Table of Contents
- Contents
- Figures
- Chapter 1
- Chapter 2
- Chapter 3
- Basic Switch Parameters
- Setting the System Date and Time
- Setting a Telnet or SSH Server
- Setting a Remote Log Server
- Setting the Switch Information
- Setting the Configuration File
- Managing User Accounts
- Rebooting a Switch
- Upgrading the Software
- Returning the AlliedWare Plus Configuration to the Factory Default Values
- Displaying System Information
- Basic Switch Parameters
- Chapter 4
- Chapter 5
- Chapter 6
- Chapter 7
- Chapter 8
- Chapter 9
- Chapter 10
- Chapter 11
- Chapter 12
- Chapter 13
- Chapter 14
- Chapter 15
- Chapter 16
- Chapter 17
- Chapter 18
- Chapter 19
- Chapter 20
Allied Telesis AT-9000/28POE User Manual
Displayed below is the user manual for AT-9000/28POE by Allied Telesis which is a product in the Network Switches category. This manual has pages.
Related Manuals
613-001933 Rev. A
AT-9000 Series
Gigabit Ethernet Switches
AT-9000/12PoE
AT-9000/28
AT-9000/28PoE
AT-9000/28SP
AT-9000/52
Management Software Web Interface User’s Guide
AlliedWare Plus Version 2.1.8.0
Copyright
Copyright © 2014, Allied Telesis, Inc.
All rights reserved.
This product includes software licensed under the BSD License. As such, the following language applies for those
portions of the software licensed under the BSD License:
Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following
conditions are met:
* Redistributions of source code must retain the abov e copyright notice, this list of conditions and the following
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disclaimer in the documentation and/or other materials provided with the distribution.
* Neither the name of Allied Telesis, Inc. nor the names of the respective companies above may be used to endorse or
promote products derived from this software without specific prior written permission.
THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS “AS IS” AND ANY
EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
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WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAG E.
Copyright 1989, 1991, 1992 by Carnegie Mellon University. Derivative Work - 1996, 1998-2000. Copyright 1996, 1998-
2000 by The Regents of the University of California - All rights reserved. Copyright (c) 2001-2003 by Netw orks
Associates Technology, Inc. - All rights reserved. Copyright (c) 2001-2003 by Camb ri dge Broadband Ltd. - All rights
reserved. Copyright (c) 2003 by Sun Microsystems , Inc. - All rights reserved. Copyright (c) 2003-2005 by Sparta, Inc. -
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reserved. Copyright (c) 2004-2006 by Intern et Systems Consortium, Inc. (“ISC”) - All rights reserved. Copyright (c)
1995-2003 by Internet Software Consortium - All rights reserved. Copyright (c) 1992-2003 by David Mills - All rights
reserved. Copyright (c) 1995 by Tatu Ylonen <ylo@cs.hut.fi>, Espoo, Finland - All rig hts reserv ed. Copyrigh t (c) 1998
by CORE SDI S.A., Buenos Aires, Argentina - All rights reserved. Copyright 1995, 1996 by David Mazieres - All rights
reserved. Copyright 1983, 1990, 1992, 1993, 1995 by The Regents of th e University of California - All rights reserved.
Copyright (c) 1995 Patrick Powell - All rights reserved. Copyright (c) 1998-2005 The OpenSSL Project - All rights
reserved. Copyright (C) 1995-1998 Eric Young (eay@cryptso ft.com) - Al l rights reserved. Copyright (c) 2008, Henry
Kwok - All rights reserved. Copyright (c) 1995, 19 98, 1999, 2000, 2001 by Jef Poskanzer <jef@mail.acme.com>. - Al l
rights reserved.
Some components of the SSH software are provided under a standard 2-term BSD license with the following names as
copyright holders: Markus Friedl, Theo de Raadt, Niels Provos, Dug So ng, Aaron Campbell, Damien Miller, Kevin
Steves, Daniel Kouril, Wesley Griffin, Per Allansson, Nils Nordman, and Simon Wilkinson,
Portable OpenSSH includes code from the following copyright holders, also under the 2-term BSD license: Ben
Lindstrom, Tim Rice, Andre Lucas, Chris Adams, Corinna Vinschen, Cray Inc., Denis Parker, Gert Doering, Jakob
Schlyter, Jason Downs, Juha Yrjola, Michael Stone, Network Associates, Solar Desig ner, Todd C. Miller, Wayne
Schroeder, William Jones, Darren Tu cker, Su n Microsystems, The SCO Group.
Some Portable OpenSSH code is licensed under a 3-term BSD sty le license to th e followin g copyright holders: Todd C.
Miller, Theo de Raadt, Damien Miller, Eric P. Allman, The Regen ts of the University of California, and Constantin S.
Svintsoff. Some Portable OpenSSH code is licensed under an ISC-style license to the following copyright holders:
Internet Software Consortium, Todd C. Miller, Reyk Floeter, and Chad Mynhier. Some Portable OpenSSH code is
licensed under a MIT-style license to the following copyright holder: Free Software Foundation, Inc.
This product also includes software licensed under the GNU Ge neral Public License available from:
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to lost profits, arising out of or related to this manual or the information contained herein, even if Allied Telesis, Inc. has
been advised of, known, or should have known, the possibility of such damages.
5
Contents
Preface ............................................................................................................................................................ 11
Document Conventions .................................................................................................................................... 12
Downloading Management Software and Web-based Guides......................................................................... 13
Contacting Allied Telesis .................................................................................................................................. 14
Online Support.............. ............................................................................................................................. 14
Email and Telephone Support............. ....................................................................................................... 14
Returning Products .................................................................................................................................... 14
Sales or Corporate Information.................................................................................................................. 14
Management Software Updates................................................................................................................. 14
Chapter 1: AlliedWare Plus™ Version 2.1.8 Web Browser Interface ........................................................ 15
Management Sessions..................................................................................................................................... 16
Web Manager Accounts ................... ... ... .......................................................................................................... 17
Chapter 2: Starting a Management Session ............................................................................................... 19
Starting a Web Management Session.............................................................................................................. 20
Selecting Items from a Web Page.................................................................................................................... 26
What to Configure First..................................................................................................................................... 27
Assigning a Name to the Switch ................................................................................................................ 27
Adding a Management IP Address ............................................................................................................ 27
Setting System Time.............. .... ... ... ... .... ... ................................................................................................ 27
Saving Your Changes....................................................................................................................................... 28
Ending a Web Management Session .. ... ... .... ... ... ... ....... ... ... ... .... ... ... ... .... ... ... ... ... .... ... ... ....... ... ... ... ... ................ 29
Chapter 3: Basic Switch Parameters ........................................................................................................... 31
Setting the System Date and Time................... ................................................................................................ 32
Setting System Time Manually................................................................................................................... 33
Setting an SNTP or NTP Server ................................................................................................................ 34
Setting a Telnet or SSH Server ........................................................................................................................ 37
Setting a Remote Log Server . .......................................................................................................................... 39
Setting the Switch Information.......... ... ... ... .... ... ... ... ... ....................................................................................... 40
Setting the Configuration File ................. ... .... ... ... ... .......................................................................................... 42
Displaying and Setting the Active Configuration File ................................................................................. 42
Uploading a Configuration File................................................................................................................... 43
Managing User Accounts ............. .... ... ............................................................................................................. 44
Adding a User .. ... ... ... ................................................................................................................................. 44
Changing a User Password ....................................................................................................................... 45
Changing the User Privilege ...................................................................................................................... 47
Deleting a User .......................................................................................................................................... 48
Rebooting a Switch........................................................................................................................................... 49
Upgrading the Software............. ....................................................................................................................... 50
Returning the AlliedWare Plus Configuration to the Factory Default Values.................................................... 52
Displaying System Information......................................................................................................................... 53
Chapter 4: Setting Port Parameters ............................................................................................................. 57
Displaying the Port Parameters........................................................................................................................ 58
Changing the Port Settings............................................................................................................................... 62
Contents
6
Displaying the Storm Control Settings ..............................................................................................................66
Modifying the Storm Control Settings ...............................................................................................................68
Chapter 5: Setting Port Statistics .................................................................................................................71
Displaying Port Statistics ..................................................................................................................................72
Displaying Transmit and Receive Port Statistics................. ... .... ... ... ... .... ... ................................................72
Displaying Receive Statistics......................................................................................................................73
Displaying Transmit Statistics.....................................................................................................................75
Displaying Interface Statistics.....................................................................................................................77
Clearing Port Statistics......................................................................................................................................79
Refreshing Port Statistics.............. ....................................................................................................................80
Chapter 6: Setting Port Mirroring .................................................................................................................81
Overview ...........................................................................................................................................................82
Displaying Port Mirroring Settings.....................................................................................................................83
Assigning a Destination Port.............................................................................................................................85
Specifying Direction Type ...... .... ... ... ... ..............................................................................................................86
Chapter 7: Setting the Port Spanning Tree Protocol ..................................................................................89
Overview ...........................................................................................................................................................90
Displaying Port Spanning Tree Protocol Settings .............................................................................................91
Modifying Port Spanning Tree Protocol Settings ..............................................................................................93
Chapter 8: Setting the MAC Address ...........................................................................................................95
Displaying the MAC Address ............................................................................................................................96
Displaying Unicast MAC Addresses...........................................................................................................96
Displaying Multicast MAC Addresses.........................................................................................................97
Assigning a MAC Address ................................................................................................................................98
Assigning a Unicast Address......................................................................................................................98
Assigning a Multicast Address....................................................................................................................99
Deleting a MAC Address.................................................................................................................................101
Deleting a Unicast Address ......................................................................................................................101
Deleting a Multicast Address................................................................................................... .................101
Chapter 9: Setting LACP .............................................................................................................................103
Overview .........................................................................................................................................................104
Displaying LACP Trunks .................................................................................................................................105
Adding an LACP Trunk .......... .... ... ..................................................................................................................107
Modifying an LACP Trunk ...............................................................................................................................109
Deleting an LACP Trunk .................................................................................................................................111
Chapter 10: Setting Static Port Trunks ......................................................................................................113
Overview .........................................................................................................................................................114
Displaying Static Trunk Settings .....................................................................................................................115
Adding Static Trunks.. ... ... ... ... .........................................................................................................................117
Modifying the Static Trunk Settings .... .... ... ... ... .... ... ...... ... .... ... ... ... .... ... ... ... .... ... ... ... ... .... ...... ... ........................120
Deleting Static Trunks.....................................................................................................................................123
Chapter 11: Setting Port-based and Tagged VLANs ................................................................................125
Overview .........................................................................................................................................................126
Port-based VLANs....................................................................................................................................126
Tagged VLANs .........................................................................................................................................126
Tagged and Untagged Ports ....................................................................................................................127
Displaying VLANs ...........................................................................................................................................128
Adding a VLAN ... ............................................................................................................................................130
Modifying VLANs ............................................................................................................................................132
Assigning a Native VLAN................................................................................................................................134
Deleting VLANs...............................................................................................................................................136
AlliedWare Plus Version 2.1.8 Management Software Web Interface User’s Guide
7
Chapter 12: Setting Internet Group Management Protocol (IGMP) Snooping ....................................... 137
Overview......................................................................................................................................................... 138
Displaying and Modifying IGMP Snooping Configuration. ... ... .... ... ... ... .... ... ... ... ... .... ... ... ... .... ...... ... ... .... ... ....... 139
Clearing the Routers List................................................................................................................................ 141
Disabling IGMP Snooping .............................................................................................................................. 143
Displaying the Routers List............................................................................................................................. 144
Displaying the Hosts List ................................................................................................................................ 145
Chapter 13: Setting Switch Spanning Tree Protocols ............................................................................. 147
Overview......................................................................................................................................................... 148
Displaying Switch Spanning Tree Protocol Settings....................................................................................... 149
Modifying Switch Spanning Tree Protocol Settings........................................................................................ 152
Chapter 14: Power Over Ethernet (PoE) .................................................................................................... 155
Overview......................................................................................................................................................... 156
Power Sourcing Equipment (PSE)........................................................................................................... 156
Powered Device (PD)............................................................................................................................... 156
PD Classes .............................................................................................................................................. 156
Power Budget........................................................................................................................................... 157
Port Prioritization.... .................................................................................................................................. 157
Displaying PoE Settings ................................................................................................................................. 158
PoE Configuration .......................................................................................................................................... 160
Configuring Global PoE Settings...... ........................................................................................................ 160
Configuring Individual Port PoE Settings ...... ... ... .... ... ... ... .... ... ... ... .... ... ...... ... .... ... ... ... .... ... ... ... ... .............. 160
Chapter 15: Setting MAC Address-based Port Security .......................................................................... 163
Overview......................................................................................................................................................... 164
Static Versus Dynamic Addresses.......... ... ... ... ... ..................................................................................... 164
Intrusion Actions....................................................................................................................................... 164
Guidelines ................................................................................................................................................ 165
Displaying MAC Address-based Port Security Settings ................................................................................. 166
Modifying MAC Address-based Port Security Settings . ... ... ... .... ... ................................................................. 168
Disabling MAC Address-based Port Security Settings................................................................................... 170
Chapter 16: Setting RADIUS and TACACS+ Clients ................................................................................ 171
Overview......................................................................................................................................................... 172
Remote Manager Accounts...................................................................................................................... 172
Accounting Information ............................................................................................................................ 173
Configuring RADIUS and TACACS+ ....................................................................................................... 173
Placing RADIUS and TACACS+ Servers in the Client’s List ................................................................... 173
Configuring RADIUS for Remote Manager Authentication............................................................................. 175
Configuring Remote Manager Authentication Using RADIUS ................................................................. 175
Adding a RADIUS Server....... .... ... ... ........................................................................................................ 177
Configuring TACACS+ for Remote Manager Authentication.......................................................................... 179
Configuring Remote Manager Authentication Using TACACS+ .............................................................. 179
Adding a TACACS+ Server.... .... ... ... ... .... ... .............................................................................................. 182
Deleting an Authentication Server.................................................................................................................. 184
Chapter 17: Setting 802.1x Port-based Network Access ......................................................................... 185
Overview......................................................................................................................................................... 186
Enabling 802.1x Port-based Authentication on the Switch............................................................................. 187
Configuring 802.1x Port-based Authentication............................................................................................... 188
Displaying the 802.1x Authentication Port Settings........................................................................................ 194
Disabling 802.1x Port-based Authentication on the Switch............................................................................ 195
Disabling 802.1x Port-based Authentication on a Port................................................................................... 196
Chapter 18: Setting IPv4 and IPv6 Management ...................................................................................... 197
Overview......................................................................................................................................................... 198
Contents
8
IP Management Guidelines ................. ... ... .... ... ........................................................................................199
Assigning an IPv4 Address .............................................................................................................................200
Assigning a Static IPv4 Address...............................................................................................................200
Assigning a DHCP IPv4 Address .............................................................................................................201
Assigning an IPv6 Address .............................................................................................................................204
Displaying IP Addresses .................................................................................................................................206
Modifying IP Addresses ..................................................................................................................................207
Modifying an IPv4 Static Address.............................................................................................................207
Changing a DHCP IPv4 Address to Static................................................................................................207
Modifying an IPv6 Address.......................................................................................................................208
Chapter 19: Setting LLDP and LLDP-MED .................................................................................................209
Overview .........................................................................................................................................................210
Setting LLDP Locations ... ... ... .........................................................................................................................211
Creating a Civic Location . .... ... ... ... .... ... ... ... .... ...........................................................................................211
Creating a Coordinate Location................................................................................................................215
Creating an ELIN Location .......................................................................................................................217
Configuring LLDP and LLDP-MED .................................................................................................................219
Setting the Basic LLDP Configuration ......................................................................................................219
Setting LLDP Port Assignments ...............................................................................................................220
Assigning Port Locations..........................................................................................................................222
Enabling LLDP TLV..................................................................................................................................224
Enabling LLDP- MED TLV........................................................................................................................228
Displaying LLDP Neighbor Information...........................................................................................................231
