
area virtual-link authentication . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1639
area virtual-link dead-interval . . . . . . . . . . . . . . . . . . . . . . . . . 1641, 1725
area virtual-link hello-interval . . . . . . . . . . . . . . . . . . . . . . . . . 1642, 1726
area virtual-link retransmit-interval . . . . . . . . . . . . . . . . . . . . 1643, 1727
area virtual-link transmit-delay . . . . . . . . . . . . . . . . . . . . . . . . 1644, 1728
arp . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1189
arp access-list . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 371
arp cachesize . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1191
arp dynamicrenew . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1192
arp purge . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1193
arp resptime . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1194
arp retries . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1195
arp timeout . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1195
asset-tag . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2158
assign-queue . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 661
attribute 25 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 911
attribute 31 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 911
attribute 6 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 909
attribute 8 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 910
authentication enable . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 859
authentication event fail retry . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 913
authentication order . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 860
authentication priority . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 861
authentication restart . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 862
authentication timeout . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 992
authorization . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1973
auth-port . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 914
auth-type . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 969
auto-cost . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1644
auto-summary . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1776
B
bandwidth . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1645
banner exec . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2159
banner login . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2159
banner motd . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2160
banner motd acknowledge . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2161
bfd . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1646
bfd echo . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1202
bfd interval . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1203
bfd slow-timer . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1205
bgp aggregate-different-meds (BGP Router Configuration) . . . . . . 1222
bgp aggregate-different-meds (IPv6 Address Family Configuration) 1223
bgp always-compare-med . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1224
bgp client-to-client reflection (BGP Router Configuration) . . . . . . 1225
bgp client-to-client reflection (IPv6 Address Family Configuration) 1226
bgp cluster-id . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1227
bgp default local-preference . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1228
bgp fast-external-fallover . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1229
bgp fast-internal-fallover . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1230
bgp listen . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1231
bgp log-neighbor-changes . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1233
bgp maxas-limit . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1233
bgp router-id . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1234
block . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 997
boot auto-copy-sw . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1830
boot auto-copy-sw allow-downgrade . . . . . . . . . . . . . . . . . . . . . . . . . 1831
boot host auto-reboot . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1832
boot host auto-save . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1832
boot host dhcp . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1833
boot host retry-count . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1834
boot system . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1868
bootfile . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1898
bootpdhcprelay maxhopcount . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1446
bootpdhcprelay minwaittime . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1447
buffers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2163
C
capability opaque . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1647
captive-portal . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 992
captive-portal client deauthenticate . . . . . . . . . . . . . . . . . . . . . . . . . 1005
channel-group . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 622
class . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 662
class-map . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 663
class-map rename . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 663
classofservice dot1p-mapping . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 664
classofservice ip-dscp-mapping . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 665
classofservice traffic-class-group . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1148
classofservice trust . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 669
clear (IAS) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 862
clear arp-cache . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1196
clear arp-cache management . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1197
clear authentication authentication-history . . . . . . . . . . . . . . . . . . . . 864
clear authentication statistics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 863
clear captive-portal users . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1009
clear checkpoint statistics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2165
clear config . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1869
clear counters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 383
clear counters stack-ports . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2165
clear dhcp l2relay statistics interface . . . . . . . . . . . . . . . . . . . . . . . . . 335
clear dot1as statistics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1109
clear dot1x authentication–history . . . . . . . . . . . . . . . . . . . . . . . . . . . 984
clear gmrp statistics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 455
clear green-mode statistics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 444
clear gvrp statistics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 457
clear host . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1948
clear ip address-conflict-detect . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1948
clear ip arp inspection statistics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 372
clear ip bgp . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1235
clear ip bgp counters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1237
clear ip community-list . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1407
clear ip dhcp binding . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1898
clear ip dhcp conflict . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1899
clear ip dhcp snooping binding . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 338
clear ip dhcp snooping statistics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 339
clear ip helper statistics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1448
clear ip mroute . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1569
clear ip ospf . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1648
clear ip ospf configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1649
clear ip ospf stub-router . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1649
clear ip prefix-list . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1405
clear ipv6 dhcp . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1922
clear ipv6 dhcp snooping binding . . . . . . . . . . . . . . . . . . . . . . . . . . . . 352
clear ipv6 neighbors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1512
clear ipv6 prefix-list . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1406
clear ipv6 statistics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1513
clear isdp counters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 315
clear isdp table . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 316
clear lldp remote-data . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 550
clear lldp statistics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 551
clear logging . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2133
clear logging email statistics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 898
clear logging file . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2134
clear mac address-table . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 288
clear mmrp statistics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1076
clear msrp statistics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1090
clear mvrp statistics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1083
clear power inline statistics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2001
clear priority-flow-control statistics . . . . . . . . . . . . . . . . . . . . . . . . . 1182
clear spanning-tree detected-protocols . . . . . . . . . . . . . . . . . . . . . . . . 729
clear vpc statistics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 580
client . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 970
client-identifier . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1900
client-name . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1900
clock set . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1856
clock summer-time date . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1859
clock summer-time recurring . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1858
clock timezone hours-offset . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1856
common-name . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2270
compatible rfc1583 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1650
configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 997
conform-color . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 670
connect . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2166
contact-company . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2121
contact-person . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2122
controller . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1160
copy . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1869
cos-queue min-bandwidth . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 672
cos-queue random-detect . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 673
cos-queue strict . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 676
country . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2271
crypto certificate generate . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2272
crypto certificate import . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2274
crypto certificate request . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2276
crypto key generate dsa . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1063
crypto key generate rsa . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1064
crypto key pubkey-chain ssh . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1065
crypto key zeroize {rsa|dsa} . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1067
crypto key zeroize pubkey-chain . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1066
cut-through mode . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2167
D
datacenter-bridging . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1138
dcb enable . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 552
deadtime . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 915
debug aaa accounting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2026
debug arp . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2027
debug authentication interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2028
debug auto-voip . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2029
debug bfd . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2029
debug cfm . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2030
debug clear . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2031
debug console . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2032
debug crashlog . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2032
debug dhcp packet . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2035
debug dhcp server packet . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2036
debug dot1ag . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2037
debug dot1x . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2038
debug igmpsnooping . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2039
debug ip acl . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2040
debug ip dvmrp . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2042
debug ip igmp . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2043
debug ip mcache . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2044
debug ip pimdm packet . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2044
debug ip pimsm packet . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2045
debug ipv6 dhcp . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2046
debug ipv6 mcache . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2047
debug ipv6 mld . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2047
debug ipv6 pimdm . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2048
debug ipv6 pimsm . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2049
debug isdp . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2050
debug lacp . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2051
debug mldsnooping . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2051
debug ospf . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2052
debug ospfv3 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2053
debug ping . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2054
debug rip . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2055