Displaying LLDP Neighbor Information ....................................................................................................231
Displaying LLDP Neighbor Detail .............................................................................................................232
Displaying LLDP Statistics ..............................................................................................................................236
Displaying LLDP Locations.............................................................................................................................238
Displaying Civic Locations........................................................................................................................238
Displaying Coordinate Locations..............................................................................................................239
Displaying ELIN Locations........................................................................................................................240
Displaying LLDP and LLDP-MED Settings .....................................................................................................241
Displaying the Basic LLDP Configuration.................................................................................................241
Displaying LLDP Port Assignments..........................................................................................................242
Displaying Port Locations.........................................................................................................................243
Displaying LLDP TLV ...............................................................................................................................243
Displaying LLDP-MED TLV ......................................................................................................................245
Disabling LLDP on the Switch.........................................................................................................................247
Chapter 20: Setting sFlow ...........................................................................................................................249
Overview .........................................................................................................................................................250
Ingress Packet Samples...........................................................................................................................250
Packet Counters.......................................................................................................................................250
sFlow Collectors .......................................................................................................................................251
Guidelines.................................................................................................................................................251
Configuring sFlow on a Port............................................................................................................................252
Specifying an sFlow Collector.........................................................................................................................254
Enabling sFlow on the Switch .........................................................................................................................256
Displaying the sFlow Settings .........................................................................................................................257
9
Figures
Figure 1: Login Menu............................................................................................................................................................20
Figure 2: Displaying the IP address......................................................................................................................................21
Figure 3: Login Page ............................................................................................................................................................22
Figure 4: Dashboard Page ...................................................................................................................................................23
Figure 5: System Contact Information Page.........................................................................................................................28
Figure 6: System Settings Tab .............................................................................................................................................33
Figure 7: System Time Settings Page..................................................................................................................................33
Figure 8: Calendar Page ......................................................................................................................................................34
Figure 9: System Time Settings Page with Network Time Settings Tab ..............................................................................35
Figure 10: System Services Page ........................................................................................................................................37
Figure 11: System Contact Information Page.......................................................................................................................40
Figure 12: Configuration Files Page.....................................................................................................................................42
Figure 13: File Upload Page.................................................................................................................................................43
Figure 14: User Management Page......................................................................................................................................44
Figure 15: User Management Page with Change Password Tab.........................................................................................46
Figure 16: User Management Page with Change Privilege Tab...........................................................................................47
Figure 17: User Management Page with Delete User Tab...................................................................................................48
Figure 18: System Upgrade Page ........................................................................................................................................51
Figure 19: Port Numbering System ......................................................................................................................................58
Figure 20: Switching Tab with Port Tab....................................... ................. ... ................. ....................................................59
Figure 21: Port Configuration Page......................................................................................................................................59
Figure 22: Port Configuration Modify Page...........................................................................................................................63
Figure 23: Storm Control List Page ......................................................................................................................................66
Figure 24: Storm Control Settings Page...............................................................................................................................68
Figure 25: Port Statistics Page with Tx + Rx Tab.................................................................................................................72
Figure 26: Port Statistics with Receive Tab.................................... ................. ................. .. ..................................................74
Figure 27: Port Statistics with Transmit Tab..................... ... ................. ................ ................. ... ............................................76
Figure 28: Port Statistics Page with Interface Tab................................................................................................................77
Figure 29: Port Mirroring List Page.......................................................................................................................................83
Figure 30: Modify Port Mirroring Page..................................................................................................................................86
Figure 31: Port Spanning Tree Settings Page......................................................................................................................91
Figure 32: Modify Port Spanning Tree Settings Page ..........................................................................................................93
Figure 33: Switching Tab......................................................................................................................................................96
Figure 34: Unicast MACs Page ............................................................................................................................................96
Figure 35: Multicast MACs Page..........................................................................................................................................97
Figure 36: Add Unicast Mac Address Page..........................................................................................................................98
Figure 37: Add Multicast Mac Address Page........................................................................................................................99
Figure 38: Switching Tab with Link Aggregation Selected..................................................................................................105
Figure 39: LACP Trunks Page............................................................................................................................................105
Figure 40: Add LACP Trunk Page......................................................................................................................................107
Figure 41: Modify LACP Trunk Page..................................................................................................................................109
Figure 42: Switching Tab with Link Aggregation Selected..................................................................................................115
Figure 43: Switching Tab with Static Trunks Selected........................................................................................................115
Figure 44: Static Trunks Page............................................................................................................................................116
Figure 45: Add Static Trunk Page ......................................................................................................................................118
Figure 46: Modify Static Trunk Page ..................................................................................................................................121
Figure 47: VLANs Page......................................................................................................................................................128
Figure 48: Add VLAN Page ................................................................................................................................................130
Figure 49: Modify VLAN Page............................................................................................................................................132
Figure 50: Native VLAN Page ............................................................................................................................................134
Figures
10
Figure 51: IGMP Snooping Page with Configuration Tab...................................................................................................139
Figure 52: IGMP Snooping Page with Routers List Tab .....................................................................................................141
Figure 53: IGMP Snooping Page with Hosts List Tab.........................................................................................................145
Figure 54: Spanning Tree Settings Page............................................................................................................................149
Figure 55: PoE Page ..........................................................................................................................................................158
Figure 56: Modify Port PoE Settings Page .........................................................................................................................161
Figure 57: Security Tab.......................................................................................................................................................166
Figure 58: MAC Based Port Security Page.........................................................................................................................166
Figure 59: Modify MAC Based Port Security Page.............................................................................................................168
Figure 60: Authentication Server Configuration Page with RADIUS Tab ...... ... ... ................. ... ................ ...........................175
Figure 61: Radius Server Add Page...................................................................................................................................177
Figure 62: Authentication Server Configuration Page with TACACS+ Tab ........................................................................180
Figure 63: TACACS+ Server Add Page..............................................................................................................................183
Figure 64: 802.1x Authentication Page...............................................................................................................................187
Figure 65: Modify 802.1x Authentication Page ...................................................................................................................188
Figure 66: Modify 802.1x Authentication Page Expanded..................................................................................................189
Figure 67: 802.1x Authentication View Page......................................................................................................................194
Figure 68: 802.1x Authenti cation Page with Status Enabled..............................................................................................195
Figure 69: Management Tab...............................................................................................................................................200
Figure 70: IP Management Configuration Page with Static IP Address..............................................................................200
Figure 71: IP Management Configuration Page with DHCP...............................................................................................202
Figure 72: IPv6 Management Con fi guration Page..............................................................................................................204
Figure 73: Discovery & Monitoring Tab...............................................................................................................................211
Figure 74: Locations Tab....................................................................................................................................................212
Figure 75: LLDP Civic Location Page.................................................................................................................................212
Figure 76: Add LLDP Civic Location Page..........................................................................................................................214
Figure 77: LLDP Coordinate Location Page.......................................................................................................................215
Figure 78: Add LLDP Coordinate Location Page................................................................................................................216
Figure 79: LLDP ELIN Location List Page..........................................................................................................................217
Figure 80: LLDP ELIN Location Page.................................................................................................................................218
Figure 81: LLDP Configuration Page..................................................................................................................................219
Figure 82: LLDP Port Config Page .....................................................................................................................................221
Figure 83: Modify LLDP Port Configuration Page...............................................................................................................222
Figure 84: LLDP Port Location Page..................................................................................................................................223
Figure 85: Modify LLDP Port Location Page.......................................................................................................................224
Figure 86: LLDP TLV Tab...................................................................................................................................................225
Figure 87: LLDP TLV Page.................................................................................................................................................225
Figure 88: Modify LLDP TLV Page.....................................................................................................................................226
Figure 89: LLDP MED TLV Page........................................................................................................................................228
Figure 90: Modify LLDP Med TLV Page.............................................................................................................................229
Figure 91: LLDP Neighbors Information Page....................................................................................................................231
Figure 92: LLDP Neighbor Detail Page...............................................................................................................................233
Figure 93: LLDP Statistics Page with Port Statistics Tab ...................................................................................................236
Figure 94: LLDP Statistics Page with Summary Tab..........................................................................................................237
Figure 95: sFlow Port Modify Page.....................................................................................................................................252
Figure 96: sFlow Page with Collectors Tab ........................................................................................................................254
Figure 97: sFlow Collector Page.........................................................................................................................................255
Figure 98: sFlow Page with Port Configurations Tab..........................................................................................................256
11
Preface
This is the web browser management guide for the AT-9000/12POE,
AT-9000/28, AT-9000/28POE, AT-9000/28SP, and AT-9000/52 Managed
Layer 2-4 Gigabit Ethernet EcoSwitches. The instructions in this guide
explain how to start a management session, use the web interface of the
AlliedWare Plus™ Management Software, and configure the features of
the switch.
For hardware installation instructions, refer to the AT-9000 Manager Layer
2 GB EcoSwitch Series Installation Guide.
This preface contains the following sections:
“Document Conventions” on page 12
“Downloading Management Software and Web-based Guides” on
page 13
“Contacting Allied Telesis” on page 14
Caution
The customer, re-seller, sub-contractor, distributor, software
developer or any buyer of an Allied Telesis “ATI” product known as
“customer”, hereby agrees to have all licenses required by any
governmental agency and to comply with all applicable laws and
regulations in its performance under this Agreement, including
export control, maintained by U.S. Commerce Department’s Bureau
of Industry and Security (BIS) and the U.S. Treasury Department’s
Office of Foreign Assets Control (OFAC), international boycotts
regulations and all anti-corruption laws, including the U.S. Foreign
Corrupt Practices Act (FCPA). The customer understands that U.S.
Government authorization may be required to export the software,
commodity or technology, or to re-export or re-transfer to a third
country, another end-user or another end-u se. The customer agrees
to assume all such obligations.
Preface
12
Document Conventions
This document uses the following conventions:
Note
Notes provide additional information.
Caution
Cautions inform you that performing or omitting a specific action
may result in equipment damage or loss of data.
Warning
Warnings inform you that performing or omitting a specific action
may result in bodily injury.
AlliedWare Plus Version 2.1.8 Management Software Web Interface User’s Guide
13
Downloading Management Software and Web-based Guides
Both new releases of management software and product documentation
are available from t he Allied Telesis web site s. The management software
is available at www.alliedtelesis.com/support/software. To display all of
the network management software for a product, use the pull-down menu
labeled “All” to select a hardware product model such as “AT-9000/28SP. ”
Then, double-click the software version that you want to download onto
your local work station or server.
The installation and user guides for all Allied Telesis products are available
in PDF at www.alliedtelesis.com/support/documentation/. To display
all of the product documentation for a product, use the pull-down menu
labeled “All” to select a hardware product model such as “AT-9000/52.”
Then, double-click the document that you want to view. You can view the
documents online or download them onto your local workstation or server.
Preface
14
Contacting Allied Telesis
This section provides Allied Telesis contact information for technical
support and for sales and corporate information.
Online Support You can request technical support online by accessing the Allied Telesis
Knowledge Base: www.alliedtelesis.com/support/kb.aspx. You can use
the Knowledge Base to submit qu estions to our technical support staff and
review answers to previously asked questions.
Email and
Telephone
Support
For Technical Support via email or telephone, refer to the Allied Telesis
web site at www.alliedtelesis.com. Select your country from the list on
the web site and then select the appropriate tab.
Returning
Products Products for return or repair must first be assigned a return materials
authorization (RMA) number. A product sent to Allied Telesis without an
RMA number will be returned to the sender at the sender’s expense. For
instructions on how to obtain an RMA number, go to our web site at
www.alliedtelesis.com and then select Support and Replacement
Services.
Sales or
Corporate
Information
You can contact Allied Telesis for sales or corporate information through
our web site at www.alliedtelesis.com.
Management
Software Updates New releases of the management software for our managed products are
available from the Allied Telesis web site: www.alliedtelesis.com. For
downloading instructions, see “Downloading Management Software and
Web-based Guides” on page 13.
Chapter 1: AlliedWare Plus™ Version 2.1.8 Web Browser Interface
16
Management Sessions
This manual provides procedures that guide you through the AlliedWare
Plus web interface. The AlliedWare Plus Management Software supports
the AT-9000/12POE, AT-9000/28, AT-9000/28POE, AT-9000/28SP, and
AT-9000/52 Layer 2-4 Gigabit Ethernet EcoSwitches in both the web
interface and the Command Line Interface (CLI).
The initial management session of the switch must be from a local (serial
port console) management session because you must assign the switch
an IP address from a local session. After you h ave assigned an IP address
to the switch and enabled web management, you can log onto the web
with either an encrypted (HTTPS) or a non-encrypted (HTTP) web
browser management session.
In addition, the web interface allows access to a subset of the AlliedWare
Plus features. For access to all of the AlliedWare Plus features, you must
use the CLI.
Detailed feature descriptions are not provided in this guide. For thorough
explanations of the features, see the AlliedWare Plus Management
Software Command Line User’s Guide.
Note
The initial management session of the switch must be from a local
(serial port console) management session.
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Web Manager Accounts
You must log on to manage the switch. This requires a valid username and
password. The switch comes with one web manager account with a
username of “manager” and the default password of “friend.” Both the
username and password are case sensitive. This account gives you
access to all management modes and commands.
In the web interface, you can create two additional remote manager
accounts. For instructions, see “Managing User Accounts” on page 44.
The switch supports up to three manager session s (this is configurable ) at
one time.
Chapter 1: AlliedWare Plus™ Version 2.1.8 Web Browser Interface
18
19
Chapter 2
Starting a Management Session
This chapter describes how to start a management session using the
AlliedWare Plus web interface as well as how to select fields, save your
changes, and end a management session. See the following sections:
“Starting a Web Management Session” on page 20
“Selecting Items from a Web Page” on page 26
“What to Configure First” on page 27
“Saving Your Changes” on page 28
“Ending a Web Management Session” on page 29
Chapter 2: Starting a Management Session
20
Starting a Web Management Session
Before you start a remote web management session, you must log onto
the AlliedWare Plus CLI and assign an IP address to the switch. Also, you
must enable web management on th e switch, which is disabled by default.
To assign an IP address, enable web management, and start a web
management session on an AT-9000 switch, do the following:
Note
If you have already assigned the switch an IP address and enabled
the web management, start with Step 8.
1. Log on to the AlliedWare Plus CLI.
The Login Menu is shown in Figure 1.
Figure 1. Login Menu
2. Enter “manager” for the login name and press Return.
You are prompted for a password.
3. Enter “friend” as the password and press Return.
The “awplus>” prompt indicates that you are logged on to the switch.
4. Assign an IP address and subnet mask to the switch by entering the
following commands:
awplus> enabl e
awplus# confi gur e terminal
awplus(conf ig )# interface vlan1
awplus(config-if)# ip address 167.142.10.5/16
Press <ENTER > key to co nne ct .. .
awplus login:
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5. Display the IP address assigned to VLAN 1 by entering the following
commands:
awplus(confi g- if)# exit
awplus(config)# exit
awplus# show ip interface
For a display of this command, see Figure 2.
Figure 2. Displaying the IP address
6. Enable the web browser on the switch by entering the following
commands:
awplus# confi gur e terminal
awplus(conf ig )# http server
If using HTTPS, enter the following commands:
awplus# confi gur e terminal
awplus(conf ig )# service https
7. Save your changes on the switch by copying the running configuration
file to the start-up configuration file. Enter the following command:
awplus# copy running-config startup-config
8. Open a web browser, such as Microsoft Explorer, and en ter one of the
following:
To start an HTTP session, enter: http:// followed by the IP address
of the switch.
To start an HTTPS session, enter: https:// followed by the IP
address of the switch.
The Login Page is displayed. See Figure 3 on page 22.
awplus# show ip int er fac e
Interface IP-Address Status Protocol
vlan1-0 167.142.1 0.5 /1 6 admin up running
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Figure 4. Dashboard Page
The following fields are displayed:
Up Time— Length of time since the switch was last rese t or power
cycled in days, hours, minutes and seconds. This field is located in
the upper right-hand corner of the page.
The System section displays the following information:
Software Version— Software version number of the AlliedWare
Plus software.
Build Date/Time— Month, date, year and time (in the
hour:minute:second format) the software version was built.
Serial No.— Unique serial number of the switch.
MAC Address— MAC address of the switch.
Chapter 2: Starting a Management Session
24
IPv4 Address— IPv4 address and subnet mask of the web
interface. The IPv4 management address is assigned to the
switch. The address is specified in the following format:
xxx.xxx.xxx.xxx
Each xxx is a number from 0 to 255. There are four groups of
numbers that are separated by periods.
Note
For IPv4 addresses, the subnet mask is a decimal number that
represents the number of bits, from left to right, that constitute the
network portion of the address. Here are some examples:
— The decimal mask 16 is equivalent to the mask 255.255.0.0.
— The decimal mask 24 is equivalent to the mask 255.255.255.0.
IPv4 Gateway— IPv4 address of the next hop of the switch’s
default route. The switch uses a default route when it must
communicate with a device that is not on the local IPv4 network.
System Name— Name of the switch. To configure this field, see
“Setting the Switch Information” on page 40.
System Contact— Contact person for the switch. To configure
this field, see “Setting the Switch Information” on page 40.
System Location— Location of the switch. To configure this field,
see “Setting the Switch Information” on page 40.
Management VLAN— Management VLAN assigned to the switch.
The default VLAN is “VLAN1.”