debug sflow . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2055
debug spanning-tree . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2056
debug udld . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2057
debug vpc . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 581
debug vrrp . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2059
default metric (BGP Router Configuration) . . . . . . . . . . . . . . . . . . 1239
default metric (IPv6 Address Family Configuration) . . . . . . . . . . . 1240
default-information originate (BGP Router Configuration) . . . . . . 1237
default-information originate (IPv6 Address Family Configuration) 1238
default-information originate (Router OSPF Configuration) . . . . 1650
default-information originate (Router OSPFv3 Configuration) . . . 1728
default-information originate (Router RIP Configuration) . . . . . . 1777
default-metric . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1652, 1729, 1778
default-router . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1901
delete . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1879
delete backup-config . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1879
deny (management) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1037
deny | permit (IP ACL) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 264
deny | permit (IPv6 ACL) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 498
deny | permit (Mac-Access-List-Configuration) . . . . . . . . . . . . . . . . 270
depends-on . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 546
description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 384, 1802
description (Administrative Profile Config) . . . . . . . . . . . . . . . . . . . . 885
description (Logging) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2135
dhcp l2relay (Global Configuration) . . . . . . . . . . . . . . . . . . . . . . . . . 326
dhcp l2relay (Interface Configuration) . . . . . . . . . . . . . . . . . . . . . . . . 326
dhcp l2relay circuit-id . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 327
dhcp l2relay remote-id . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 328
dhcp l2relay trust . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 328
dhcp l2relay vlan . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 329
diffserv . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 677
dir . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1879
dir usb . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2260
disconnect . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2168
distance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1241
distance bgp (BGP Router Configuration) . . . . . . . . . . . . . . . . . . . . 1242
distance bgp (IPv6 Address Family Configuration) . . . . . . . . . . . . . 1243
distance ospf . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1652, 1730
distance rip . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1779
distribute-list out . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1653, 1779
distribute-list prefix in . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1245
distribute-list prefix out (BGP Router Configuration mode) . . . . . 1245
distribute-list prefix out (IPv6 Address Family Configuration) . . . 1246
dns-server (IP DHCP Pool Config) . . . . . . . . . . . . . . . . . . . . . . . . . 1902
dns-server (IPv6 DHCP Pool Config) . . . . . . . . . . . . . . . . . . . . . . . . 1923
do . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2263
domain-name (IP DHCP Pool Config) . . . . . . . . . . . . . . . . . . . . . . 1903
domain-name (IPv6 DHCP Pool Config) . . . . . . . . . . . . . . . . . . . . 1923
dos-control firstfrag . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1023
dos-control icmp . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1023
dos-control l4port . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1024
dos-control sipdip . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1025
dos-control tcpflag . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1026
dos-control tcpfrag . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1026
dot1as (Global Configuration) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1110
dot1as (Interface Configuration) . . . . . . . . . . . . . . . . . . . . . . . . . . . 1111
dot1as interval announce . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1113
dot1as interval pdelay . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1116
dot1as interval pdelay-loss . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1121
dot1as interval sync . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1115
dot1as pdelay-threshold . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1120
dot1as priority . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1112
dot1as timeout announce . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1117
dot1as timeout sync . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1119
dot1x dynamic-vlan enable . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 955
dot1x guest-vlan . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 985
dot1x initialize . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 956
dot1x mac-auth-bypass . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 957
dot1x max-req . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 958
dot1x max-users . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 959
dot1x port-control . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 959
dot1x re-authenticate . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 961
dot1x reauthentication . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 962
dot1x system-auth-control . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 962
dot1x system-auth-control monitor . . . . . . . . . . . . . . . . . . . . . . . . . . 963
dot1x timeout guest-vlan-period . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 986
dot1x timeout quiet-period . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 964
dot1x timeout re-authperiod . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 965
dot1x timeout server-timeout . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 966
dot1x timeout tx-period . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 968
dot1x unauth-vlan . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 987
drop . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 678
duplex . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 385
duration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2277
E
enable . . . . . . . . . . . . . . . 993, 998, 1247, 1654, 1731, 1780, 1941, 2265
enable authentication . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1974
enable password . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 864
enable password encrypted . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1059
encapsulation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1464
end . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2266
erase . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1880
errdisable recovery cause . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 489
errdisable recovery interval . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 491
ethernet cfm cc level . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 426
ethernet cfm domain . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 425
ethernet cfm mep active . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 429
ethernet cfm mep archive-hold-time . . . . . . . . . . . . . . . . . . . . . . . . . 429
ethernet cfm mep enable . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 428
ethernet cfm mep level . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 427
ethernet cfm mip level . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 430
eula-consent . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1938, 2119
exception core-file . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2059
exception dump . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2060
exception protocol . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2062
exception switch-chip-register . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2065
exec-banner . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1975
exec-timeout . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1976
exit . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2169, 2267
exit (mst) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 730
exit-overflow-interval . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1655, 1732
external-lsdb-limit . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1656, 1733
F
feature bfd . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1201
feature vpc . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 581
filedescr . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1881
flowcontrol . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 386
G
garp timer . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 458
gmrp enable . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 454
green-mode eee . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 442
green-mode eee-lpi-history . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 444
green-mode energy-detect . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 441
group . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 999
gvrp enable (global) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 459
gvrp enable (interface) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 460
gvrp registration-forbid . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 461
gvrp vlan-creation-forbid . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 462
H
hardware profile openflow . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1162
hardware profile portmode . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2170
hardware-address . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1903
hashing-mode . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 625
history . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1977
history size . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1977
hiveagent . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1939
host . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1904
hostname . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2171
hostroutesaccept . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1781
http port . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 994
https port . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 994
I
ignore . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 972
initiate failover . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2172
instance (mst) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 730
interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 387, 999
interface loopback . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1565
interface port-channel . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 623
interface range . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 388
interface range port-channel . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 624
interface range vlan . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 791
interface tunnel . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1791
interface vlan . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 790
ip access-group . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 273
ip access-list . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 263
ip address . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1464
ip address (Out-of-Band) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1951
ip address dhcp (Interface Config) . . . . . . . . . . . . . . . . . . . . . . . . . . 1953
ip address-conflict-detect run . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1952
ip arp inspection filter . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 373
ip arp inspection limit . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 373
ip arp inspection trust . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 374
ip arp inspection validate . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 375
ip arp inspection vlan . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 376
ip as-path access-list . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1248, 1385
ip bgp fast-external-fallover . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1251
ip bgp-community new-format . . . . . . . . . . . . . . . . . . . . . . . . 1251, 1387
ip community-list . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1252, 1388
ip default-gateway . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1954
ip dhcp bootp automatic . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1905
ip dhcp conflict logging . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1906
ip dhcp excluded-address . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1906
ip dhcp ping packets . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1907
ip dhcp pool . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1895
ip dhcp relay information check . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1448
ip dhcp relay information check-reply . . . . . . . . . . . . . . . . . . . . . . . 1449
ip dhcp relay information option . . . . . . . . . . . . . . . . . . . . . . . . . . . 1450
ip dhcp relay information option-insert . . . . . . . . . . . . . . . . . . . . . . 1451
ip dhcp snooping . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 339
ip dhcp snooping binding . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 340
ip dhcp snooping database . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 341
ip dhcp snooping database write-delay . . . . . . . . . . . . . . . . . . . . . . . . 342
ip dhcp snooping limit . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 343
ip dhcp snooping log-invalid . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 344
ip dhcp snooping trust . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 345
ip dhcp snooping verify mac-address . . . . . . . . . . . . . . . . . . . . . . . . . 346
ip domain-lookup . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1956
ip domain-name . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1956
ip dvmrp . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1415
ip dvmrp metric . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1416
ip extcommunity-list . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1254
ip helper enable . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1456
ip helper-address (global configuration) . . . . . . . . . . . . . . . . . . . . . . 1452
ip helper-address (interface configuration) . . . . . . . . . . . . . . . . . . . 1454
ip host . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1957
ip http authentication . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 865
ip http port . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2278
ip http secure-certificate . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2280
ip http secure-port . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2280
ip http secure-server . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2281
ip http server . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2279
ip http timeout policy . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2065
ip https authentication . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 866
ip icmp echo-reply . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1464
ip icmp error-interval . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1465
ip igmp last-member-query-count . . . . . . . . . . . . . . . . . . . . . . . . . . 1423
ip igmp last-member-query-interval . . . . . . . . . . . . . . . . . . . . . . . . . 1424
ip igmp mroute-proxy . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1425
ip igmp proxy-service . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1436
ip igmp proxy-service reset-status . . . . . . . . . . . . . . . . . . . . . . . . . . . 1437
ip igmp proxy-service unsolicited-report-interval . . . . . . . . . . . . . . 1438
ip igmp query-interval . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1426
ip igmp query-max-response-time . . . . . . . . . . . . . . . . . . . . . . . . . . 1427
ip igmp robustness . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1428
ip igmp snooping (global) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 468
ip igmp snooping (VLAN) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 470
ip igmp snooping querier . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 480
ip igmp snooping querier election participate . . . . . . . . . . . . . . . . . . 482
ip igmp snooping querier query-interval . . . . . . . . . . . . . . . . . . . . . . . 483
ip igmp snooping querier timer expiry . . . . . . . . . . . . . . . . . . . . . . . . 484
ip igmp snooping querier version . . . . . . . . . . . . . . . . . . . . . . . . . . . . 485
ip igmp snooping report-suppression . . . . . . . . . . . . . . . . . . . . . . . . . 476
ip igmp snooping unregistered floodall . . . . . . . . . . . . . . . . . . . . . . . 477
ip igmp snooping vlan groupmembership-interval . . . . . . . . . . . . . . 474
ip igmp snooping vlan immediate-leave . . . . . . . . . . . . . . . . . . . . . . . 473
ip igmp snooping vlan last-member-query-interval . . . . . . . . . . . . . . 475
ip igmp snooping vlan mcrtrexpiretime . . . . . . . . . . . . . . . . . . . . . . . 476
ip igmp snooping vlan mrouter . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 478
ip igmp startup-query-count . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1428
ip igmp startup-query-interval . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1429
ip igmp version . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1430
ip irdp . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1768
ip irdp holdtime . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1770
ip irdp maxadvertinterval . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1771
ip irdp minadvertinterval . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1772
ip irdp multicast . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1773
ip irdp preference . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1773
ip local-proxy-arp . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1198
ip mroute . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1571
ip multicast boundary . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1571
ip multicast ttl-threshold . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1574
ip multicast-routing . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1572
ip name-server . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1958
ip name-server source-interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1959
ip netdirbcast . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1466
ip ospf area . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1657
ip ospf authentication . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1658
ip ospf bfd . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1206
ip ospf cost . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1659
ip ospf database-filter all out . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1659
ip ospf dead-interval . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1660
ip ospf hello-interval . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1661
ip ospf mtu-ignore . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1661
ip ospf network . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1662
ip ospf priority . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1663
ip ospf retransmit-interval . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1664
ip ospf transmit-delay . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1665
ip pim . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1574
ip pim bsr-border . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1575
ip pim bsr-candidate . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1576
ip pim dense-mode . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1577
ip pim dr-priority . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1578
ip pim hello-interval . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1578
ip pim join-prune-interval . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1579
ip pim rp-address . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1580
ip pim rp-candidate . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1581
ip pim sparse-mode . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1581
ip pim ssm . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1582
ip policy route-map . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1467
ip prefix-list . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1389
ip prefix-list description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1391
ip proxy-arp . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1198
ip redirects . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1469
ip rip . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1782
ip rip authentication . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1782
ip rip receive version . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1783
ip rip send version . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1784
ip route . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1469
ip route default . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1474
ip route distance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1476
ip routing . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1477
ip ssh port . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1068
ip ssh pubkey-auth . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1069
ip ssh server . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1070
ip telnet port . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2249
ip telnet server disable . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2248
ip unnumbered . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1478
ip unreachables . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1480
ip verify binding . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 530
ip verify source . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 528
ip vrf forwarding . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1800
ip vrrp . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1808
ipv4 address . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1163
ipv6 access-list . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 504
ipv6 access-list rename . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 505
ipv6 address . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1514
ipv6 address (Interface Config) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1960
ipv6 address (OOB Port) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1962
ipv6 address dhcp . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1963
ipv6 dhcp pool . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1924
ipv6 dhcp relay . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1925
ipv6 dhcp server . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1926
ipv6 dhcp snooping log-invalid . . . . . . . . . . . . . . . . . . . . 359, 1414, 1937
ipv6 dhcp snooping trust . . . . . . . . . . . . . . . . . . . . . . . . . 360, 1414, 1937
ipv6 dhcp snooping verify mac-address . . . . . . . . . . . . . 360, 1414, 1937
ipv6 enable . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1515
ipv6 enable (Interface Config) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1964
ipv6 enable (OOB Config) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1965
ipv6 gateway (OOB Config) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1965
ipv6 hop-limit . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1516
ipv6 host . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1516
ipv6 icmp error-interval . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1029
IPv6 Limitations & Restrictions . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1511
ipv6 mld host-proxy . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1519
ipv6 mld host-proxy reset-status . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1520
ipv6 mld host-proxy unsolicit-rprt-interval . . . . . . . . . . . . . . . . . . . 1521
ipv6 mld last-member-query-count . . . . . . . . . . . . . . . . . . . . . . . . . 1518
ipv6 mld last-member-query-interval . . . . . . . . . . . . . . . . . . . . . . . . 1519
ipv6 mld query-interval . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1521
ipv6 mld query-max-response-time . . . . . . . . . . . . . . . . . . . . . . . . . 1522
ipv6 mld snooping (Global) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 515
ipv6 mld snooping listener-message-suppression . . . . . . . . . . . . . . . . 512
ipv6 mld snooping querier . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 521
ipv6 mld snooping querier (VLAN mode) . . . . . . . . . . . . . . . . . . . . . 522
ipv6 mld snooping querier address . . . . . . . . . . . . . . . . . . . . . . . . . . . 523
ipv6 mld snooping querier election participate . . . . . . . . . . . . . . . . . 523
ipv6 mld snooping querier query-interval . . . . . . . . . . . . . . . . . . . . . . 524
ipv6 mld snooping querier timer expiry . . . . . . . . . . . . . . . . . . . . . . . 525
ipv6 mld snooping vlan groupmembership-interval . . . . . . . . . . . . . 511
ipv6 mld snooping vlan immediate-leave . . . . . . . . . . . . . . . . . . . . . . 511
ipv6 mld snooping vlan last-listener-query-interval . . . . . . . . . . . . . . 513
ipv6 mld snooping vlan mcrtexpiretime . . . . . . . . . . . . . . . . . . . . . . . 514
ipv6 mld snooping vlan mrouter . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 515
ipv6 nd dad attempts . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1523
ipv6 nd managed-config-flag . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1524
ipv6 nd ns-interval . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1525
ipv6 nd nud max-multicast-solicits . . . . . . . . . . . . . . . . . . . . . . . . . . 1526
ipv6 nd nud max-unicast-solicits . . . . . . . . . . . . . . . . . . . . . . . . . . . 1527
ipv6 nd nud retry . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1528
ipv6 nd other-config-flag . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1529
ipv6 nd prefix . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1530
ipv6 nd ra hop-limit unspecified . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1524
ipv6 nd raguard attach-policy . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1531
ipv6 nd ra-interval . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1532
ipv6 nd ra-lifetime . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1533
ipv6 nd reachable-time . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1534
ipv6 nd suppress-ra . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1535
ipv6 ospf . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1733
ipv6 ospf area . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1734
ipv6 ospf bfd . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1207
ipv6 ospf cost . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1735
ipv6 ospf dead-interval . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1736
ipv6 ospf hello-interval . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1736
ipv6 ospf mtu-ignore . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1737
ipv6 ospf network . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1738
ipv6 ospf priority . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1739
ipv6 ospf retransmit-interval . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1740
ipv6 ospf transmit-delay . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1741
ipv6 pim (VLAN Interface config) . . . . . . . . . . . . . . . . . . . . . . . . . . 1600
ipv6 pim bsr-border . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1601
ipv6 pim bsr-candidate . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1602
ipv6 pim dense-mode . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1603
ipv6 pim dr-priority . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1603
ipv6 pim hello-interval . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1604
ipv6 pim join-prune-interval . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1605
ipv6 pim register-threshold . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1605
ipv6 pim rp-address . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1606
ipv6 pim rp-candidate . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1607
ipv6 pim sparse-mode . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1608
ipv6 pim ssm . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1609
ipv6 prefix-list . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1392
ipv6 route . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1535
ipv6 route distance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1537
ipv6 router ospf . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1741
ipv6 traffic-filter . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 506
ipv6 unicast-routing . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1538
ipv6 unreachables . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1538
ipv6 verify binding . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 361