IPv6 Address— IPv6 address and subnet mask of the web
interface. An IPv6 management address for the switch is entered
in the following format:
nnnn:nnnn:nnnn:nnnn:nnnn:nnnn:nnnn:nnnn
Where “n” is a hexadecimal digit from 0 to F. The eight groups of
digits are separated by colons. Groups where all four digits are “0”
can be omitted. Leading “0”s in groups can also be omitted.
For example, the following IPv6 addresses are equivalent:
12c4:421e:09a8:0000:0000:0000:00a4:1c50
12c4:421e:9a8::a4:1c50
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IPv6 Gateway— IPv6 address of the next hop of the switch’s
default route. The switch uses a default route when it must
communicate with a device that is not on the local IPv6 network.
The Services section displays the following information:
SNMP— SNMP setting of the switch.
HTTP— HTTP setting of the switch
Telnet— Indicates if Telnet is enabled or disabled on the switch.
SSH— Indicates if SSH is enabled or disabled on the switch.
Spanning Tree— Indicates if STP, RSTP, or MSTP is enabled on
the switch. The default setting is “RSTP.”
QoS— Indicates if QoS is enabled or disabled on the switch.
LLDP— Indicates if LLDP is enabled or disabled on the switch.
SFLOW— Indicates if sFlow is enabled or disabled on the switch.
802.1x Port Authentication— Indicates if 802.1x Port
Authentication is enabled or disabled on the switch.
Remote Logging— Indicates if the remote log is enabled or
disabled on the switch.
IGMP Snooping— Indicates if IGMP Snooping is enabled or
disabled on the switch.
The Administration Options section displays the following information:
System Upgrade— Select this field to upgrade your system
software. See “Upgrading the Software” on page 50.
Reboot— Select this field to reboot the switch. For instructions,
see “Rebooting a Switch” on page 49.
Chapter 2: Starting a Management Session
26
Selecting Items from a Web Page
To select a feature or parameter, place your curso r over the selection an d
click on the selection.
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What to Configure First
Here are a few suggestions on what to configure during your web
management session on the switch. The initial management session must
be a local management session from the Console port on the switch. For
instructions on how to start a local mana gement session, refer to “Starting
a Web Management Session” on page 20.
Assigning a Name
to the Switch The switch is easier to identify if you assign it a name. The switch’s name
is displayed on the Dashboard page. See Figure 4 on page 23. To chang e
the name of the switch, see “Setting the Switch Information” on page 40.
A name can be up to 39 alphanumeric characters. Spaces and quotation
marks are not permitted.
Adding a
Management IP
Address
You must assign the switch a management IP address before you can
access the web interface. In addition, you may assign the switch both an
IPv4 and an IPv6 address. See Chapter 18, “Setting IPv4 and IPv6
Management” on page 197.
Here are the requirements:
The switch can have one management IPv4 address and one
management IPv6 address.
The switch can have one IPv4 default gateway and one IPv6 default
gateway.
A management IP address must be assigned to a VLAN on the switch.
It can be any VLAN, including the Default_VLAN which is “VLAN1.” For
background information on VLANs, refer to the AlliedWare Plus
Version 2.1.8 Command Line User’s Guide.
The network devices (such as, syslog servers, TFTP servers, etc.)
must be members of the sa me subnet as a management IP address or
have access to it through routers or other Layer 3 devices.
The switch must have a default gateway if the netwo rk devices are not
members of the same subnet as the management IP address. The
default gateway specifies the IP address of a router interface that
represents the first hop to the subnets or networks of the network
devices.
A default gateway address, if needed, must be a member of the same
subnet as a management IP address.
Setting System
Time To set the system time, either manually or with an NTP server, see
“Setting the System Date and Time” on page 32.
Chapter 2: Starting a Management Session
28
Saving Your Changes
In the web interface, there are two ways to save your changes.
After you complete a procedure, click Apply as shown on the System
Contact Information page. See Figure 5. This temporarily saves the
information to the running configuration file, but it is not saved when you
reboot the switch.
Figure 5. System Contact Information Page
To permanently save your changes in the start-up configuration file, click
SAVE at the top of the web page.
Chapter 2: Starting a Management Session
30
31
Chapter 3
Basic Switch Parameters
This chapter describes how to set up basic switch operations in the web
interface. See the following sections:
“Setting the System Date and Time” on page 32
“Setting a Telnet or SSH Server” on page 37
“Setting a Remote Log Server” on page 39
“Setting the Switch Information” on page 40
“Setting the Configuration File” on page 42
“Managing User Accounts” on page 44
“Rebooting a Switch” on page 49
“Upgrading the Software” on page 50
“Returning the AlliedWare Plus Configuration to the Factory Default
Values” on page 52
“Displaying System Information” on page 53
For additional information about basic port settings, see the following
chapters in the AlliedWare Plus Management Software Command Line
Interface User’s Guide:
Basic Switch Management
Basic Switch Management Commands
Chapter 3: Basic Switch Parameters
32
Setting the System Date and Time
This procedure explains how to set the switch’s date and time. Setting the
date and time is important if you plan to view the events in the switch’s
event log or send the events to a sy slog server. The correct date and time
are also important if the management software sends traps to a
management workstation or if you plan to create a self-signed SSL
certificate. Events, traps, and self-signed certificates should contain the
date and time of when they occurred or, in the case of certificates, when
they were created.
There are two ways to set the switch’s date and time. One method is to set
it manually. This method is not recommended because the date and time
are lost if you reboot the switch.
The second method uses the Simple Network Time Protoco l (SNTP). The
AlliedWare Plus Management Software comes with the client version of
this protocol. You can configure the AlliedWare Plus software to obtain the
current date and time from an SNTP or Network Time Protocol (NTP)
server located on your network or the Internet.
SNTP is a reduced version of th e NTP. However, the SNTP client software
in the AlliedWare Plus Management Software is interoperable with NTP
servers.
Note
In order for the management software on the swit ch to communicate
with an SNTP or NTP server, there must be an interface o n the local
subnet from where the switch is able to reach the server. The switch
uses the IP address of the interface as its source address when
sending packets to the server.
Note
The default system time on the switch is midnight, January 1, 2000.
Choose from the following procedures:
“Setting System Time Manually” on page 33
“Setting an SNTP or NTP Server” on page 34
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Setting System
Time Manually To set the system time manually, do the following:
1. Hover the cursor over the System tab.
2. From the System tab, hover over System Settings.
The System Settings Tab is displayed in Figure 6.
Figure 6. System Settings Tab
3. Move the cursor to the right and click Time.
The System Time Settings page is displayed. See Figure 7.
Figure 7. System Time Settings Page
Chapter 3: Basic Switch Parameters
34
4. There are two ways to set the date and time manually. Use either
Step 4 or Step 5. To type in the system date and time in the Date &
Time field, do the following:
a. Enter the time and date in the following format:
yyyy-dd-mm hh:mm:ss
b. Click Apply.
5. Select the calendar icon.
The Calendar page is displayed. See Figure 8.
Figure 8. Calendar Page
a. Use the arrows at the top of the Calendar to select the month and
year.
b. Click on the day of the month.
c. Set the time of day using the following format:
hh:mm:ss
d. Close the Calendar page.
6. Click Apply.
7. Click SAVE to save your changes on the switch.
Setting an SNTP
or NTP Server To configure an SNTP or NTP server, do the following:
1. Hover the cursor over the System tab.
The System Settings Tab is displayed. See Figure 6 on page 33.
2. From the System tab, hover over System Settings.
3. Move the cursor to the right and select Time.
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The System Time Settings page is displayed. For an example of this
page, see Figure 7 on page 33.
4. Select the Network Time Settings tab.
The Network Time Settings page is displayed. See Figure 9.
Figure 9. System Time Settings Page with Network Time Settings Tab
5. To configure the switch to obtain its date and time from an SNTP or
NTP server on your network or the Internet, configure the following
fields:
NTP Status— Enables or disables the SNTP client on the switch.
The default is disabled.
Server IP Address— Specifies the IP address of an SNTP server.
Enter either an IPv4 or IPv6 IP address.
The IPv4 format is: xxx. xxx.xxx.xxx where xxx is a d ecimal number
from 0 to 255.
The IPv6 format is: nnnn:nnnn:nnnn:nnnn:nnnn:nnnn:nnnn:nnnn
where n is a hexadecimal digit from 0 to F.
Time Zone— Specifies the time zone as a measurement of
Greenwich Mean Time (GMT) which is the default setting. Use the
pull-down menu to select the other time zones.
Daylight Savings Time (DST)— Enables or disables the syste m’s
adjustment for daylight savings time. The default is disabled.
Chapter 3: Basic Switch Parameters
36
Note
The switch does not set DST automatically. If the switch is in a
locale that uses DST, you must remember to enable this when DST
begins and disable it when DST ends. If the switch is in a locale that
does not use DST, this option should be set to disabled all the time.
Note
If the local interface on the switch is obtaining its IP address and
subnet mask from a DHCP server, you can configure the server to
provide the interface with an IP address of an NTP or SNTP server.
If you configured the server to pro vid e th is add ress, then you do not
need to enter it here.
6. When you finish configuring the parameters, click Apply.
If you enabled the SNTP client, the switch immediately polls the SNTP
or NTP server for the current date and time. (When SNTP is enabled,
the switch automatically polls the server whenever a change is made
to any of the fields on this page.)
7. Click SAVE to save your changes on the switch.
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Setting a Telnet or SSH Server
The AlliedWare Plus Web Browser interface allows you to configure the
switch as a Telnet or SSH server.
You can use the web browser interface to enable a Telnet server, but not
as a Telnet client. The Telnet client is only supported from the CLI. For
information about how to use a Telnet client, see the AlliedWare Plus
Management Software Command Line Interface User’s Guide.
To enable an SSH server in the web interface, you must first create an
encryption key in the CLI interface. Then, you can enable the SSH server
in the web interface.
The procedures in this section allow you to configure the switch as a
Telnet or SSH server.
To enable Telnet or SSH server on the switch, do the following:
1. From the home page, hover the cursor over the System tab.
2. From the System tab, hover over System Settings.
The System Settings tab is displayed. See Figure 6 on page 33.
3. Move the cursor to the right and select Services from the drop-down
menu.
The System Services page is displayed. See Figure 10.
Figure 10. System Services Page
Chapter 3: Basic Switch Parameters
38
4. Configure the following parameters as necessary:
Telnet— Selecting this field enables a Telnet server on the switch.
To disable a Telnet server on the switch, uncheck the box next to
the Telnet field. This parameter is optional.
SSH— Selecting this field enables an SSH server on the switch.
To disable an SSH server on the switch, uncheck the box next to
the SSH field. This parameter is optional.
Note
Both the Remote Log and Server IP Address fields are used only to
set a remote log server. For information on the se fields, see “Setting
a Remote Log Server” on page 39.
Remote Log— Check or uncheck the box to enable or disable
remote logging.
Server IP Address— This field is only used for the remote log
server.
5. Click Apply.
6. Click SAVE to save your changes on the switch.
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Setting a Remote Log Server
You can use the AlliedWare Plus Web browser interface to enable logging
to a remote log server, which is part of the Syslog feature. However, you
must use the CLI to view or clear the event log. For information about the
CLI, see the Syslog chapters in the AlliedWare Plus Management
Software Command Line Interface User’s Guide.
To activate remote logging on the switch, do the following:
1. Hover the cursor over the System tab.
2. From the System tab, hover over System Settings.
The System Settings tab is displayed. See Figure 6 on page 33.
3. Move the cursor to the right and select Services.
The System Services page is displayed. See Figure 10 on page 37.
4. Configure the following parameters as necessary:
Remote Log— Enables the switch to send status and error
messages to a remote log server. This parameter is optional.
Server IP Address— Specifies the IP address of the remote log
server. This field is mandatory if you selected the Remote Log field
above. You can enter the IP address in the IPv4 format:
xxx.xxx.xxx.xxx.
where each xxx is a decimal number from 0 to 255. The numbers
are separated by periods.
5. Click Apply.
6. Click SAVE to save your changes on the switch.
Chapter 3: Basic Switch Parameters
40
Setting the Switch Information
This procedure allows you to set information about the switch, such as a
switch name, contact, and location. Assigning a name to the switch helps
you identify your switches when you manage them and avoid performing a
configuration procedure on the wrong switch.
To assign a name, location , and contact to a switch, perform the following
procedure:
1. From the home page, hover the cursor over the System tab.
2. From the System tab, hover over System Settings.
The System Settings tab is displayed. See Figure 6 on page 33.
3. Move the cursor to the right and select Contact Information.
The System Contact Information page is displayed. See Figure 11.
Figure 11. System Contact Information Page
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Change the following parameters as necessary:
System Name — Specifies a name for the switch (for example,
Sales Ethernet switch). The name is displayed only on the
Dashboard page. The name can be from 1 to 39 characters in
length. It can include spaces and special characters, such as
dashes and asterisks. By default, there is no system name. This
parameter is optional.
System Contact — Specifies the name of the network
administrator responsible for managing the switch. The name can
be from 1 to 50 characters. It can include spaces and special
characters, such as dashes and asterisks. The default is no n ame.
This parameter is optional.
System Location — Specifies the location of the switch, (for
example, 4th Floor - room 402B). The locat ion can be from 1 to 5 0
characters. The location can include spaces and special
characters, such as dashes and asterisks. The default is no
location. This parameter is optional.
4. Click Apply.
5. Click SAVE to activate your changes on the switch.
Chapter 3: Basic Switch Parameters
42
Setting the Configuration File
Within the web browser interface, you can upload a configuration file on to
the switch, download a configuration file from the switch, or delete a
configuration file. In addition, you can save your changes to the
current configuration file. However, to create a new configuration file, you
must access the switch through the CLI.
The file that you select in t his procedure is th e file that the switch uses the
next time you reboot the switch.
See the following procedures:
“Displaying and Setting the Active Configuration File”
“Uploading a Configuration File” on page 43
Displaying and
Setting the Active
Configuration
File
The file you select in this procedure is the active configuration file after you
reboot the switch.
To select the active configuration file, do the following:
1. From the home page, hover the cursor over the System tab.
2. From the System tab, hover over System Settings.
The System Settings tab is displayed. See Figure 6 on page 33.
3. From the System tab, select Configuration Files from the pull-down
menu.
For an example of the Configuration Files page, see Figure 12.
Figure 12. Configuration Files Page
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The following fields are displayed:
Startup Config— Name of the active b oot configuration file, which
for the switch in the example is “boot.cfg.”
File Name— Name of the file.
File Size— File size in bytes.
Last Modify— Date the configuration file was last modified. The
format is month, date, year.
4. Use the pull-down menu to select the active configuration file. Then
click Apply.
The file you select is the active configuration file after you reboot the
switch.
5. Click SAVE.
Uploading a
Configuration
File
To upload a configuration file onto the switch, do the following:
1. From the home page, hover the cursor over the System tab.
For an example of the System tab, see Figure 6 on page 33.
2. From the System Settings tab, select Configuration Files.
For an example of the Configuration Files page, see Figure 12 on
page 42.
3. Click Upload.
The File Upload page is displayed. See Figure 13.
Figure 13. File Upload Page
4. Click Browse to select a file to upload onto the switch.
5. Select the file and then click Upload.
Chapter 3: Basic Switch Parameters
44
Managing User Accounts
The procedures in this section describe how to create user accounts, as
well as change passwords and privileges. There is also a procedure that
describes how to delete a user account. See the following:
“Adding a User”
“Changing a User Password” on page 45
“Changing the User Privilege” on page 47
“Deleting a User” on page 48
Adding a User To add a user, do the following:
1. From the home page, hover the cursor over the System tab.
The System Settings tab is displayed, see Figure 6 on page 33.
2. From the System Settings tab, select User Management.
For an example of the User Management page, see Figure 14.
Figure 14. User Management Page
AlliedWare Plus Version 2.1.8 Management Software Web Interface User’s Guide
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3. Enter a name in the User Name field.
This field specifies the log-on name for the new account. The name is
case-sensitive and can contain up to fifteen alphanumeric characters.
Spaces and special characters are not allowed.
4. Enter a password in the Password field.
This specifies the password for the new management account. You
can enter the password in plaintext. A plaintext password can consist
of up to 16 alph anumeric characters and is case-sensitive . S paces and
special characters are not allowed.
5. Use the pull-down menu in the Privilege field to select a user privilege
level. Choose from the following:
Level 15: Management accounts with a user level of 15 have
unrestricted access to the software. This is the default setting.
Level 1: Management accounts with a user level of 1 have
restricted access to the software.
6. Click Add User.
7. Click SAVE.
Changing a User
Password To change a user password, do the following:
1. From the home page, hover the cursor over the System tab.
The System Settings Tab is displayed. See Figure 6 on page 33.
2. From the System Settings tab, select User Management.
The User Management page is displayed. See Figure 14 on page 44.