ipv6 verify source . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 362, 1414, 1937
iscsi aging time . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 535
iscsi cos . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 536
iscsi enable . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 538
iscsi target port . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 539
isdp advertise-v2 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 316
isdp enable . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 317
isdp holdtime . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 318
isdp timer . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 319
K
keepalive (Global Config) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 575
keepalive (Interface Config) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 573
keepalive action . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 576
key . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 916, 944
key-generate . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2282
key-string . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1071
L
lacp port-priority . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 626
lacp system-priority . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 627
lacp timeout . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 628
lease . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1908
level . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2135
line . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1978
link debounce time . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 390
link-dependency group . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 545
lldp dcbx port-role . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1142
lldp dcbx version . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1139
lldp med . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 552
lldp med confignotification . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 553
lldp med faststartrepeatcount . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 553
lldp med transmit-tlv . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 554
lldp notification . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 555
lldp notification-interval . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 556
lldp receive . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 556
lldp timers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 557
lldp tlv-select dcbxp . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1140
lldp transmit . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 558
lldp transmit-mgmt . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 559
lldp transmit-tlv . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 560
load-interval . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2173
locale . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1000
locate . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2174
location . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2283
log adjacency-changes . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1665
logging . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2138
logging audit . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2140
logging buffered . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2140
logging cli-command . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2136
logging console . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2142
logging email . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 891
logging email from-addr . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 894
logging email logtime . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 896
logging email message-type subject . . . . . . . . . . . . . . . . . . . . . . . . . . 895
logging email message-type to-addr . . . . . . . . . . . . . . . . . . . . . . . . . . 893
logging email test message-type . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 897
logging email urgent . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 892
logging facility . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2143
logging file . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2143
logging monitor . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2145
logging on . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2146
logging protocol . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2146
logging snmp . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2148
logging source-interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2149
logging traps . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 893
logging web-session . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2151
login authentication . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1979
login-banner . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1980
logout . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2175
M
mac access-group . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 275
mac access-list extended . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 277
mac access-list extended rename . . . . . . . . . . . . . . . . . . . . . . . . . . . . 277
mac address-table aging-time . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 289
mac address-table multicast forbidden address . . . . . . . . . . . . . . . . . 290
mac address-table static . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 291
macro apply . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1842
macro description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1843
macro global apply . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1840
macro global description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1841
macro global trace . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1840
macro name . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1838
macro trace . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1842
mail-server ip-address | hostname . . . . . . . . . . . . . . . . . . . . . . . . . . . 899
management access-class . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1038
management access-list . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1039
mark cos . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 678
mark ip-dscp . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 679
mark ip-precedence . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 680
match as-path . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1395
match class-map . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 681
match community . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1396
match cos . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 682
match destination-address mac . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 683
match dstip . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 684
match dstip6 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 685
match dstl4port . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 686
match ethertype . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 686
match extcommunity . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1256
match ip address . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1481
match ip address prefix-list . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1397
match ip dscp . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 688
match ip precedence . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 689
match ip tos . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 690
match ip6flowlbl . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 687
match ipv6 addrss prefix-list . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1398
match length . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1484
match mac-list . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1485
match protocol . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 691
match source-address mac . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 692
match srcip . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 693
match srcip6 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 693
match srcl4port . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 694
match vlan . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 695
maximum routes . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1801
maximum-paths . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1257, 1668, 1742
maximum-paths (IPv6 Address Family Configuration) . . . . . . . . . 1259
maximum-paths ibgp (IPv6 Address Family Configuration) . . . . . 1261
max-metric router-lsa . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1666
member . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2176
mirror . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 696
mmrp . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1077
mmrp global . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1078
mmrp periodic state machine . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1079
mode . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1165
monitor capture . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 638
monitor capture (Privileged Exec) . . . . . . . . . . . . . . . . . . . . . . . . . . . 640
monitor capture mode . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 640
monitor session . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 645
motd-banner . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2178
msgauth . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 917
msrp (Interface) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1091
msrp boundary-propagate . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1092
msrp delta-bw . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1093
msrp max-fan-in-ports . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1095
msrp srclass-pvid . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1096
msrp srclassqav . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1097
msrp talker-pruning . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1099
mvr . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 605
mvr group . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 605
mvr immediate . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 609
mvr mode . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 606
mvr querytime . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 607
mvr type . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 610
mvr vlan . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 608
mvr vlan group . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 611
mvrp . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1084
mvrp global . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1085
mvrp periodic state machine . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1086
N
name (Captive Portal) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1001
name (mst) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 732
name (RADIUS server) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 918
name (VLAN Configuration) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 792
neighbor activate . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1262
neighbor advertisement-interval (BGP Router Configuration) . . . 1263
neighbor advertisement-interval (IPv6 Address Family Configuration 1264
neighbor allowas-in . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1265
neighbor connect-retry-interval . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1267
neighbor default-originate (BGP Router Configuration) . . . . . . . . 1268
neighbor default-originate (IPv6 Address Family Configuration) . 1269
neighbor description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1271
neighbor ebgp-multihop . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1272
neighbor fall-over bfd . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1208
neighbor filter-list (BGP Router Configuration) . . . . . . . . . . . . . . . 1274
neighbor filter-list (IPv6 Address Family Configuration) . . . . . . . . 1276
neighbor inherit peer . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1277
neighbor local-as . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1278
neighbor maximum-prefix (BGP Router Configuration) . . . . . . . . 1280
neighbor maximum-prefix (IPv6 Address Family Configuration) . 1282
neighbor next-hop-self (BGP Router Configuration) . . . . . . . . . . . 1283
neighbor next-hop-self (IPv6 Address Family Configuration) . . . . 1284
neighbor password . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1285
neighbor prefix-list (BGP Router Configuration) . . . . . . . . . . . . . . 1287
neighbor prefix-list (IPv6 Address Family Configuration) . . . . . . . 1288
neighbor remote-as . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1289
neighbor remove-private-as . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1290
neighbor rfc5549-support . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1291
neighbor route-map (BGP Router Configuration) . . . . . . . . . . . . . 1293
neighbor route-map (IPv6 Address Family Configuration) . . . . . . 1294
neighbor route-reflector-client (BGP Router Configuration) . . . . . 1295
neighbor route-reflector-client (IPv6 Address Family Configuration) 1296
neighbor send-community (BGP Router Configuration) . . . . . . . . 1298
neighbor send-community IPv6 Address Family Configuration) . . 1299
neighbor shutdown (BGP Router Configuration) . . . . . . . . . . . . . . 1300
neighbor timers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1301
neighbor update-source . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1302
netbios-name-server . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1909
netbios-node-type . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1910
network . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1911
network (BGP Router Configuration) . . . . . . . . . . . . . . . . . . . . . . . 1304
network (IPv6 Address Family Configuration) . . . . . . . . . . . . . . . . 1306
network area . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1669
next-server . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1911
no clock summer-time . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1860
no clock timezone . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1857
no crypto certificate . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2283
no user . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1010
nsf . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1670, 1743, 2178
nsf helper . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1671, 1744
nsf helper strict-lsa-checking . . . . . . . . . . . . . . . . . . . . . . . . . . 1672, 1745
nsf restart-interval . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1672, 1745
O
openflow . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1167
option . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1912
organization-unit . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2284
P
passive . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1168
passive-interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1674, 1746
passive-interface default . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1673, 1747
password (aaa IAS User Configuration) . . . . . . . . . . . . . . . . . . . . . . . 868
password (Line Configuration) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1981
password (Mail Server Configuration Mode) . . . . . . . . . . . . . . . . . . . 902
password (User EXEC) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 869
passwords aging . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1048
passwords history . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1048
passwords lock-out . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1049
passwords min-length . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1050
passwords strength exclude-keyword . . . . . . . . . . . . . . . . . . . . . . . . 1058
passwords strength max-limit consecutive-characters . . . . . . . . . . . 1055
passwords strength max-limit repeated-characters . . . . . . . . . . . . . 1056
passwords strength minimum character-classes . . . . . . . . . . . . . . . . 1057
passwords strength minimum lowercase-letters . . . . . . . . . . . . . . . . 1053
passwords strength minimum numeric-characters . . . . . . . . . . . . . 1054
passwords strength minimum special-characters . . . . . . . . . . . . . . . 1054
passwords strength minimum uppercase-letters . . . . . . . . . . . . . . . 1052
passwords strength-check . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1051
peer-detection enable . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 582
peer-detection interval . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 582
peer-keepalive destination . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 583
peer-keepalive enable . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 585
peer-keepalive timeout . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 586
periodic . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2253
permit (management) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1041
permit ip host mac host . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 377
ping . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2178
ping ethernet cfm . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 431
police-simple . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 696
police-single-rate . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 698
police-two-rate . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 699
policy-map . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 701
port . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 945, 973, 2152
port (Mail Server Configuration Mode) . . . . . . . . . . . . . . . . . . . . . . . 900
port-channel local-preference . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 629
port-channel min-links . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 630
power inline . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1991
power inline detection . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1992
power inline four-pair forced . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1993
power inline limit . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1994
power inline management . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1997
power inline powered-device . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1998
power inline priority . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1999
power inline reset . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2000
power inline usage-threshold . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2000
prefix-delegation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1928
primary . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 919
priority . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 920, 946
priority-flow-control mode . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1180
priority-flow-control priority . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1181
private-vlan . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 793
process cpu threshold . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2182
protocol . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1001
protocol group . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 795
protocol vlan group . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 796
protocol vlan group all . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 797
protocol-version . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1169
proxy-ip-address . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1942, 2124
Q
quit . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2267
R
radius-erver attribute . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 921
radius-server attribute 25 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 924
radius-server attribute 31 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 924
radius-server attribute 4 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 921
radius-server attribute 6 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 922
radius-server attribute 8 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 923
radius-server deadtime . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 926
radius-server host . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 927
radius-server key . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 928
radius-server retransmit . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 929
radius-server source-interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 931
radius-server source-ip . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 930
radius-server timeout . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 932
random-detect exponential-weighting-constant . . . . . . . . . . . . . . . . 707
random-detect queue-parms . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 702
rate-limit cpu . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1027
rd . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1308
redirect . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 708, 1002
redirect-url . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1002
redistribute (BGP IPv6) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1311
redistribute (BGP) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1309
redistribute (OSPF) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1675
redistribute (OSPFv3) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1748
redistribute (RIP) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1785
release dhcp . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1890
reload . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2184
remark . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 278
remote-span . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 650
rename . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1882
renew dhcp . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1890
retransmit . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 932
revision (mst) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 733
rmon alarm . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2005
rmon collection history . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2007
rmon event . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2008
rmon hcalarm . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2009
role priority . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 587
route-map . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1485
router bgp . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1215
router ospf . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1677
router rip . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1786
router-id . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1676, 1749
route-target . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1313
rule . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 886
S
script apply . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1862
script delete . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1863
script list . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1864
script show . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1864
script validate . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1865
security . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 899
server . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1940, 2125
server-key . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 973
service . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 426
service dhcp . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1917
service dhcpv6 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1929
service unsupported-transceiver . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2186
service-acl input . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 280
service-policy . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 709
session-timeout . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1003
set as-path . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1408
set comm-list delete . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1409
set community . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1410
set description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2186
set extcommunity rt . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1314
set extcommunity soo . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1316
set interface null0 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1487
set ip default next-hop . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1488
set ip next-hop . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1489
set ip precedence . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1490
set local-preference . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1412
set metric . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1413
sflow destination . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2077
sflow polling . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2079
sflow polling (Interface Mode) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2080
sflow sampling . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2081
sflow sampling (Interface Mode) . . . . . . . . . . . . . . . . . . . . . . . . . . . 2082
show aaa ias-users . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 870
show aaa servers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 933
show aaa statistics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 870
show access-lists interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 282
show accounting methods . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 871
show admin-profiles . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 887
show admin-profiles brief . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 888
show application . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1827
show arp . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1199
show arp access-list . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 377
show authentication . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 872
show authentication methods . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 872
show authenticaton authentication-history . . . . . . . . . . . . . . . . . . . . 873
show authenticaton statistics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 875
show authorization methods . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 876
show auto-copy-sw . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1835
show backup-config . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1883
show banner . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2189
show bfd neighbor . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1208
show bgp ipv6 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1317
show bgp ipv6 aggregate-address . . . . . . . . . . . . . . . . . . . . . . . . . . . 1319
show bgp ipv6 community . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1320
show bgp ipv6 community-list . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1322
show bgp ipv6 listen range . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1323
show bgp ipv6 neighbors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1324
show bgp ipv6 neighbors advertised-routes . . . . . . . . . . . . . . . . . . . 1330
show bgp ipv6 neighbors policy . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1332
show bgp ipv6 neighbors received-routes . . . . . . . . . . . . . . . . . . . . . 1333
show bgp ipv6 route-reflection . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1342
show bgp ipv6 statistics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1335
show bgp ipv6 summary . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1336
show bgp ipv6 update-group . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1339
show boot . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1835
show bootvar . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1884
show captive-portal . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 995
show captive-portal client status . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1005
show captive-portal configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . 1015
show captive-portal configuration client status . . . . . . . . . . . . . . . . 1006
show captive-portal configuration interface . . . . . . . . . . . . . . . . . . . 1016
show captive-portal configuration locales . . . . . . . . . . . . . . . . . . . . . 1017
show captive-portal configuration status . . . . . . . . . . . . . . . . . . . . . 1018
show captive-portal interface client status . . . . . . . . . . . . . . . . . . . . 1007
show captive-portal interface configuration status . . . . . . . . . . . . . 1008
show captive-portal status . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 996
show captive-portal user . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1010
show checkpoint statistics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2191
show class-map . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 710