3. From the User Management page, select the Change Password tab.
The User Management page with the Change Password tab is
displayed. See Figure 15 on page 46.
Chapter 3: Basic Switch Parameters
46
Figure 15. User Management Page with Change Password Tab
4. Use the pull-down menu next to the User Name field to select the
username.
The username must already exist.
5. Enter a new password in the New Password field.
You can enter the password in plaintext. A plaintext password can
consist of up to 16 alphanumeric characters and is case-sensitive.
Spaces and special characters are not allowed.
6. Re-enter the new password in the Confirm New Password field.
7. Click Set Password.
8. Click SAVE.
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Changing the
User Privilege To change the privilege of a user, do the following:
1. From the home page, hover the cursor over the System tab.
The System Settings Tab is displayed. See Figure 6 on page 33.
2. From the System Settings tab, select User Management.
The User Management page is displayed. See Figure 14 on page 44.
3. From the User Management page, select the Change Privilege tab.
The User Management page with the Change Privilege tab is
displayed. See Figure 16.
Figure 16. User Management Page with Change Privilege Tab
4. Use the pull-down menu next to the User Name field to select a user.
5. Use the pull-down menu next the New Privilege field to select a user
privilege level. Choose from the following:
Level 15: Management accounts with a user level of 15 have
unrestricted access to the software. This is the default setting.
Chapter 3: Basic Switch Parameters
48
Level 1: Management accounts with a user level of 1 have
restricted access to the switch.
6. Click Set Privilege.
7. Click SAVE to save your changes to the start-up configuration file.
Deleting a User To delete a username from the switch, do the following:
1. From the home page, hover the cursor over the System tab.
The System Settings Tab is displayed. See Figure 6 on page 33.
2. From the System Settings tab, select User Management.
The User Management page is displayed. See Figure 14 on page 44.
3. From the User Management page, select the Delete User tab.
The User Management page with the Delete User tab is displayed.
See Figure 17.
Figure 17. User Management Page with Delete User Tab
4. Use the pull-down menu to select a user.
5. Click Delete User.
6. Click SAVE.
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Rebooting a Switch
Resetting the switch ends your web browser manageme nt session. To
continue managing the switch, you must log in again.
Note
All unsaved changes are discarded when you reset a switch. To
save your changes, click SAVE on the home page.
To reboot a switch, perform the following procedure:
1. Hover the cursor over the System Tab.
The System Settings Tab is displayed. See Figure 6 on page 33.
2. From the drop-down menu, select Dashboard.
The Dashboard Page is displayed. See Figure 4 on page 23.
3. Click Reboot at the bottom of the page.
A confirmation prompt is displayed t hat indicates that the connection to
the web is lost during a reboot.
4. Click OK to reset the switch or Cancel to cancel the procedure.
Note
The switch does not forward packets while it initializes the
AlliedWare Plus software and loads its active co nfigu ratio n file. This
process takes between 20 seconds to 2 minutes to complete,
depending on the number and types of commands in the
configuration file.
Chapter 3: Basic Switch Parameters
50
Upgrading the Software
You can obtain the latest version of the AlliedWare Plus soft ware from the
Allied Telesis web site. You must have access to a TFTP server from your
PC to upgrade the AlliedWare Plus so ftware on your switch. Allied Telesis
does not include this application with the software. The upgrade process
takes approximately three minutes.
Upgrading the system software on the switch ends your current web
browser management session. To continue managing the switch, you
must log in again.
Note
All unsaved changes are discarded when you upgrade the software
on a switch. To save your changes, click SAVE.
To upgrade the AlliedWare Plus software, perform the following
procedure:
1. Open your TFTP server software and provide it with the IP address of
your PC.
2. Hover the cursor over the System Tab.
The System Settings Tab is displayed. See Figure 6 on page 33.
3. From the drop-down menu, select Dashboard.
The Dashboard Page is displayed. See Figure 4 on page 23.
4. Click System Upgrade at the bottom of the page.
The System Upgrade page is displayed. See Figure 18 on page 51.
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Figure 18. System Upgrade Page
5. Click Browse to select an image file from your PC.
6. Click Open to select a file.
7. Click Start Upgrade to begin the software upgrade or close the
System Upgrade page to cancel the procedure.
Chapter 3: Basic Switch Parameters
52
Returning the AlliedWare Plus Configuration to the Factory Default
Values
To reset the AlliedWare Plus Management Software parameters to their
default values, you must use the Command Line Interface. You cannot
reset the management software to its factory settings in the web interface.
For instructions, see the Basic Switch Management chapter in the
AlliedWare Plus Management Software Command Line User’s Guide on
our web site. To locate manuals online, see “Downloading Management
Software and Web-based Guides” on page 13.
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Displaying System Information
To view basic information about the switch, do the following:
1. Hover the cursor over the System Tab.
2. From the drop-down menu, click Dashboard.
The Dashboard Page is displayed. See Figure 4 on page 23.
The following fields are displayed:
Up Time— Length of time since the switch was last rese t or power
cycled in days, hours, minutes and seconds.
The System section displays the following information:
Software Version— Software version number of the AlliedWare
Plus software.
Build Date/Time— Month, date, year and time (in the
hour:minute:second format) the software version was built.
Serial No.— Unique serial number of the switch.
MAC Address— MAC address of the switch.
IPv4 Address— IPv4 management address assigned to the switch
and subnet mask of the web interface. The address is specified in
the following format:
xxx.xxx.xxx.xxx
Each “xxx” is a decimal number from 0 to 255. The numbers must
be separated by periods.
Note
For both the IPv4 and IPv6 addresses, the subnet mask is a decimal
number that represents the number of bits, from left to right, that
constitute the network portion of the address. Here are some
examples:
— The decimal mask 16 is equivalent to the mask 255.255.0.0.
— The decimal mask 24 is equivalent to the mask 255.255.255.0
— The IPv6 decimal mask 24 is equivalent to the mask
FFFF:FF00::0.
IPv4 Gateway— IPv4 address of the next hop of the switch’s
default route. The switch uses a default route to reach a remote
subnet.
System Name— Name of the switch. To configure this field, see
“Setting the Switch Information” on page 40.
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54
System Contact— Contact person for the switch. To configure
this field, see “Setting the Switch Information” on page 40.
System Location— Location of the switch. To configure this field,
see “Setting the Switch Information” on page 40.
Management VLAN— Management VLAN assigned to the switch.
The default VLAN is “VLAN1.”
IPv6 Gateway— IPv6 address of the next hop of the switch’s
default route. The switch uses a default route to reach a remote
subnet.
IPv6 Address— IPv6 address and subnet mask of the web
interface. An IPv6 management address for the switch is entered
in the following format:
nnnn:nnnn:nnnn:nnnn:nnnn:nnnn:nnnn:nnnn
Where “n” is a hexadecimal digit from 0 to F. The eight groups of
digits are separated by colons. Groups where all four digits are “0”
can be omitted. Leading “0”s in groups can also be omitted. For
example, the following IPv6 addresses are equivalent:
12c4:421e:09a8:0000:0000:0000:00a4:1c50
12c4:421e:9a8::a4:1c50
The Services section displays the following information:
SNMP— SNMP setting of the switch.
HTTP— HTTP setting of the switch
Telnet— Indicates if Telnet is enabled or disabled on the switch.
SSH— Indicates if SSH is enabled or disabled on the switch.
Spanning Tree— Indicates if STP, RSTP, or MSTP is enabled on
the switch. The default setting is “RSTP.”
QoS— Indicates if QoS is enabled or disabled on the switch.
LLDP— Indicates if LLDP is enabled or disabled on the switch.
SFLOW— Indicates if sFlow is enabled or disabled on the switch.
802.1x Port Authentication— Indicates if 802.1x Port
Authentication is enabled or disabled on the switch.
Remote Logging— Indicates if the remote log is enabled or
disabled on the switch.
IGMP Snooping— Indicates if IGMP Snooping is enabled or
disabled on the switch.
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The Administration Options section displays the following information:
System Upgrade— Click this field to upgrade your system
software. See “Upgrading the Software” on page 50.
Reboot— Click this field to reboot the switch. For inst ructions, see
“Rebooting a Switch” on page 49.
Chapter 3: Basic Switch Parameters
56
57
Chapter 4
Setting Port Parameters
This chapter describes how to display and modify the port settings, such
as back pressure and flow control. In addition, it provides procedures to
display and modify storm control settings.
This chapter contains the following sections:
“Displaying the Port Parameters” on page 58
“Changing the Port Settings” on page 62
“Displaying the Storm Control Settings” on page 66
“Modifying the Storm Control Settings” on page 68
For additional information about the port parameters a nd the storm control
feature, see the following chapters in the AlliedWare Plus Management
Software Command Line Interface User’s Guide:
Port Parameters
Port Parameter Commands
Chapter 4: Setting Port Parameters
58
Displaying the Port Parameters
The port numbering system in the AlliedWare Plus web browser interface
has the format shown in Figure 19.
Figure 19. Port Numbering System
The port numbering system is defined as follows:
Switch ID: This number is used if the switch supports stacking. It is
the switch’s ID number in a stack. This number is always 1 for
AT-9000 Series switches because they do not support stacking.
Module Slot ID: This number is used for modular switches that
have slots for networking modules. It is used to identify the
networking modules by their slot numbers. This number is always
0 for AT-9000 Series switches because they are not modular
switches.
Port number: This is a port number.
For example, port 1 would be displayed as port1.0.1.
Within the display, there is no differentiation between ports 25 through 28
and ports 25R through 28R. In the web interface, if you want to see if port
25 is connected versus port 25R, go to the home page and look at the
illustration of the switch. For an example of the home page, see Figure 4
on page 23.
To display the settings for all of the switch ports, do the following:
1. Hover the cursor over the Switching tab.
The Switching tab is displayed. See Figure 20 on page 59.
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Figure 20. Switching Tab with Port Tab
2. From the Switching tab, hover over Port.
The Port tab expands to the right.
3. From the Port tab, move the cursor to the right and select Port
Configuration from the drop-down menu.
The Port Configuration page is displayed. See Figure 21.
Figure 21. Port Configuration Page
Chapter 4: Setting Port Parameters
60
4. The following fields are displayed:
Interface— Port number.
Type— Indicates if the port is fiber or copper. If fiber: 1000Base-
SX/LX/CX; if copper: 10/100/1000Base-T.
Status— Indicates if the port is enabled or disabled. The default
setting is “Enabled.” Disabling ports turns off their receivers and
transmitters so that they cannot forward traffic.
Link— Indicates whether the port has successfully connected to a
port on another switch or unit.
Negotiation— Indicates Autonegotiation or Manual. By default,
Autonegotiation is enabled.
Speed— Speed of the port. The default setting is “1 Gbps” for
1000Mbps. The other possible options are 10Mbps and 100Mbps.
Duplex— Duplex mode of the twisted pair ports or Auto
Negotiation. The three settings are half, full, and Auto Negotiation.
Polarity— Indicates if the port’s wiring configuration is MDI
(medium dependent interface) or MDI-X (medium dependent
interface crossover). This setting only applies to a twisted pair port
that is operating at 10 or 100 Mbps.
Note
You can enable or disable backpressure on ports where you
disabled Auto-Negotiation, and set the speeds and duplex modes
manually to 10 or 100 Mbps in half-duplex mode.
Back Pressure— Indicates if back p ressure is enabled or disabled
on a port. Backpressure is used by ports during periods of packet
congestion to temporarily stop their network counterparts from
transmitting more packets. This prevents a buffer overrun, and the
subsequent loss and retransmission of network packets. A port
initiates backpressure by transmitting on the shared link to cause a
data collision, which causes its link partner to cease transmission.
The default setting is “Disabled.”
Back Pressure Limit— Indicates the threshold level for back
pressure on a port. Specifies the number of cells for back
pressure. The default value is 7935 cells.
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Flow Control— Indicates if flow control (send and receive) is
enabled or disabled on a port. When flow control is en abled, a port
sends pause packets when it reaches the point of packet
congestion. Also, the port stops transmitting packets when it
receives pause packets from its local or remote counterpart. When
flow control is disabled, the port sends pause packets regardless of
packet congestion. In addition the port continues transmitting
packets when it receives pause packets from its local or remote
counterpart. The default is “Disabled.”
Flow Control Limit— Indicates the threshold level for flow control
on a port. The default value is 7935.
Chapter 4: Setting Port Parameters
62
Changing the Port Settings
You can change the settings of one port at a time. Use the following
procedure to change the port settings or reset a port to its default value.
To change the port settings, do the following:
1. Hover the cursor over the Switching tab.
The Switching tab is displayed. See Figure 20 on page 59.
2. From the Switching tab, hover over Port.
The Port tab expands to the right.
3. From the Port tab, move the cursor to the right and select Port
Configuration.
The Port Configuration page is displayed. See Figure 21 on page 59.
4. Click Edit next to the port that you want to modify.
The Port Configuration Modify page is displayed. See Figure 22 on
page 63.
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Figure 22. Port Configuration Modify Page
5. Configure the following parameters as needed:
Interface— Port number. You cannot modify this field.
Port Type— Type of port, fiber or copper. You cannot modify this
field.
Status— Specifies if the port is enabled or disabled. Choose
between “Enabled” or “Disabled.” The default setting is “Enabled.”
Disabling ports turns off their receivers and transmitters so that
they cannot forward traffic. You may want to disable a port if there
is a problem with a cable or network device.
Chapter 4: Setting Port Parameters
64
Negotiation— State of Auto Negotiation on a port. Select “Auto” t o
enable Auto Negotiation on a port or “Manual” to disable Auto
Negotiation. The default setting is Auto. When the setting for this
field is “Auto,” the Speed and Duplex fields change from white to
brown, and you cannot select them. To change the Speed and
Duplex Mode fields, change the Negotiation setting to “Manual.”
Speed— Port speed. Select 10mb, 100mb, or 1000mb.
Duplex Mode— Sets the duplex mod es of the twisted pair ports or
activates Auto-Negotiation manually. The settings are half, full, or
Auto Negotiation. Ports operating in half-duplex mode can either
receive or transmit packets, but not both at the same time. Ports
operating in full-duplex can both send and receive packets,
simultaneously.
Polarity— Sets the wiring configuration of the twisted pair ports
when they are operating at 10 or 100 Mbps, in either half- or full-
duplex mode.
A twisted pair port that is operating at 10 or 100 Mbps can have
one of two wiring configurations. The configurations are known as
MDI and MDI-X. To forward traffic, a port on the switch and a port
on a network device must have different settin gs. For instance, the
wiring configuration of a switch port has to be MDI if the wiring
configuration on a port on a network device is MDIX.
To set this parameter on a port, you must set the speed and duplex
mode manually. A port that is using Au to-Negotiation sets its wiring
configuration automatically using auto-MDI/MDIX.
Back Pressure Status— Activates or deactivates back pressure
on the ports. Use this field to enable or disable back pressure on
ports that are operating at 10 or 100 Mbps in half-duplex mode.
Back pressure is used by ports during periods of packet
congestion to temporarily stop their network counterparts from
transmitting more packets. This prevents a buffer overrun and the
subsequent loss and retransmission of network packets. A port
initiates back pressure by transmitting on the shared link to cause
a data collision, which causes its link partner to cease
transmission.
Back Pressure Limit (1 - 7935)— Threshold level for back
pressure on a port. Specifies the number of cells for back
pressure. A cell represents 128 bytes. The rang e is 1 to 7935 cells.
The default value is 7935 cells.
Flow Control Status— Enables or disables the flow control
feature. By default, flow control is disabled on a port.
Flow Control Limit (1 - 7935)— Threshold levels for flow control
on the ports. Specifies the number of cells for flow control. A cell
represents 128 bytes. The range is 1 to 7935 cells. The default
value is 7935 cells.
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6. To set the port to the default port value, click Default. Otherwise, skip
this step.
7. Click Apply.
8. Click SAVE.
Chapter 4: Setting Port Parameters
66
Displaying the Storm Control Settings
To display the storm control settings, do the following:
1. Hover the cursor over the Switching tab.
The Switching tab is displayed. See Figure 20 on page 59.
2. From the Switching tab, hover over Port.
The Port tab expands to the right.
3. From the Port tab, move the cursor to the right and select Storm
Control.
The Storm Control List page is displayed. See Figure 23.
Figure 23. Storm Control List Page
The following fields are displayed:
Interface— Port number.
Broadcast— Indicates whether Broadcast storm-control setting is
enabled (ON) or disabled (OFF).
Broadcast Level— Maximum number of ingress packets per
second of broadcast packets the port will forward. The range is 0 to
33,554,431 packets. The default is 33,554,431 packets.
Multicast— Indicates whether Multicast storm-control setting is
enabled (ON) or disabled (OFF).