show classofservice dot1p-mapping . . . . . . . . . . . . . . . . . . . . . . . . . . 711
show classofservice ip-dscp-mapping . . . . . . . . . . . . . . . . . . . . . . . . . 713
show classofservice traffic-class-group . . . . . . . . . . . . . . . . . . . . . . . 1155
show classofservice trust . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 715
show cli modes . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 889
show clock . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1860
show copper-ports tdr . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1986
show crypto certificate mycertificate . . . . . . . . . . . . . . . . . . . . . . . . 2285
show crypto key mypubkey . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1072
show crypto key pubkey-chain ssh . . . . . . . . . . . . . . . . . . . . . . . . . . 1073
show cut-through mode . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2192
show debugging . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2066
show dhcp l2relay agent-option vlan . . . . . . . . . . . . . . . . . . . . . . . . . . 332
show dhcp l2relay all . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 330
show dhcp l2relay circuit-id vlan . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 334
show dhcp l2relay interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 331
show dhcp l2relay remote-id vlan . . . . . . . . . . . . . . . . . . . . . . . . . . . . 335
show dhcp l2relay stats interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 331
show dhcp l2relay vlan . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 333
show dhcp lease . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1892
show diffserv . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 715
show diffserv service brief . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 717
show diffserv service interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 716
show dos-control . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1029
show dot1as . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1123
show dot1as statistics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1126
show dot1x . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 975
show dot1x advanced . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 988
show dot1x authentication-history . . . . . . . . . . . . . . . . . . . . . . . . . . . 977
show dot1x clients . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 979
show dot1x interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 980
show dot1x interface statistics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 982
show dot1x users . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 983
show errdisable recovery . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 492
show ethernet cfm domain . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 434
show ethernet cfm errors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 433
show ethernet cfm maintenance-points local . . . . . . . . . . . . . . . . . . 435
show ethernet cfm maintenance-points remote . . . . . . . . . . . . . . . . 436
show ethernet cfm statistics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 437
show eula-consent hiveagent . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1945
show eula-consent support-assist . . . . . . . . . . . . . . . . . . . . . . . . . . . 2126
show exception . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2068
show fiber-ports optical-transceiver . . . . . . . . . . . . . . . . . . . . . . . . . 1987
show gmrp configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 455
show green-mode . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 449
show green-mode eee-lpi-history interface . . . . . . . . . . . . . . . . . . . . . 451
show green-mode interface-id . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 446
show gvrp configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 463
show gvrp error-statistics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 464
show gvrp statistics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 465
show hardware profile . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2192
show hiveagent status . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1944
show hosts . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1966
show idprom interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2193
show idprom interface interface-id . . . . . . . . . . . . . . . . . . . . . . . . . . . 396
show interfaces . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 393, 2194
show interfaces advanced firmware . . . . . . . . . . . . . . . . . . . . . . . . . . 2196
show interfaces advertise . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 396
show interfaces configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 398
show interfaces cos-queue . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 718
show interfaces counters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 399
show interfaces debounce . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 403
show interfaces description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 403
show interfaces detail . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 404
show interfaces loopback . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1566
show interfaces port-channel . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 631
show interfaces priority-flow-control . . . . . . . . . . . . . . . . . . . . . . . . 1183
show interfaces random-detect . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 720
show interfaces status . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 406
show interfaces status err-disabled . . . . . . . . . . . . . . . . . . . . . . . . . . . 494
show interfaces switchport . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 799
show interfaces traffic . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1156
show interfaces traffic-class-group . . . . . . . . . . . . . . . . . . . . . . . . . . 1158
show interfaces transceiver . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 408, 409
show interfaces tunnel . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1792
show interfaces utilization . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2197
show ip access-lists . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 282
show ip address-conflict . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1967
show ip arp inspection . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 378
show ip arp inspection vlan . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 381
show ip as-path-access-list . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1399
show ip bgp . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1343
show ip bgp aggregate-address . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1345
show ip bgp extcommunity-list . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1348
show ip bgp listen range . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1349
show ip bgp neighbors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1350
show ip bgp neighbors advertised-routes . . . . . . . . . . . . . . . . . . . . . 1357
show ip bgp neighbors policy . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1361
show ip bgp neighbors received-routes . . . . . . . . . . . . . . . . . . . . . . . 1359
show ip bgp route-reflection . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1362
show ip bgp statistics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1363
show ip bgp summary . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1365
show ip bgp update-group . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1371
show ip bgp vpn4 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1375
show ip brief . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1491
show ip community-list . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1400
show ip dhcp binding . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1918
show ip dhcp conflict . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1919
show ip dhcp global configuration . . . . . . . . . . . . . . . . . . . . . . . . . . 1919
show ip dhcp pool . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1920
show ip dhcp relay . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1458
show ip dhcp server statistics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1920
show ip dhcp snooping . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 346
show ip dhcp snooping binding . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 347
show ip dhcp snooping database . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 348
show ip dhcp snooping interfaces . . . . . . . . . . . . . . . . . . . . . . . . . . . . 349
show ip dhcp snooping statistics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 350
show ip dvmrp . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1417
show ip dvmrp interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1418
show ip dvmrp neighbor . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1418
show ip dvmrp nexthop . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1419
show ip dvmrp prune . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1420
show ip dvmrp route . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1421
show ip helper statistics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1459
show ip helper-address . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1457, 1968
show ip http server secure status . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2287
show ip http server status . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2286
show ip igmp . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1431
show ip igmp groups . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1431
show ip igmp interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1432
show ip igmp interface stats . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1434
show ip igmp membership . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1433
show ip igmp proxy-service . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1439
show ip igmp proxy-service groups . . . . . . . . . . . . . . . . . . . . . . . . . . 1440
show ip igmp proxy-service groups detail . . . . . . . . . . . . . . . . . . . . . 1441
show ip igmp proxy-service interface . . . . . . . . . . . . . . . . . . . . . . . . 1440
show ip igmp snooping . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 470
show ip igmp snooping groups . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 471
show ip igmp snooping mrouter . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 472
show ip igmp snooping querier . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 485
show ip interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1492
show ip irdp . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1774
show ip mcast mroute static . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1589
show ip mroute . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1587
show ip mroute group . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1587
show ip mroute source . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1588
show ip multicast . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1584
show ip multicast interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1586
show ip ospf . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1678
show ip ospf abr . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1685
show ip ospf area . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1685
show ip ospf asbr . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1687
show ip ospf database . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1688
show ip ospf database database-summary . . . . . . . . . . . . . . . . . . . . 1691
show ip ospf interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1693
show ip ospf interface brief . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1695
show ip ospf interface stats . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1696
show ip ospf neighbor . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1698
show ip ospf range . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1702
show ip ospf statistics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1703
show ip ospf stub table . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1705
show ip ospf traffic . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1706
show ip ospf virtual-link . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1708
show ip ospf virtual-links brief . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1709
show ip pim . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1590
show ip pim boundary . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1585
show ip pim bsr-router . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1590
show ip pim interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1592
show ip pim neighbor . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1593
show ip pim rp hash . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1594
show ip pim rp mapping . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1595
show ip pim statistics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1596
show ip policy . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1494
show ip prefix-list . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1401
show ip protocols . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1494
show ip rip . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1787
show ip rip interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1788
show ip rip interface brief . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1789
show ip route . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1498
show ip route preferences . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1502
show ip route static . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1501
show ip route summary . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1503
show ip source binding . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 532
show ip ssh . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1074
show ip telnet . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2249
show ip traffic . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1504
show ip verify source . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 531
show ip vlan . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1506
show ip vrf . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1802
show ipv6 access-lists . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 507
show ipv6 brief . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1539
show ipv6 dhcp . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1930
show ipv6 dhcp binding . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1930
show ipv6 dhcp interface (Privileged EXEC) . . . . . . . . . . . . . . . . . . 1932
show ipv6 dhcp interface (User EXEC) . . . . . . . . . . . . . . . . . . . . . . 1931
show ipv6 dhcp interface out-of-band statistics . . . . . . . . . . . . . . . . 1969
show ipv6 dhcp pool . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1935
show ipv6 dhcp snooping . . . . . . . . . . . . . . . . . . . . . . . . . 363, 1414, 1937
show ipv6 dhcp snooping binding . . . . . . . . . . . . . . . . . . 364, 1414, 1937
show ipv6 dhcp snooping database . . . . . . . . . . . . . . . . . 365, 1414, 1937
show ipv6 dhcp snooping interfaces . . . . . . . . . . . . . . . . . . . . . . . . . . 366
show ipv6 dhcp snooping statistics . . . . . . . . . . . . . . . . . 366, 1414, 1937
show ipv6 dhcp statistics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1936
show ipv6 interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1540
show ipv6 interface out-of-band . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1970
show ipv6 mld groups . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1542
show ipv6 mld interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1544
show ipv6 mld snooping . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 516
show ipv6 mld snooping groups . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 518
show ipv6 mld snooping mrouter . . . . . . . . . . . . . . . . . . . . . . . . . . . . 519
show ipv6 mld snooping querier . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 526
show ipv6 mld traffic . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1552
show ipv6 mld-proxy . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1547
show ipv6 mld-proxy groups . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1548
show ipv6 mld-proxy groups detail . . . . . . . . . . . . . . . . . . . . . . . . . . 1549
show ipv6 mld-proxy interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1551
show ipv6 mroute . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1612
show ipv6 mroute group . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1614
show ipv6 mroute source . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1615
show ipv6 neighbors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1555
show ipv6 ospf . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1749
show ipv6 ospf abr . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1753
show ipv6 ospf area . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1754
show ipv6 ospf asbr . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1755
show ipv6 ospf border-routers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1755
show ipv6 ospf database . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1756
show ipv6 ospf database database-summary . . . . . . . . . . . . . . . . . . 1758
show ipv6 ospf interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1759
show ipv6 ospf interface brief . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1760
show ipv6 ospf interface stats . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1761
show ipv6 ospf interface vlan . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1762
show ipv6 ospf neighbor . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1763
show ipv6 ospf range . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1764
show ipv6 ospf stub table . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1765
show ipv6 ospf virtual-link brief . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1767
show ipv6 ospf virtual-links . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1766
show ipv6 pim . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1609
show ipv6 pim interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1616
show ipv6 pim neighbor . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1617
show ipv6 pim rp mapping . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1618
show ipv6 pim rphash . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1618
show ipv6 pim statistics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1619
show ipv6 prefix-list . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1403
show ipv6 protocols . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1555
show ipv6 route . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1557
show ipv6 route preferences . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1558
show ipv6 route summary . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1559
show ipv6 snooping counters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1560
show ipv6 source binding . . . . . . . . . . . . . . . . . . . . . . . . 368, 1414, 1937
show ipv6 traffic . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1561
show ipv6 verify . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 368, 1414, 1937
show ipv6 verify source . . . . . . . . . . . . . . . . . . . . . . . . . . 369, 1414, 1937
show ipv6 vlan . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1562
show iscsi . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 540
show iscsi sessions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 541
show isdp . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 319
show isdp entry . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 320
show isdp interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 321
show isdp neighbors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 322
show isdp traffic . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 323
show keepalive . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 577
show keepalive statistics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 578
show lacp . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 632
show line . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1982
show link-dependency . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 547
show lldp . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 561
show lldp dcbx . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1144
show lldp interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 561
show lldp local-device . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 562
show lldp med . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 564
show lldp med interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 564
show lldp med local-device detail . . . . . . . . . . . . . . . . . . . . . . . . . . . . 565
show lldp med remote-device . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 567
show lldp remote-device . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 569
show lldp statistics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 570
show lldp tlv-select . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1143
show logging . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2153
show logging email statistics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 897
show logging file . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2154
show mac address-table . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 301
show mac address-table address . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 302
show mac address-table count . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 303
show mac address-table dynamic . . . . . . . . . . . . . . . . . . . . . . . . . . . . 304
show mac address-table interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . 305
show mac address-table multicast . . . . . . . . . . . . . . . . . . . . . . . . . . . . 300
show mac address-table static . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 306
show mac address-table vlan . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 307
show mail-server . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 903
show management access-class . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1042
show management access-list . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1043
show memory cpu . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2200
show mmrp . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1080
show mmrp statistics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1081
show monitor capture . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 651
show monitor session . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 653
show msrp . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1100
show msrp reservations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1103
show msrp statistics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1104
show msrp stream . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1106
show mvr . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 612
show mvr interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 614
show mvr members . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 613
show mvr traffic . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 616
show mvrp . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1087
show mvrp statistics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1088
show nsf . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2201
show openflow . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1171
show parser macro . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1844
show passwords configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1059
show passwords result . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1061
show policy-map . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 722
show policy-map interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 723
show port protocol . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 800
show port-security . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 308
show power inline . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2002
show power inline firmware-version . . . . . . . . . . . . . . . . . . . . . . . . . 2004
show power-usage-history . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2203
show process app-list . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2204
show process cpu . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2207
show process proc-list . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2208
show radius statistics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 936
show rmon alarm . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2011
show rmon alarms . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2013
show rmon collection history . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2014
show rmon events . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2015
show rmon hcalarm . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2016
show rmon history . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2017
show rmon log . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2020
show rmon statistics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2021
show route-map . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1507
show router-capability . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1379
show routing heap summary . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1509
show running-config . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1885
show service-acl interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 281
show service-policy . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 724
show sessions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2210
show sflow agent . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2084
show sflow destination . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2085
show sflow polling . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2086
show sflow sampling . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2087
show slot . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2211
show snmp . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2090
show snmp engineid . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2092
show snmp filters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2092
show snmp group . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2093
show snmp user . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2095
show snmp views . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2096
show sntp configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1846
show sntp server . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1847
show sntp status . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1848
show spanning-tree . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 734
show spanning-tree summary . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 742
show spanning-tree vlan . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 743
show startup-config . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1886
show statistics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 409
show statistics port-channel . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 634
show statistics switchport . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 412
show storm-control . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 414
show storm-control action . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 415
show support-assist status . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2128
show supported cardtype . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2213
show supported mibs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2069
show supported switchtype . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2215
show switch . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2217
show switchport protected . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 420
show switchport voice . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 312
show syslog-servers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2154
show system . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2222
show system fan . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2224
show system id . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2225
show system internal pktmgr . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1030
show system power . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2225
show system temperature . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2226
show tacacs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 946
show tech-support . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2228
show time-range . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2255
show trapflags . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2097