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Multicast Level— Maximum number of ingress packets per
second of multicast packets the port will forward. T he ran ge is 0 t o
33,554,431 packets. The default is 33,554,431 packets.
Dlf— Indicates whether unknown unicast storm-control setting is
Enabled (ON) or Disabled (OFF).
Dlf Level— Maximum number of ingress packets per second of
unknown unicast packets the port forwards. The range is 0 to
33,554,431 packets. The default is 33,554,431 packets.
Chapter 4: Setting Port Parameters
68
Modifying the Storm Control Settings
To modify the storm control settings, do the following:
1. Hover the cursor over the Switching tab.
The Switching tab is displayed. See Figure 20 on page 59.
2. From the Switching tab, hover over Port.
The Port tab expands to the right.
3. From the Port tab, move the cursor to the right and select Storm
Control.
The Storm Control List page is displayed. See Figure 23 on page 66.
4. Click Edit on the port that you want to modify.
The Storm Control Settings page is displayed. See Figure 24.
Figure 24. Storm Control Settings Page
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5. Change the following fields as needed:
Interface— Indicates the port number. You cannot change this
field.
Broadcast— Specifies Broadcast packets are received by the
port: “ON”, or not received by the port: “OFF”. By default,
Broadcast packets are not received by a port.
Broadcast Level— Maximum number of ingress packets per
second of broadcast packets the port will forward. The range is 0 to
33,554,431 packets. The default is 33,554,431 packets.
Multicast— Specifies multicast packets are “ON” or “OFF” on the
port. By default, this field is set to “OFF” which indicates multicast
packets are not received by a port.
Multicast Level— Maximum number of ingress packets per
second of multicast packets the port forwards. The range is 0 to
33,554,431 packets. The default is 33,554,431 packets.
DLF— Specifies unknown unicast packets are “ON” or “OFF” on
the port. By default, the setting is “ON” indicating that unknown
unicast packets are received by a port.
DLF Level— Maximum number of ingress packets per second of
unknown unicast packets the port forwards. The range is 0 to
33,554,431 packets. The default is 33,554,431 packets.
6. Click Apply.
7. Click SAVE.
Chapter 4: Setting Port Parameters
70
71
Chapter 5
Setting Port Statistics
This chapter describes how to display and clear port statistics. Within the
AlliedWare Plus software, you can display a nd clear transmit, receive, and
interface port statistics.
This chapter contains the following topics:
“Displaying Port Statistics” on page 72
“Clearing Port Statistics” on page 79
“Refreshing Port Statistics” on page 80
For additional information about port statistics, see the following chapters
in the AlliedWare Plus Management Software Command Line Interface
User’s Guide:
Port Parameters
Port Parameter Commands
Chapter 5: Setting Port Statistics
72
Displaying Port Statistics
You can display several types of port statistics. See the following sections:
“Displaying Transmit and Receive Port Statistics”
“Displaying Receive Statistics” on page 73
“Displaying Transmit Statistics” on page 75
“Displaying Interface Statistics” on page 77
Displaying
Transmit and
Receive Port
Statistics
To display the transmit and receive statistics for all of the switch ports, do
the following:
1. Hover the cursor over the Switching tab.
The Switching tab is displayed. See Figure 20 on page 59.
2. From the Switching tab, hover over Port.
3. Move the cursor to the right and select Statistics.
The Port S t atistics page is displayed with the Tx + Rx tab automa tically
selected. See Figure 25.
Figure 25. Port Statistics Page with Tx + Rx Tab
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The following fields are displayed:
Interface— Port number.
0-64 Byte Frames— Number of frames transmitt ed by the port that
contain 0 to 64 bytes.
65-127 Byte Frames— Number of frames transmitted by the port
that contain 65 to 127 bytes.
128-255 Byte Frames— Number of frames transmitted by the port
that contain 128 to 255 bytes.
256-511 Byte Frames— Number of frames transmitted by the port
that contain 256 to 511 bytes.
512-1023 Byte Frames—Number of frames transmitted by the
port that contain 512 to 1023 bytes.
1024-1518 Byte Frames— Number of frames transmitted by the
port that contain 1024 to 1518 bytes.
1519-1522 Byte Frames— Number of frames transmitted by the
port that contain 1519 to 1522 bytes.
Displaying
Receive Statistics To display the statistics on the Receive Statistics tab, do the following:
1. Hover the cursor over the Switching tab.
The Switching tab is displayed. See Figure 20 on page 59.
2. From the Switching tab, hover over Port.
3. Move the cursor to the right and select Statistics.
The Port Statistics page with the Tx + Rx tab selected is displayed.
See Figure 25 on page 72.
4. Click on the Receive Tab.
The Port Statistics with the Receive tab selected is displayed. See
Figure 26 on page 74.
Chapter 5: Setting Port Statistics
74
Figure 26. Port Statistics with Receive Tab
The following fields are displayed:
Interface— Port number.
Total Bytes— Number of received bytes.
Total Frames— Number of received frames.
Total Error Frames— Total number of received frames with
errors.
Multicast Frames— Number of received multicast frames.
Broadcast Frames— Number of received broadcast frames.
CRC Frame Errors— Number of frames with a cyclic redundancy
check (CRC) error, but with the proper length (64 -1518 bytes)
received by the port.
FCS Error Frames— Number of ingress frames that had frame
check sequence (FCS) errors.
Pause Frames— Number of received flow control pause frames.
Oversize Frames— Number of received frames that exceeded the
maximum size as specified by IEEE 802.3 (1518 bytes including
the CRC).
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Fragmented Frames— Number of undersized frames and frames
with alignment errors.
Jabber Frames— Number of occurrences of corrupted data or
useless signals the port has encountered.
Note
The following fields are not displayed in Figure 26 on page 74.
Undersize Frames— Number of received frames that were less
than the minimum length as specified by IEEE 802.3 (64 bytes
including the CRC).
Dropped Frames— Number of frames successfully received and
buffered by the port, but discarded and not forwarded.
MTU Exceed Discarded Frames— Number of received frames
with an MTU that exceeds the MTU of the switch. These frames
are discarded.
MAC Error Frames— Number of Receive Error events seen by
the receive side of the MAC.
Displaying
Transmit
Statistics
To display the statistics on the Transmit Statistics tab, do the following:
1. Hover the cursor over the Switching tab.
The Switching tab is displayed. See Figure 20 on page 59.
2. From the Switching tab, hover over Port.
3. Move the cursor to the right and select Statistics.
The Port Statistics page with the Tx + Rx tab selected is displayed.
See Figure 25 on page 72.
4. Click the Transmit tab.
Chapter 5: Setting Port Statistics
76
The Port Statistics with the Transmit tab selected is displayed. See
Figure 27.
Figure 27. Port Statistics with Transmit Tab
The following fields are displayed:
Interface— Port number.
Total Bytes— Number of transmitted bytes.
Total Frames— Number of transmitted frames.
Total Error Frames— Number of transmitted frames with errors.
Multicast Frames— Number of transmitted multicast frames.
Broadcast Frames— Number of transmitted broadcast frames.
Pause Frames Sent— Number of transmitted flow control pause
frames.
Deferred— Number of egress frames that the port could not
immediately transmit.
Single Collision— Number of frames that were transmitted after
at least one collision.
Multi Collision— Number of frames that were transmitted after
more than one collision.
Late Collision— Number of late collisions.
Excessive Collision— Number of excessive collisions.
Note
The following fields are not displayed in Figure 27 on page 76.
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Total Collision Frames— Total number of collisions on the port.
MAC Error Frames— Number of frames not transmitted correctly
or dropped due to an internal MAC transmit error.
Displaying
Interface
Statistics
To display the interface statistics, do the following:
1. Hover the cursor over the Switching tab.
The Switching tab is displayed. See Figure 20 on page 59.
2. From the Switching tab, hover over Port.
3. Move the cursor to the right and select Statistics.
The Port Statistics page with the Tx + Rx tab selected is displayed.
See Figure 25 on page 72.
4. Click the Interface tab.
The Port Statistics Page with the Interface tab selected is displayed.
See Figure 28.
Figure 28. Port Statistics Page with Interface Tab
Chapter 5: Setting Port Statistics
78
The following fields are displayed:
Interface— Port number.
Rx Unicast Packets— Number of ingress unicast packets.
Rx Discard Packets— Number of ingress packets that were
discarded prior to transmission because of an error.
Rx IP Header Error Packets— Number of ingress packets that
were discarded because of an IP Header error.
Tx Unicast Packets— Number of egress unicast packets.
Tx Discard Packets— Number of egress packets that were
discarded prior to transmission because of an error.
Tx Error Packets— Number of egress error packets.
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Clearing Port Statistics
To clear the statistics for a port, do the following:
1. Hover the cursor over the Switching tab.
The Switching tab is displayed. See Figure 20 on page 59.
2. From the Switching tab, hover over Port.
3. Move the cursor to the right and select Statistics.
The Port Statistics Page with Tx + Rx tab selected is displayed. See
Figure 25 on page 72.
4. Select the desired Port Statistics tab. Choose from the following:
Tx+Rx— Displays the transmit and receive statistics. (This is the
default.)
Receive— Displays the receive statistics.
Transmit— Displays the transmit statistics.
Interface— Displays the interface statistics.
5. Click Clear on the port that you want to clear.
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Refreshing Port Statistics
To refresh the port statistics, do the following:
1. Hover the cursor over the Switching tab.
The Switching tab is displayed. See Figure 20 on page 59.
2. From the Switching tab, hover over Port.
3. Move the cursor to the right and select Statistics.
The Port Statistics Page with Tx + Rx tab selected is displayed. See
Figure 25 on page 72.
4. Select the desired Port Statistics tab. Choose from the following:
Tx+Rx— Displays the transmit and receive statistics. (This is the
default.)
Receive— Displays the receive statistics.
Transmit— Displays the transmit statistics.
Interface— Displays the interface statistics.
5. Click the Reload Page button.
Chapter 6
Setting Port Mirroring
The port mirror is a management tool that allows you to monitor the traffic
on one or more ports on the switch. It works by copying the traffic from
designated ports to another port where the traffic can be monitored with a
network analyzer. The port mirror can be used to troubleshoot network
problems or to investigate possible unauthorized network access. The
performance and speed of the switch is not affected by the port mirror.
This chapter provides a brief description of the port mirroring feature and
explains how to display and set port mirroring. See the following sections:
“Overview” on page 82
“Displaying Port Mirroring Settings” on page 83
“Assigning a Destination Port” on page 85
“Specifying Direction Type” on page 86
For more information about port mirroring, see the following chapters in the
AlliedWare Plus Management Software Command Line Interface User’s
Guide:
Port Mirror
Port Mirror Commands
Chapter 6: Setting Port Mirroring
82
Overview
To use the port mirroring feature, yo u must designate one or more source
ports and one destination port. The source ports are the ports whose
packets are mirrored and mon itored. The destination port is the po rt where
the packets from the source ports are copied and where the network
analyzer is connected. There can be only one destination port on the
switch.
Here are guidelines for setting the port mirroring feature:
The switch supports only one mirroring port.
Port mirroring can have one destination port.
Port mirroring can have more than one source port . This allows you to
monitor the traffic on multiple port s at the same time. For example, you
might monitor the traffic on all the ports of a particular VLAN.
You can select whether to mirro r the receive traffic, the transmit traffic,
or both, on the source ports.
The destination port must not be a member of a static port trunk or an
LACP trunk.
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Displaying Port Mirroring Settings
To display the port mirroring assign ments for all of the switch ports, do the
following:
1. Hover the cursor over the Switching tab.
The Switching tab is displayed. See Figure 20 on page 59.
2. From the Switching tab, hover over Port.
The Port tab is displayed.
3. From the Port tab, move the cursor to the right and select Mirroring.
The Port Mirroring List page is displayed. See Figure 29.
Figure 29. Port Mirroring List Page
The following fields are displayed:
Destination Port— Port where the packets from the source ports
are copied and where the network analyzer is connected. There
can be only one destination port assigned to the switch. In
Figure 29, the Destination Port has not yet been assigned.
Interface— Port number.
Mirror Transmit— Source port whose transmitted (egress)
Chapter 6: Setting Port Mirroring
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packets are mirrored and monitored. In this case, transmit is the
specified direction the packets mirror. There can be multiple
source ports on the switch.
Mirror Receive— Source port whose received (ingress) packets
are mirrored and monitored. In this case, receive is the specified
direction the packets mirror. There can be multiple source ports on
the switch.
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Assigning a Destination Port
The destination port is the source port where the packets are copied. You
can only assign one destination port to the switch.
To assign a destination port, do the following:
1. Hover the cursor over the Switching tab.
The Switching tab is displayed. See Figure 20 on page 59.
2. From the Switching tab, hover over Port.
The Port tab is displayed.
3. From the Port tab, move the cursor to the right and select Mirroring
from the drop-down menu.
The Port Mirroring List page is displayed. See Figure 29 on page 83.
4. Select the pull-down menu next to the Destination Port field at the top
of the page.
5. Click on the port that you want to designate as the destination port.
You can only assign one destination port to a switch.
6. Click Apply.
The Edit option is removed from the port. This indicates the
destination port for the switch.
7. Click SAVE.
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Specifying Direction Type
To specify source ports and type of packet direction, do the following:
1. Hover the cursor over the Switching tab.
The Switching tab is displayed. See Figure 20 on page 59.
2. From the Switching tab, hover over Port.
The Port tab is displayed.
3. From the Port tab, move the cursor to the right and select Mirroring
from the drop-down menu.
The Port Mirroring List page is displayed. See Figure 29 on page 83.
4. Click Edit next to the port that you want to specify as a transmitting or
receiving port mirror.
Note
You cannot select the destination port.
The Modify Port Mirroring Page is displayed. See Figure 30.
Figure 30. Modify Port Mirroring Page
Note
The Interface field indicates the port number.
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5. Select the type of mirroring for the port. The choices are:
None— Port is not a source port.
Send— Port is a transmitting (egress) source port.
Receive— Port is a receiving (ingress) source port.
Both— Port is both a transmitting and a receiving source port.
By default, there is no mirror port assigned.
6. Click Apply.
7. Click SAVE.
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89
Chapter 7
Setting the Port Spanning Tree Protocol
The Spanning Tree Protocol (STP) and the Rapid Spanning Tree Protocol
(RSTP) guard against the formation of loops in an Ethernet network
topology. A topology has a loop when two or more nodes can transmit
packets to each other over more than one data path. Packets can become
caught in repeating cycles, referred to as broadcast storms, that
needlessly consume network bandwidth and that can significantly reduce
network performance.
This chapter provides a brief description of the spanning tree protocols and
explains how to set spanning tree on a port. See the following sections:
“Overview” on page 90
“Displaying Port Spanning Tree Protocol Settings” on page 91
“Modifying Port Spanning Tree Protocol Settings” on page 93
Note
For information about how to set a spanning tree protocol for the
switch, see Chapter 13, “Setting Switch Spanning Tree Protocols” on
page 147.
For more information about spanning tree, see Section VI: Spanning Tree
Protocols in the AlliedWare Plus Management Software Command Line
Interface User’s Guide.
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Overview
STP and RSTP prevent loops from forming by ensuring that on ly one path
exists between the end nodes in your network. Where multiple paths exist,
these protocols place the extra paths in a standby or blocking mode. In
addition, STP and RSTP can activate redundant paths if primary paths go
down. These protocols guard against multiple links between segments
and the risk of broadcast storms, and maintain network connectivity by
activating backup redundant paths.
One of the primary differences between the two protocols is in the time
each takes to complete the process referred to as convergence. When a
change is made to the network topology, such as the addition of a new
bridge, a spanning tree protocol determines whether there are redundant
paths that must be blocked to prevent data loops, or activated to maintain
communications between the various network segments. This is the
process of convergence.
With STP, convergence can take up to a minute to complete in a large
network. This can result in the loss of communication between various
parts of the network during the convergence pr ocess, and the subsequent
lost of data packets.
RSTP is much faster than STP. It can complete a convergence in
seconds, and so greatly diminish the possible impact the process can
have on your network. Only one spanning tree can b e active on the switch
at a time. The default setting is RSTP.
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Displaying Port Spanning Tree Protocol Settings
To display the Spanning Tree Protocol settings for all of the switch ports,
do the following:
1. Hover the cursor over the Switching tab.
The Switching tab is displayed. See Figure 20 on page 59.
2. From the Switching tab, hover over Port.
3. Move the cursor to the right and select Spanning Tree.
The Port Spanning Tree Settings page is displayed. See Figure 31.
Figure 31. Port Spanning Tree Settings Page
The following fields are displayed:
Interface— Port number.
Path Cost— Cost of a port to the root bridge. This cost is
combined with the costs of the other ports in the path to the root
bridge, to determine the total path cost. The lower the numeric
value, the higher the priority of the path. The range is 1 to
200000000.
Priority (0-15)— Bridge priority number for the switch. The device
with the lowest priority number in the spanning tree domain
becomes the root bridge. If two or more devices have the same
priority value, the device with the numerically lowest MAC addre ss
becomes the root bridge.
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Version— Spanning Tree Protocol version. (STP or RSTP). The
default setting is RSTP.
Edge Port— Indicates whether there are edge ports on the switch
(Yes) or not (No). Edge ports are not connected to spanning tree
devices or to LANs that have spanning tree devices. As a
consequence, edge ports do not receive BPDUs. If an edge port
starts to receive BPDUs, it is no longer considered an edge po rt by
the switch.
Link Type— Indicates whether ports are Auto, point-to-point, or
shared.
Loop Guard— Indicates the BPDU loop-guard feature on the
ports is enabled (Yes) or disabled (No). If a port that has this
feature activated stops receiving BPDU packets, the switch
automatically disables it. A port that has been disabled by the
feature remains in that state until it begins to receive BPDU
packets again or the switch is reset. The default setting for BPDU
loop-guard on the ports is disabled.
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Modifying Port Spanning Tree Protocol Settings
To modify port settings for Spanning Tree Protocol, do the following:
1. Hover the cursor over the Switching tab.
The Switching tab is displayed. See Figure 20 on page 59.
2. From the Switching tab, hover over Port.
3. Move the cursor to the right and select Spanning Tree.
The Port Spanning Tree page is displayed. See Figure 31 on page 91.
4. Click Edit on the port that you want to change.
The Modify Port Spanning Tree Settings page is displayed. See
Figure 32.
Figure 32. Modify Port Spanning Tree Settings Page
5. Change the following settings as needed:
Interface— Port number. You cannot change this parameter from
this page.
Version— Spanning Tree Protocol version. The default setting is
RSTP. You cannot change this parameter from this page.
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Path Cost (1-200000000)— Use this field to specify the cost of a
port to the root bridge. This cost is combined with the costs of the
other ports in the p ath to the root bridge, to determine the total path
cost. The lower the numeric value, the higher the priority of the
path. The range is 1 to 200000000.
Priority (0-15) (Actual value is multiple of 16)— Specifies a
bridge priority number for the switch. The device with the lowest
priority number in the spanning tree domain becomes the root
bridge. If two or more devices have the same priority value, the
device with the numerically lowest MAC address becomes the root
bridge.
Edge Port— Designates the edge ports on the switch. Choose
“Yes” to active an edge type or “No” to make an edge port inactive.
Edge ports are not connected to spanning tree devices or to LANs
that have spanning tree d evices. As a consequence, edge ports do
not receive BPDUs. If an edge port starts to receive BPDUs, it is
no longer considered an edge port by the switch.
Link Type— Choose from the following settings:
AUTO If a port is set to full-duplex mode,
AUTO indicates the Link Type is point-
to-point. If a port is set to half-duplex
mode, AUTO indicates the Link Type is
shared.
PTP (point-to-point) Allows for rapid transition of a port to
the forwarding state during the
convergence process of the spanning
tree domain.
Shared Disables rapid transition of a po rt. You
may want to set the link type to shared
if a port is connected to a hub with
multiple switches connected to it.
Loop Guard— Specifies if the BPDU loop-guard feature on the
ports is enabled (Yes) or disabled (No). If a port with the loop
guard activated stops receiving BPDU packets, the switch
automatically disables the port. A port that has been disabled by
the feature remains in that state until it begins to receive BPDU
packets again or the switch is reset. The default setting for BPDU
loop-guard on the ports is disabled.
6. Click Apply.
7. Click SAVE.
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Chapter 8
Setting the MAC Address
The procedures in this chapter describe how to display the MAC address
table that resides on the switch, as well as how to add a unicast or
multicast MAC addresses to the table. Procedures to modify and delete
MAC addresses within the table are also included in this chapter.
See the following sections:
“Displaying the MAC Address” on page 96
“Assigning a MAC Address” on page 98
“Deleting a MAC Address” on page 101
For more information about MAC addresses, see the following chapters in
the AlliedWare Plus Management Software Command Line Interface
User’s Guide:
MAC Address Table
MAC Address Table Commands
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Displaying the MAC Address
You can display both the unicast and multicast addresses in the MAC
address table. See the following procedures:
“Displaying Unicast MAC Addresses”
“Displaying Multicast MAC Addresses” on page 97
Displaying
Unicast MAC
Addresses
To display the unicast MAC addresses, do the following:
1. Hover the cursor over the Switching Tab.
The Switching Tab is displayed. See Figure 33.
Figure 33. Switching Tab
2. Hover over Mac Table and then move the cursor to the right to select
Unicast.
The Unicast MACs page is displayed. See Figure 34.
Figure 34. Unicast MACs Page
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The following fields are displayed:
MAC Address— Dynamic or static unicast MAC address learned
on or assigned to the port.
Vlan— ID number of the VLAN where the node designated by the
MAC address is a member. The default VLAN is Vlan1.
Port— Port where the address was learned or assigned.
Type— Type of MAC address, static or dynamic.
Displaying
Multicast MAC
Addresses
To display the multicast addresses in the MAC address table, do the
following:
1. Hover the cursor over the Switching tab.
The Switching tab is displayed. See Figure 33 on page 96.
2. Hover over Mac Table and then move the cursor to the right to select
Multicast.
The Multicast MACs Page is displayed. See Figure 35.
Figure 35. Multicast MACs Page
The following fields are displayed:
MAC Address— Dynamic or static unicast MAC address learned
on or assigned to the port.
Vlan— ID number of the VLAN where the multicast application and
the host nodes are members. The default VLAN is Vlan1.
Port— Port where the address was learned or assigned.
Type— Type of MAC address: static or dynamic.
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Assigning a MAC Address
You can assign a new unicast or multicast MAC address to the MAC
address table. See the following procedures:
“Assigning a Unicast Address”
“Assigning a Multicast Address” on page 99
Assigning a
Unicast Address To assign a unicast MAC address to the MAC address table, do the
following:
1. Hover the cursor over the Switching tab.
The Switching tab is displayed. See Figure 20 on page 59.
2. Hover over Mac Table and then move the cursor to the right to select
Unicast.
The Unicast MACs page is displayed. See Figure 34 on page 96.
3. Click Add.
The Add Unicast Mac Address Page is displayed. See Figure 36.
Figure 36. Add Unicast Mac Address Page
4. Enter a unicast MAC address in the Mac Address field. Use the
following format: xx:xx:xx:xx:xx:xx or xxxx.xxxx.xxxx
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5. Select a port number with the Port Number pull-down menu.
You can only assign one port number to a unicast MAC address.
6. Select a VLAN with the VLAN pull-down menu.
For a unicast address, this field specifies the name of the VLAN wh ere
the node designated by the MAC address is a member.
7. Click Add.
8. Click SAVE.
Assigning a
Multicast
Address
To assign a multicast MAC address to the MAC address table, do the
following:
1. Hover the cursor over the Switching tab.
The Switching tab is displayed. See Figure 20 on page 59.
2. Hover over Mac Table and then move the cursor to the right to select
Multicast.
The Multicast MACs Page is displayed. See Figure 35 on page 97.
3. Click Add.
The Add Multicast Mac Address Page is displayed. See Figure 37.
Figure 37. Add Multicast Mac Address Page
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4. To assign a MAC Address, enter a multicast MAC address in the Mac
Address field. Use the following format: xx:xx:xx:xx:xx:xx or
xxxx.xxxx.xxxx
5. Assign a port or multiple ports in the Port List field.
For a multicast address, you can assign more than one port number.
Enter multiple ports separated by commas. Or, enter a range of ports
separated by a dash.
6. Select a VLAN with the Vlan pull-down menu.
For a multicast address, this field specifies the name of the VLAN
where the node designated by the MAC address is a member.
7. Click Add.
8. Click SAVE.
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Deleting a MAC Address
To delete a MAC address from the MAC address table, see the following
procedures:
“Deleting a Unicast Address”
“Deleting a Multicast Address” on page 101
Deleting a
Unicast Address To delete a unicast address or clear all static or dynamic unicast
addresses, do the following:
1. Hover the cursor over the Switching tab.
The Switching tab is displayed. See Figure 33 on page 96.
2. Hover over Mac Table and then move the cursor to the right to select
Unicast.
The Unicast MACs page is displayed. See Figure 34 on page 96.
3. Do one of the following:
To clear all of the static unicast addresses in the MAC address
table, click Clear Static.
To clear the dynamic un icast addresses in the MAC address table ,
click Clear Dynamic.
To delete a specific MAC address, click Delete next to the MAC
address that you want to delete.
4. Click SAVE.
Deleting a
Multicast
Address
To delete a multicast address or clear all static or dynamic multicast
addresses, do the following:
1. Hover the cursor over the Switching Tab.
The Switching Tab is displayed. See Figure 33 on page 96.
2. Hover over Mac Table and then move the cursor to the right to select
Multicast.
The Multicast MACs page is displayed. See Figure 35 on page 97.
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3. Do one of the following:
To clear all of the static multicast addresses in the MAC address
table, click Clear Static.
To clear all of the dynamic multicast addresses in the MAC
address table, click Clear Dynamic.
4. Click SAVE.
To delete a specific MAC address, click Delete next to the MAC
address that you want to delete.
103
Chapter 9
Setting LACP
The Link Aggregation Control Protocol (LACP) is used to increase the
bandwidth between the switch and other LACP compatible devices by
grouping ports together to form single virtual links.
This chapter provides a brief description of LACP and explains how to
display and set LACP. See the following sections:
“Overview” on page 104
“Displaying LACP Trunks” on page 105
“Adding an LACP Trunk” on page 107
“Modifying an LACP Trunk” on page 109
“Deleting an LACP Trunk” on page 111
For more information about LACP trunks, see the following chapters in the
AlliedWare Plus Management Software Command Line Interface User’s
Guide:
Link Aggregation Control Protocol (LACP)
LACP Commands
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Overview
LACP trunks are similar in function to static port trunks, but they are more
flexible. The implementations of static trunks tend to be vendor-specific
and so may not always be compatible. In contrast, the implementation of
LACP in the switch is compliant with the IEEE 802.3ad standard. It is
interoperable with equipment fr om other vendors that also comply with the
standard. This makes it possible to create LACP trunks between the
switch and network devices from other manufacturers.
The main component of an LACP trunk is an aggr egator. An aggregator is
a group of ports on the switch. The ports of an aggregator are further
grouped into a trunk, referred to as an aggregate trunk. An aggregator
can have only one trunk. You have to create a separate aggregator for
each trunk on the switch.
An aggregate trunk can consist of any number of ports on the switch, but
only a maximum of eight ports can be active at a time. If an aggregate
trunk contains more ports than can be active at one time, the extra ports
are placed in standby mode. Ports in standby mode do not pass network
traffic, but they do transmit and accept LACP data unit (LACPDU) packets,
which the switch uses to search for LACP compliant devices.
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Displaying LACP Trunks
To display the LACP trunk assignments for all of the switch ports, do the
following:
1. Hover the cursor over the Switching tab.
The Switching tab is displayed. See Figure 20 on page 59.
2. From the Switching tab, hover over Link Aggregation.
For an example of the Link Aggregation menu, see Figure 38.
Figure 38. Switching Tab with Link Aggregation Selected
3. Move the cursor to the right and select LACP.
The LACP Trunks page is displayed. See Figure 39.
Figure 39. LACP Trunks Page
4. The following fields are displayed:
Aggregator ID— Each aggregator must have an ID number. The ID
number is the base port number (or lowest number) of an aggregator.
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For instance, an aggregator of ports 12,16 and 17 must be assigned
the ID number 12 because that is the base port.
Load Balance Method— Load distribution methods of the
aggregators. An aggregator can have only one load distribution
method. The load distribution method determines t he manner in wh ich
the switch distributes the egress packets a mong the active ports of an
aggregator. The packets can be distributed by source MAC or IP
address, destination MAC or IP address, or by both source and
destination addresses.
Member Port(s)— Member ports of the aggregators.
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Adding an LACP Trunk
To create an LACP trunk, do the following:
1. Hover the cursor over the Switching tab.
The Switching tab is displayed. See Figure 20 on page 59.
2. From the Switching tab, hover over Link Aggregation.
For an example of the Link Aggregation selection, see Figure 38 on
page 105.
3. Move the cursor to the right and select LACP.
The LACP Trunks page is displayed. See Figure 39 on page 105.
4. From the LACP Trunks page, click Add.
The Add LACP Trunk page is displayed. See Figure 40.
Figure 40. Add LACP Trunk Page
5. Specify the Aggregator ID. The range is 1 to 32.
6. Select the Load Balance Method. Choose from the following:
Src MAC— Specifies source MAC address as the load distribution
method.
Dst MAC— Specifies destination MAC address.
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Src-Dst MAC— Specifies source address/destination MAC
address.
Src IP— Specifies source IP address.
Dst IP— Specifies destination IP address.
Src-Dst IP— Specifies source address/destination IP address.
7. Select the member ports of the aggregator by clicking on the ports.
8. Click Add.
A confirmation message is displayed.
9. Click SAVE.
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Modifying an LACP Trunk
To modify the LACP Trunk settings, see the following procedure:
1. Hover the cursor over the Switching tab.
The Switching tab is displayed. See Figure 20 on page 59.
2. From the Switching tab, hover over Link Aggregation.
For an example of the Link Aggregation selection, see Figure 38 on
page 105.
3. Move the cursor to the right and select LACP.
The LACP Trunks page is displayed. See Figure 39 on page 105.
4. From the LACP Trunks page, click Edit next to the Aggregator ID that
you want to change.
The Modify LACP Trunk page is displayed. See Figure 41.
Figure 41. Modify LACP Trunk Page
5. Select the Load Balance Method. Choose from the following:
Src MAC— Specifies source MAC address as the load distribution
method.
Dst MAC— Specifies destination MAC address.
Src-Dst MAC— Specifies source address/destination MAC
address.
Src IP— Specifies source IP address.
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Dst IP— Specifies destination IP address.
Src-Dst IP— Specifies source address/destination IP address.
6. Add or remove the member ports of the aggregator by clicking on the
ports.
A check mark indicates a port has been selected.
7. Click Apply.
A confirmation message is displayed.
8. Click SAVE.
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Deleting an LACP Trunk
To delete an LACP trunk, do the following:
1. Hover the cursor over the Switching tab.
The Switching tab is displayed. See Figure 20 on page 59.
2. From the Switching tab, hover over Link Aggregation.
For an example of the Link Aggregation selection, see Figure 38 on
page 105.
3. Move the cursor to the right and select LACP.
The LACP Trunks page is displayed. See Figure 39 on page 105.
4. From the LACP Trunks page, click Delete next to the Aggregator ID
that you want to delete.
5. Click SAVE.
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113
Chapter 10
Setting Static Port Trunks
Static port trunks are groups of two to eight ports that act as single virtual
links between the switch and other network devices. This chapter
describes how to display, create, and modify static trunks. See the
following sections:
“Overview” on page 114
“Displaying Static Trunk Settings” on page 115
“Adding Static Trunks” on page 117
“Modifying the Static Trunk Settings” on page 120
“Deleting Static Trunks” on page 123
For additional guidelines and information regarding static port trunks, see
the following chapters in the AlliedWare Plus Management Software
Command Line Interface User’s Guide:
Static Port Trunks
Static Port Trunk Commands
Chapter 10: Setting Static Port Trunks
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Overview
Static port trunks are commonly used to improve ne two rk performance by
increasing the available bandwidth between the switch and other network
devices as well as to enhance the reliability of the connections between
network devices.
When you create a static port trunk, you can designate how the traffic
is distributed across the physical links by the switch by defining the load
distribution method.
Static port trunks do not permit standby ports, unlike LACP trunks (which
are described in Chapter 9, “Setting LACP” on page 103). If a link is lost
on a port in a static port trunk, the trunk’s total bandwidth is reduced.
Although the traffic carried by a lost link is shifted to one of the remaining
ports in the trunk, the bandwidth remains reduced until a lost link is re-
established or another port is manually added to the trunk.
Here are some guidelines regarding static port trunks:
A static trunk can have up to eight ports.
The switch supports up to a total of 32 static port trunks and LACP
trunks at a time. An LACP trunk is counted against the maximum
number of trunks when it is active.
The ports of a static port trunk can be all twisted pair ports or all fiber
optic ports. Static port trunks cannot have both types of ports.
The ports of a trunk can be consecutive (for example, ports 5-9) or
non-consecutive (for example, ports 4, 8, 11, 20).