show udld . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 782
show usb . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2259
show users . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2231
show users accounts . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 877
show users login-history . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 878
show version . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2232
show vlan . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 802
show vlan association mac . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 804
show vlan association subnet . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 805
show vlan private-vlan . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 806
show vlan remote-span . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 655
show voice vlan . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 835
show vpc . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 588
show vpc brief . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 589
show vpc consistency-features . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 593
show vpc consistency-parameters . . . . . . . . . . . . . . . . . . . . . . . . . . . . 591
show vpc peer-keepalive . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 594
show vpc role . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 595
show vpc statistics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 596
show vrrp . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1818
show vrrp interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1820
show vrrp interface brief . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1822
show vrrp interface stats . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1822
shutdown . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 416
slot . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2187
snmp-server community . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2098
snmp-server community-group . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2100
snmp-server contact . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2101
snmp-server enable traps . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2102
snmp-server engineID local . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2105
snmp-server filter . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2106
snmp-server group . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2108
snmp-server host . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2109
snmp-server location . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2111
snmp-server source-interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2117
snmp-server user . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2111
snmp-server v3-host . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2115
snmp-server view . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2114
sntp . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1917
sntp authenticate . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1849
sntp authentication-key . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1850
sntp broadcast client enable . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1851
sntp client poll timer . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1851
sntp server . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1852
sntp source-interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1853
sntp trusted-key . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1854
sntp unicast client enable . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1855
source-ip . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 940
spanning-tree . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 744
spanning-tree auto-portfast . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 745
spanning-tree backbonefast . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 746
spanning-tree bpdu flooding . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 747
spanning-tree bpdu-protection . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 747
spanning-tree cost . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 748
spanning-tree disable . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 750
spanning-tree forward-time . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 750
spanning-tree guard . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 751
spanning-tree loopguard . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 752
spanning-tree max-age . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 753
spanning-tree max-hops . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 754
spanning-tree mode . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 754
spanning-tree mst configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 756
spanning-tree mst cost . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 757
spanning-tree mst port-priority . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 758
spanning-tree mst priority . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 759
spanning-tree portfast . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 760
spanning-tree portfast bpdufilter default . . . . . . . . . . . . . . . . . . . . . . 761
spanning-tree portfast default . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 762
spanning-tree port-priority . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 763
spanning-tree port-priority (Interface Configuration) . . . . . . . . . . . . 763
spanning-tree priority . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 764
spanning-tree tcnguard . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 765
spanning-tree transmit hold-count . . . . . . . . . . . . . . . . . . . . . . . . . . . 766
spanning-tree uplinkfast . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 766
spanning-tree vlan . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 768
spanning-tree vlan forward-time . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 769
spanning-tree vlan hello-time . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 770
spanning-tree vlan max-age . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 771
spanning-tree vlan priority . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 773
spanning-tree vlan root . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 772
speed . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 416, 1983
split-horizon . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1790
stack . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2233
stack-port . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2234
stack-port shutdown . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2236
standby . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2237
state . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2288
storm-control broadcast . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1031
storm-control multicast . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1032
storm-control unicast . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1034
support-assist . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2129
switch renumber . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2238
switchport access vlan . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 807
switchport dot1q ethertype (Global Configuration) . . . . . . . . . . . . . 808
switchport dot1q ethertype (Interface Configuration) . . . . . . . . . . . 810
switchport forbidden vlan . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 812
switchport general acceptable-frame-type tagged-only . . . . . . . . . . . 813
switchport general allowed vlan . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 813
switchport general ingress-filtering disable . . . . . . . . . . . . . . . . . . . . 814
switchport general pvid . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 815
switchport mode . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 816
switchport mode dot1q-tunnel . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 817
switchport mode private-vlan . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 819
switchport port-security (Global Configuration) . . . . . . . . . . . . . . . . 292
switchport port-security (Interface Configuration) . . . . . . . . . . . . . . 295
switchport private-vlan . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 820
switchport protected . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 419
switchport protected name . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 420
switchport trunk . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 821
switchport trunk encapsulation dot1q . . . . . . . . . . . . . . . . . . . . . . . . 821
switchport voice detect auto . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 314
system jumbo mtu . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 422
system-mac . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 598
system-priority . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 599
T
tacacs-server host . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 947
tacacs-server key . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 948
tacacs-server source-interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 949
tacacs-server timeout . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 950
telnet . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2239
template peer . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1380
terminal monitor . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2155
test copper-port tdr . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1988
timeout . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 940, 951
time-range . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2251
timers bgp . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1382
timers pacing flood . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1710
timers pacing lsa-group . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1711
timers spf . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1712
traceroute . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2240
traceroute ethernet cfm . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 432
traceroute ipv6 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1563, 2242
traffic-class-group max-bandwidth . . . . . . . . . . . . . . . . . . . . . . . . . . 1150
traffic-class-group min-bandwidth . . . . . . . . . . . . . . . . . . . . . . . . . . 1151
traffic-class-group strict . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1152
traffic-class-group weight . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1154
traffic-shape . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 725
tunnel destination . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1793
tunnel mode ipv6ip . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1794
tunnel source . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1794
U
udld enable (Global Config) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 777
udld enable (Interface Config) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 780
udld message time . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 779
udld port . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 781
udld reset . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 778
udld timeout interval . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 780
unmount usb . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2258
update bootcode . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2244
url . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1943, 2130
usage . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 941
user group . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1011, 1019
user group moveusers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1019
user group name . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1020
user name . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1013
user password . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1014
user session-timeout . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1014
user-logout . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1012
username . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 879
username (Mail Server Configuration Mode) . . . . . . . . . . . . . . . . . . 901
username unlock . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 881
V
verification . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1004
vlan . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 824
vlan association mac . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 825
vlan association subnet . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 825
vlan makestatic . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 826
vlan priority . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 726
vlan protocol group . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 827
vlan protocol group add protocol . . . . . . . . . . . . . . . . . . . . . . . . . . . . 828
vlan protocol group name . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 829
vlan protocol group remove . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 829
voice vlan . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 832
voice vlan (Interface) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 832
voice vlan data priority . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 834
vpc . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 600
vpc domain . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 601
vpc peer-link . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 602
vrrp accept-mode . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1808
vrrp authentication . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1809
vrrp description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1810
vrrp ip . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1811
vrrp mode . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1812
vrrp preempt . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1813
vrrp priority . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1814
vrrp timers advertise . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1814
vrrp timers learn . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1815
vrrp track interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1816
vrrp track ip route . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1817
W
write . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1887
write core . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2075
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