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Displaying Static Trunk Settings
To display the static port trunks for all of the switch ports, do the following:
1. Hover the cursor over the Switching tab.
The Switching tab is displayed. See Figure 20 on page 59.
2. From the Switching tab, hover over Link Aggregation.
For an example of the Link Aggregation tab, see Figure 42.
Figure 42. Switching Tab with Link Aggregation Selected
3. Move the cursor to the right and select Static Trunks, as show n in
Figure 43.
Figure 43. Switching Tab with Static Trunks Selected
The Static Trunks page is displayed. See Figure 44 on page 116. By
default, no static trunks are configured on the switch.
Chapter 10: Setting Static Port Trunks
116
Figure 44. Static Trunks Page
The following fields are displayed:
Trunk ID— Indicates the ID of the static tr unk. This name must be
the lowest port number appended with “sa.” For example, the trunk
ID of “sa5” indicates a trunk with port 5 as the lowest port number
in the trunk.
Load Balance Method— Indicates one of the following:
Src MAC— Source MAC address is the load distribution
method. This is a Layer 2 load balance method.
Dst MAC— Destination MAC address is the load distribution
method. This is a Layer 2 load balance method.
Src-Dst MAC— Source address/destination MAC address is
the load distribution method. This is a Layer 2 load balance
method.
Src IP — Source IP address is the load distribution method.
This is a Layer 3 load balance method.
Dst IP — Destination IP address is the load distribution
method. This is a Layer 3 load balance method.
Src-Dst IP — Source address/destination IP address is the
load distribution method. This is a Layer 3 load balance
method.
Port List— List of ports that are members of the static trunk.
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Adding Static Trunks
Review the following information before creating a new static port trunk:
When you create a new trunk, the settings o f the lowest numbered port
are copied to the other ports so that all the ports have the same
settings. Therefore, you must examine and verify that the speed,
duplex mode, and flow control settings of the lowest numbered port are
correct for the network device to which the trunk is connected.
All ports of a trunk must be members of the same VLAN.
Ports can be a memb ers of one static port t runk at a time. A port th at is
already a member of a trunk cannot be added to another trunk. To
accomplish this, you must remove the member port from its current
trunk assignment first. For instructions, see “Adding Static Trunks” on
page 117.
To create a static port trunk, do the following:
1. Hover the cursor over the Switching tab.
The Switching tab is displayed. See Figure 20 on page 59.
2. From the Switching tab, hover over Link Aggregation.
For an example of the Link Aggregation selection, see Figure 42 on
page 115.
3. Move the cursor to the right and select Static Trunks.
The Static Trunks page is displayed. See Figure 44 on page 116.
4. From the Static Trunks page, click Add.
The Add Static Trunk page is displayed. See Figure 45 on page 118.
Chapter 10: Setting Static Port Trunks
118
Figure 45. Add Static Trunk Page
5. Select the Load Balance Method. You can assign different load
distribution methods to different static trunks on the same switch.
Choose from the following:
Src MAC— Specifies sour ce MAC address as the load distribution
method. This is a Layer 2 load balance method.
Dst MAC— Specifies destination MAC address as the load
distribution method. This is a Layer 2 load balance method.
Src-Dst MAC— Specifies source address/destination MAC
address as the load distribution method. This is a Layer 2 load
balance method.
Src IP— Specifies source IP address as the load distribution
method. This is a Layer 3 load balance method.
Dst IP— Specifies destination IP address as the load distribution
method. This is a Layer 3 load balance method.
Src-Dst IP— Specifies source address/destination IP address as
the load distribution method. This is a Layer 3 load balance
method.
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6. Select the Member Ports by clicking the box next to the port.
A green check mark indicates a port has been selected.
Note
Allied Telesis does not recommend using twisted pair ports 25R to
28R on the AT-9000/28 and AT-9000/28SP Managed Layer 2
ecoSwitches in static port trunks. The performance of a static port
trunk that has these ports may not be predictable if the ports
transition to the redundant state.
7. Enter the Trunk ID.
This name must be the lowest port number. After you create the static
trunk, the software appends this port number with “sa.” For example,
the trunk ID of “sa5” indicates a trunk with port 5 as the lowest port
number in the trunk.
8. Click Add.
A confirmation message is displayed.
9. Click SAVE.
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Modifying the Static Trunk Settings
Review the following information if you are adding ports to an existing
trunk:
If the port you are adding is the lowest numbered port in the trunk, its
parameter settings overwrites the settings of the existing ports in the
trunk. Therefore, check if its settings are appropriate before adding it
to the trunk. If the new port is not the lowest numbered port, its port
settings are changed to match the settings of the existing ports in the
trunk.
If the new port added to a trunk is already a member of another static
trunk, you must first remove it from its current trunk assignment.
To add or delete member ports from a static port trunk, do the following:
1. Hover the cursor over the Switching tab.
The Switching tab is displayed. See Figure 20 on page 59.
2. From the Switching tab, hover over Link Aggregation.
For an example of the Link Aggregation selection, see Figure 42 on
page 115.
3. Move the cursor to the right and select Static Trunks.
The Static Trunks page is displayed. See Figure 44 on page 116.
4. From the Static Trunks page, click Edit.
The Modify Static Trunk page is displayed. See Figure 46 on page
121.
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Figure 46. Modify Static Trunk Page
5. Select the Load Balance Method. You can assign different load
distribution methods to different static trunks on the same switch.
Choose from the following:
Src MAC— Specifies source MAC address as the load distribution
method. This is a Layer 2 load balance method.
Dst MAC— Specifies destination MAC address as the load
distribution method. This is a Layer 2 load balance method.
Src-Dst MAC— Specifies source address/destination MAC
address as the load distribution method. This is a Layer 2 load
balance method.
Src IP— Specifies source IP address as the load distribution
method. This is a Layer 3 load balance method.
Dst IP— Specifies destination IP address as the load distribution
method. This is a Layer 3 load balance method.
Src-Dst IP— Specifies source address/destination IP address as
the load distribution method. This is a Layer 3 load balance
method.
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6. Select the member ports that you want to add to or remove from the
static trunk by clicking on the ports.
Caution
To prevent the formation of network loops in your ne twork top ology,
do not remove ports from a static port trunk without first
disconnecting their network cable. Network loops can result in
broadcast storms that can adversely affect network performance.
Note
You cannot have a trunk that contains only one port. Th ere must be
a minimum of two ports in a trunk.
7. Click Apply.
A confirmation message is displayed.
8. Click SAVE.
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Deleting Static Trunks
To delete a static port trunk, do the following:
1. Hover the cursor over the Switching tab.
The Switching tab is displayed. See Figure 20 on page 59.
2. From the Switching tab, hover over Link Aggregation.
For an example of the Link Aggregation selection, see Figure 42 on
page 115.
3. Move the cursor to the right and select Static Trunks.
The Static Trunks page is displayed. See Figure 44 on page 116.
4. From the Static Trunks p a ge, click Delete ne xt to th e Trunk ID that you
want to delete.
5. Click SAVE.
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125
Chapter 11
Setting Port-based and Tagged VLANs
This chapter provides a brief description of VLANs and explains how to
display, create, and modify port-ba sed and tagged Virtual LANs wh ich are
more commonly known as VLANs. See the following sections:
“Overview” on page 126
“Displaying VLANs” on page 128
“Adding a VLAN” on page 130
“Modifying VLANs” on page 132
“Assigning a Native VLAN” on page 134
“Deleting VLANs” on page 136
For additional information about VLANs, see the following chapters in the
AlliedWare Plus Management Software Command Line Interface User’s
Guide:
Port-based and Tagged VLANs
Port-based and Tagged VLAN Commands
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Overview
A VLAN is a group of ports that form a logical Ethernet segment on an
Ethernet switch. The ports of a VLAN form an independent traffic domain
in which the traffic generated by the nodes remains within the VLAN.
VLANs let you segment your network through the switch’s management
software so that you can group nodes with relate d functions into t heir own
separate, logical LAN segments. These VLAN groupings can be b ased on
similar data needs or security requirements. For example, you could
create separate VLANs for the different departments in your company,
such as one for Sales and another for Accounting. Both port-based and
tagged VLANs are supported in the web interface.
Port-based
VLANs A port-based VLAN is a group of ports on a Gigabit Ethernet Switch that
form a logical Ethernet segment. Each port of a port-based VLAN can
belong to only one VLAN at a time. A port-based VLAN can have as many
or as few ports as needed. The VLAN can consist of all the ports on an
Ethernet switch, or just a few ports. In addition, a port-based VLAN can
span switches and consist of ports from multiple Ethernet switches.
Ports in a port-based VLAN are referred to as untagged ports and the
frames received on the ports as untag ged frames. The names d erive from
the fact that the frames received on a port do not contain any information
that indicates VLAN membership, and that VLAN membership is
determined solely by a port’s PVID.
Port VLAN Identifier
Each port in a port-based VLAN must have a port VLAN identifier (PVID).
The switch associates a frame to a port-based VLAN by the PVID
assigned to a port on which a frame is received, and forwards a frame only
to those ports with the same PVID. Conseq uently, all ports of a port-based
VLAN must have the same PVID. In addition, the PVID of the ports in
a VLAN must match the VLAN’s VID.
For example, if you create a port-based VLAN on the switch and assign it
the VID 5, the PVID for each port in the VLAN must be assigne d the value
of 5.
Tagged VLANs The second type of VLAN is the tagged VLAN. VLAN membership in a
tagged VLAN is determined by information within the frames that are
received on a port. This differs fro m a port-ba sed VLAN, whe re the PVIDs
assigned to the ports determine VLAN membership.
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The VLAN information within an Ethernet frame is referred to as a tag or
tagged header. A tag, which fo llows the source and destination addresses
in a frame, contains the VID of the VLAN to which the frame belongs (IEEE
802.3ac standard). This number uniquely identifies each VLAN in a
network.
When the switch receives a frame with a VLAN tag, referred to as a tagged
frame, the switch forwards the frame only to those ports that share the
same VID.
A port that receives or transmits tagged frames is referred to as a tagged
port. Any network device connected to a tagged port must be IEEE
802.1Q-compliant. This is the standard that outlines the requirements and
standards for tagging. The device must be able to process the tagged
information on received frames and add tagged information to transmitted
frames.
Tagged and
Untagged Ports You need to specify which ports are members of the VLAN. In the case of
a tagged VLAN, it is usually a combination of both untagged ports and
tagged ports. You specify which ports are tagged and which are un tagged
when you create the VLAN.
An untagged port, whether a member of a port-based VLAN or a tagged
VLAN, can be in only one VLAN at a time. However, a tagged port can be
a member of more than one VLAN. A port can also be an untagged
member of one VLAN and a tagged member of different VLANs
simultaneously.
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Displaying VLANs
To display the VLAN assignments for all of the switch ports, do the
following:
1. Hover the cursor over the Switching tab.
The Switching tab is displayed. See Figure 20 on page 59.
2. From the Switching tab drop-down menu, select Virtual LANs.
The VLANs page is displayed. For an example of the VLANs page,
see Figure 47.
Figure 47. VLANs Page
The following fields are displayed:
Vlan ID— VLAN identifier. The range is 2 to 4094. The VID of 1 is
reserved for the default VLAN. The VID cannot be the same as the
VID of an existing VLAN on the switch. If this VLAN is unique in
your network, its VID must also be uniqu e. However, if this VLAN is
part of a larger VLAN that spans multiple switches, the VID value
for the VLAN must be the same on each switch. For example, if
you are creating a VLAN called Sales with a VID of 3 that spans
three switches, assign the Sales VLAN on each switch the same
VID value.
Name— VLAN name. A name can be from 1 to 20 characters in
length. The first character must be a letter; it cannot be a number.
VLANs are easier to identify if their names reflect the functions of
their subnetworks or workgroups (for example, Sales or
Accounting). A name cannot contain sp aces or special characters,
such as asterisks (*) or exclamation points (!). A name cannot be
the same as a name of an existing VLAN on the switch. If a VLAN
is unique in your network, the n its name must be unique as well. A
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VLAN that spans multiple switches must have the same name on
each switch.
Untagged Member Ports— Indicates which ports are untagged
ports.
Tagged Member Ports— Indicates which ports are tagged ports.
Note
By default, there is one VLAN configured. This is the default VLAN
with a VLAN ID of 1. All ports on the switch are assigned to the
default VLAN. All ports in Vlan ID 1 are untagged by default.
Note
For information about tagged and untagged ports, see “Overview”
on page 126.
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130
Adding a VLAN
To create a VLAN, do the following:
1. Hover the cursor over the Switching tab.
The Switching tab is displayed. See Figure 20 on page 59.
2. From the Switching tab drop-down menu, select Virtual LANs.
The VLANs page is displayed. See Figure 47 on page 128.
3. From the VLANs page, click Add.
The Add VLAN page is displayed. See Figure 48.
Figure 48. Add VLAN Page
4. Change the following settings as needed:
VLAN ID— Specifies a VLAN identifier. The range is 2 to 4094.
The VID 1 is reserved for the Default_VLAN. The VID cannot be
the same as the VID of an existing VLAN on the switch. If this
VLAN is unique in your network, its VID must also be unique.
However, if this VLAN is part of a larger VLAN that spans multiple
switches, the VID value for the VLAN must be the same on each
switch. For example, if you are creating a VLAN called Sales with a
VID of 3 that spans three switches, assign the Sales VLAN on
each switch a VID value of 3.
VLAN Name— Specifies a VLAN name. A name can be from 1 to
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20 characters in length. The first character must be a letter; it
cannot be a number. VLANs are easier to identify if their names
reflect the functions of their subnetworks or workgroups (for
example, Sales or Accounting). A name cannot contain spaces or
special characters, such as asterisks (*) or exclamation points (!).
A name cannot be the same as a name of an existing VLAN on the
switch. If a VLAN is unique in your network, then its name must be
unique as well. A VLAN that spans multiple switches must have the
same name on each switch.
Member Port— Click a port to add it to the VLAN. A “T” indicates a
port is a tagged port. A “U” indicates the port is an untagged port.
Note
For information about tagged and untagged ports, see “Overview”
on page 126.
All Tagged— Click this button to make all ports on the switch
tagged ports.
All Untagged— Click this button to make all ports on the switch
untagged ports.
Deselect All— Click this button to deselect, or uncheck, all of the
selected ports.
5. Click Add.
A confirmation message is displayed.
6. Click SAVE.
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Modifying VLANs
To modify the VLAN settings, do the following:
1. Hover the cursor over the Switching tab.
The Switching tab is displayed. See Figure 20 on page 59.
2. From the Switching tab drop-down menu, select Virtual LANs.
The VLANs page is displayed. See Figure 47 on page 128.
3. From the VLANs page, click Edit next to the VLAN ID that you want to
modify.
The Modify VLAN page is displayed. See Figure 49.
Figure 49. Modify VLAN Page
Note
The VLAN ID specifies a VLAN identifier. The range is 2 to 4094.
The VID 1 is reserved for the De fault_VLAN. The VID cannot b e the
same as the VID of an existing VLAN on the switch. If this VLAN is
unique in your network, its VID must also be unique. However, if this
VLAN is part of a larger VLAN that spans multiple switche s, the VI D
value for the VLAN must be the same on each switch.
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4. Change the following fields as needed:
VLAN Name— Specifies a VLAN name. A name can be from 1 to
20 characters in length. The first character must be a letter; it
cannot be a number. VLANs are easier to identify if their names
reflect the functions of their subnetworks or workgroups (for
example, Sales or Accounting). A name cannot contain spaces or
special characters, such as asterisks (*) or exclamation points (!).
A name cannot be the same as a name of an existing VLAN on the
switch. If a VLAN is unique in your network, then its name must be
unique as well. A VLAN that spans multiple switches must have the
same name on each switch.
All Tagged— Click this button to make all ports on the switch
tagged ports.
All Untagged— Click this button to make all ports on the switch
untagged ports.
Deselect All— Click this button to deselect, or uncheck, all of the
selected ports.
5. Click Apply.
A confirmation message is displayed.
6. Click SAVE.
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Assigning a Native VLAN
A VLAN can be assigned to a tagged port so that untagged ingress traffic
is placed on the VLAN. This VLAN is referred to as the native VLAN.
To assign a native VLAN to a tagged port, perform the following
procedure:
1. Hover the cursor over the Switching tab.
The Switching tab is displayed. See Figure 20 on page 59.
2. From the Switching tab drop-down menu, select Virtual LANs.
The VLANs page is displayed. See Figure 47 on page 128.
3. From the VLANs page, click Add.
The Add VLAN page is displayed. See Figure 48 on page 130.
4. From Add VLAN page, click Native VLAN.
The Native VLAN page is displayed. See Figure 50.
Figure 50. Native VLAN Page
5. Change the following fields as needed:
Interface Name— Select a VLAN ID from the pull-down menu.The
selected VLAN Interface is assigned to a port as a native VLAN,
which untagged frames are placed on.
Port ID— Select a port ID from the pull-down menu. You can only
select a tagged port.
6. Click Create.
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A confirmation message is displayed.
7. Click SAVE.
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Deleting VLANs
To delete a VLAN, do the following:
1. Hover the cursor over the Switching tab.
The Switching tab is displayed. See Figure 20 on page 59.
2. From the Switching tab drop-down menu, select Virtual LANs.
For an example of the Virtual LANs page is displayed, see Figure 47
on page 128.
3. From the VLANs page, click Delete next to the VLAN that you want to
remove.
The selected VLAN is removed.
Note
You cannot remove the default VLAN, which has a VLAN ID of 1.
4. Click SAVE.
137
Chapter 12
Setting Internet Group Management
Protocol (IGMP) Snooping
This chapter provides a brief description of IGMP Snooping and explains
how to set this feature on the switch. See the following sections:
“Overview” on page 138
“Displaying and Modifying IGMP Snooping Configuration” on page 139
“Clearing the Routers List” on page 141
“Disabling IGMP Snooping” on page 143
“Displaying the Routers List” on page 144
“Displaying the Hosts List” on page 145
For more information about IGMP, see the following chapters in the
AlliedWare Plus Management Software Command Line Interface User’s
Guide:
Internet Group Management Protocol (IGMP) Snooping
IGMP Commands
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Overview
IGMP snooping allows the switch to control the flow of multicast packets
from its ports. It enables the switch to fo rwa rd pa ckets of multicast groups
to those ports that have host nodes.
IGMP is used by IPv4 routers to create lists of n odes that are members of
multicast groups. (A multicast group is a group of end nodes that want to
receive multicast packets from a multicast application.) The router creates
a multicast membership list by periodically send ing out queries to the local
area networks connected to its ports.
A node that wants to become a member o f a multicast group responds to a
query by sending a report. A report indicates that an end node wants to
become a member of a multicast group. Nodes that join a multicast group
are referred to as host nodes. After joining a multicast group, a host node
must continue to periodically issue reports to remain a member.
After the router has received a report from a host node, it notes the
multicast group that the host node wants to join and the port on the router
where the node is located. Any multicast packets belonging to that
multicast group are then forwarded by the router from the port. If a
particular port on the router has no nodes that want to be members of
multicast groups, the router does not send multicast packets from the port.
This improves network performance by restricting the multicast packets
only to router ports where host nodes are located.
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Displaying and Modifying IGMP Snooping Configuration
To display and modify the IGMP Configuration settings, do the following:
1. Hover the cursor over the Switching tab.
The Switching tab is displayed. See Figure 20 on page 59.
2. From the Switching tab drop-down menu, select IGMP.
The IGMP Snooping page is displayed. By default, the Configuration
tab is selected. See Figure 51.
Figure 51. IGMP Snooping Page with Configuration Tab
3. Change the following settings as needed:
Status— Specifies if IGMP Snooping is active or inactive. Select
“Enabled” to activate IGMP or “Disabled” to make this feature
inactive. When you enable IGMP, the switch begins to build its
multicast tables as queries from the multicast router and reports
from the host nodes arrive on its ports. When you disable IGMP,
the switch floods the multicast packets on all of the ports except
those that receive the packets.
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Host Topology— IGMP host topology. Choose between “Single”
which indicates a single host per port and “Multiple” which
indicates multiple hosts per port. Select the single-host per port
setting when the switch has one host node per port. Select the
multiple setting when the switch has more than one host node per
port. By default, the switch is set to “Single.”
Host/Router Timeout— Time, in seconds, that the switch times
out when it finds inactive host nodes and multicast routers. The
range is from 0 to 86,400 seconds (24 hours). The default is 255
seconds. Setting the timeout to zero (0) disables the timer.
Maximum Groups— Maximum number of multicast addresses
the switch is allowed to learn. The range is 0 to 255 multicast
addresses. If your network has a large number
of multicast groups, use this parameter to limit the number of
multicast groups the switch supports.The default is 64.
Router Ports Mode— Specifies ports that are connected to
multicast routers either manually or automatically. Manually
specifying multicast router ports deactivates auto-detect. To
reactivate auto-detect, select “Automatic.” Choose between
“Manual” and “Automatic.”
Router Ports— Specifies ports that are manually connected to
multicast routers. Manual Router Ports Mode must be selected to
enter multicast router ports.
4. Click Apply.
5. Click SAVE.
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Clearing the Routers List
To clear the group membership on the IGMP Routers List, do the
following:
1. Hover the cursor over the Switching tab.
The Switching tab is displayed. See Figure 20 on page 59.
2. From the Switching tab drop-down menu, select IGMP.
The IGMP Snooping page is displayed with the Configuration tab
selected by default. See Figure 51 on page 139.
3. Click the Routers List tab.
The IGMP Snooping page with the Routers tab selected is displayed.
See Figure 52.
Figure 52. IGMP Snooping Page with Routers List Tab
The following settings are displayed:
VLAN ID— ID numbers of the VLANs of the router ports.
Port ID— The port of a multicast router. If the switch learned a
router on a port trunk, a trunk ID number is displayed, instead of a
port number.
Router IP— IP addresses of the multicast routers.
Time to Expiry— Number of seconds remaining before the switch
times out a multicast router if there are no further IGMP queries
from it.
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4. Click Clear group membership to remove the static multicast router
ports.
5. Click Apply.
6. Click SAVE.
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Disabling IGMP Snooping
To disable the IGMP Configuration on the switch, do the following:
1. Hover the cursor over the Switching tab.
The Switching tab is displayed. See Figure 20 on page 59.
2. From the Switching tab drop-down menu, select IGMP.
The IGMP Snooping page is displayed with the Configuration tab
selected by default. See Figure 51 on page 139.
3. Use the pull-down menu next to the Status field to select “Disabled.”
When you disable IGMP snooping, the switch floods the multicast
packets on all of the ports except those that receive the packets.
4. Click Apply.
5. Click SAVE.
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Displaying the Routers List
To display the IGMP Routers List, do the following:
1. Hover the cursor over the Switching tab.
The Switching tab is displayed. See Figure 20 on page 59.
2. From the Switching tab drop-down menu, select IGMP.
The IGMP Snooping page is displayed with the Configuration tab
selected by default. See Figure 51 on page 139.
3. Click the Routers List tab.
The IGMP Snooping page with the Routers tab selected is displayed.
See Figure 52 on page 141.
The following settings are displayed:
VLAN ID— ID numbers of the VLANs of the router ports.
Port ID— The port of a multicast router. If the switch learned a
router on a port trunk, the trunk ID number, instead of a port
number, is displayed.
Router IP— IP addresses of the multicast routers.
Time to Expiry— Number of seconds remaining befo re the switch
times out a multicast router if there are no further IGMP queries
from it.
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Displaying the Hosts List
To display the IGMP Hosts List, do the following:
1. Hover the cursor over the Switching tab.
The Switching tab is displayed. See Figure 20 on page 59.
2. From the Switching tab drop-down menu, select IGMP.
The IGMP Snooping page is displayed with the Configuration tab
selected by default. See Figure 51 on page 139.
3. Click the Hosts List tab.
The Hosts List page is displayed. See Figure 53.
Figure 53. IGMP Snooping Page with Hosts List Tab
The following settings are displayed:
Group Address— Multicast addresses of the groups.
VLAN ID— VLAN ID of the host nodes.
Port ID— Ports of the host nodes. If the host nodes are on port
trunks, this field displays the trunk ID numbers, instead of the port
numbers.
Host IP— IP addresses of the host nodes.
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IGMP Version— IGMP versions used by the host nodes.
Time to Expiry— Number of seconds remaining before host
nodes are timed out if they do not send IGMP reports.
147
Chapter 13
Setting Switch Spanning Tree Protocols
This chapter provides a brief description of both the Spanning Tree
Protocol (STP) and Rapid Spanning Tree Protocol (RSTP), and explains
how to set the spanning tree protocols on the switch. See the following
sections:
“Overview” on page 148
“Displaying Switch Spanning Tree Protocol Settings” on page 149
“Modifying Switch Spanning Tree Protocol Settings” on page 152
Note
For information about how to set a spanning tree protocol on the
ports, see Chapter 7, “Setting the Port Spanning Tree Protocol” on
page 89.
For more information about spanning tree, see Section VI: Spanning Tree
Protocols in the AlliedWare Plus Management Software Command Line
Interface User’s Guide.
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Overview
Both STP and RSTP guard against the formation of loops in an Ethernet
network topology. A topology has a loop when two or more nodes can
transmit packets to each other over more than one data path. Packets can
become caught in repeating cycles, referred to as broadcast storms, that
needlessly consume network bandwidth and that can significantly reduce
network performance.
STP and RSTP prevent loops from forming by ensuring that on ly one path
exists between the end nodes in your network. Where multiple paths exist,
these protocols place the extra paths in a standby or blocking mode. In
addition, STP and RSTP can activate redundant paths if primary paths go
down. These protocols guard against multiple links between segments
and the risk of broadcast storms, and maintain network connectivity by
activating backup redundant paths.
One of the primary differences between the two protocols is in the time
each takes to complete the process referred to as convergence. When a
change is made to the network topology, such as the addition of a new
bridge, a spanning tree protocol determines whether there are redundant
paths that must be blocked to prevent data loops, or activated to maintain
communications between the various network segments. This is the
process of convergence.
With STP, convergence can take up to a minute or more to complete in a
large network. This can result in the loss of communication between
various parts of the network during the convergence process, and the
subsequent lost of data packets.
RSTP is much faster than STP. It can complete a convergence in
seconds, and so greatly diminish the possible impact the process can
have on your network. With STP or RSTP, only one spanning tree can be
active on the switch at a time. The default setting is RSTP.
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Displaying Switch Spanning Tree Protocol Settings
To display the switch Spanning Tree Protocol settings do the following:
1. Hover the cursor over the Switching tab.
The Switching tab is displayed. See Figure 20 on page 59.
2. From the Switching tab drop-down menu, select Spanning Tree.
The Spanning Tree Settings page is displayed. See Figure 54.
Figure 54. Spanning Tree Settings Page
The following fields are displayed:
Active Protocol— Indicates if the active spanning tree protocol is
STP or RSTP. The default setting is RSTP.
Status— Indicates if the spanning tree protocol is enabled or
disabled on the switch.
Current Priority— By default, the current priority is set to 32,768.
You cannot change this field.
New Priority (0-15)— Switch priority number. The device that has
the lowest priority number in the spanning tree domain becomes
the root bridge. If two or more devices have the same priority
value, the device with the numerically lowest MAC address
becomes the root bridge.
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The range is 0 to 61,440, in increments of 4,096. The range is
divided into the sixteen increments listed in Table 1. You specify
the increment that represents the desired bridge prio rity value. The
default value is 32,768 (increment 8).
Note
Set the hello time, forward delay, and max-age fields according to
the following formulas, as specified in IEEE Standard 802.1d:
max-age <= 2 x (forward time - 1.0 second)
max-age => 2 x (hello time + 1.0 second)
Hello Time— Frequency that the switch sends spanning tree
configuration information when it is the root bridge or is trying to
become the root bridge.
Forward Delay— Forward time parameter on the switch. This field
specifies how long the ports remain in the listening and learning
states before they transition to the forwarding state.
The Forward Delay value is active only when the switch is acting
as the root bridge of the spanning tree domain. Switches that are
not acting as the root bridge use a dynamic value supplied by the
root bridge.
Max Age— How long bridge protocol data units (BPDUs) are
stored by the switch before they are deleted.
Table 1. STP Bridge Priority Value Increments
Increment Bridge
Priority Increment Bridge
Priority
00832768
1 4096 9 36864
2 8192 10 40960
3 12288 11 45056
4 16384 12 49152
5 20480 13 53248
6 24576 14 57344
7 28672 15 61440
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BPDU Guard— Indicates if the BPDU loop-guard feature is
enabled or disabled on the switch. If a port that has this feature
activated stops receiving BPDU packets, the switch automatically
disables it. A port that has been disabled b y the featu re remains in
that state until it begins to receive BPDU packets again or the
switch is reset. The default setting for BPDU loop-guard on the
ports is disabled.
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Modifying Switch Spanning Tree Protocol Settings
To modify switch settings for Spanning Tree Protocol, do the following:
1. Hover the cursor over the Switching tab.
The Switching tab is displayed. See Figure 20 on page 59.
2. From the Switching tab drop-down menu, select Spanning Tree.
The Switch Spanning Tree Settings page is displayed. See Figure 54
on page 149.
3. Change the following settings as needed:
Active Protocol— Specifies if the active spanning tree protocol is
STP or RSTP. The default setting is RSTP.
Note
If you try to select MSTP from the menu, a message will appear
indicating that MSTP can only be set via the Command Line
Interface and will not allow the selection. To set the protocol to
MSTP, and for more information on MSTP, see Section VI:
Spanning Tree Protocols in the AlliedWare Plus Management
Software Command Line Interface User’s Guide and refer to the
STP, RSTP and MSTP Protocols, and MSTP Commands chapters.
Status— Specifies if the spanning tree protocol is enabled or
disabled on the switch.
Current Priority— By default, the current priority is set to 32,768.
You cannot change this field.
New Priority (0-15)— Assigns the switch a priority number. The
device that has the lowest priority number in the spanning tree
domain becomes the root bridge. If two or more devices have the
same priority value, the device with the numerically lowest MAC
address becomes the root bridge.
The range is 0 to 61,440, in increments of 4,096. The range is
divided into the sixteen increments listed in Table 1 on page 150.
You specify the increment that represents the desired bridge
priority value. The default value is 32,768 (increment 8).
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Note
Set the hello time, forward delay, and max-age fields according to
the following formulas, as specified in IEEE Standard 802.1d:
max-age <= 2 x (forward time - 1.0 second)
max-age => 2 x (hello time + 1.0 second)
Hello Time— Specifies the frequency that the switch sends
spanning tree configuration information when it is the root bridg e or
is trying to become the root bridge.
Forward Delay— Sets the forward time parameter on the switch
and specifies how long the ports remain in the listening and
learning states before they transition to the forwarding state.
This Forward Delay value is active only when the switch is acting
as the root bridge of the spanning tree domain. Switches that are
not acting as the root bridge use a dynamic value supplied by the
root bridge.
Max Age— Determines how long bridge protocol data units
(BPDUs) are stored by the switch before they are deleted.
BPDU Guard— Enables or disables the BPDU loop-guard feature
on the switch. If a port that has this feature activated stops
receiving BPDU packets, the switch automatically disables it. A
port that has been disabled by the feature remains in that state
until it begins to receive BPDU packets again or the switch is reset.
The default setting for BPDU loop-guard on the ports is disabled.
4. Click Apply.
5. Click SAVE.
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155
Chapter 14
Power Over Ethernet (PoE)
This chapter provides background information about Po we r over Ethernet
(PoE) and includes procedures to configure the PoE feature globally on
the switch and on each port. The sections in this chapter include:
“Overview” on page 156
“Displaying PoE Settings” on page 158
“PoE Configuration” on page 160
For additional information about PoE, see the following chapters in the
AlliedWare Plus Management Software Command Line Interface User’s
Guide:
Power Over Ethernet
Power Over Ethernet Commands
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Overview
The AT-9000/12POE and AT-9000/28POE switches feature PoE on the
10/100/1000Base-Tx ports. PoE is used to supply power to network
devices over the same twisted-pair cables that carry the network traffic.
The main advantage of PoE is that it can make installing a network easier.
The selection of a location for a network device is often limited by whether
there is a power source nearby. This constraint limits equipment
placement or requires the added time and cost of having additional
electrical sources installed. However, with PoE, you can install PoE
compatible devices wherever they are needed without having to worry
about whether there is a power source nearby.
Power Sourcing
Equipment (PSE) A device that provides PoE to other host devices is called power sourcing
equipment (PSE). The AT-9000/12POE and AT-9000/28POE switches act
as PSE units by adding DC power to the network cable, thus functioning
as a central power source for other host devices.
Powered Device
(PD) A device that receives power from a PSE device is called a powered
device (PD). Examples include wireless access points, IP phones,
webcams, and even other Ethernet switches.
The switch automatically determines whether or not a device connected to
a port is a powered device. Ports that a re connected to network nodes that
are not powered devices (that is, devices that receive their power from
another power source) function as regular Ethernet ports, without PoE.
The PoE feature remains activated on the ports, but no power is delivered
to the devices.
PD Classes PDs are grouped into five classes. The classes are based on the amount
of power that PDs require. The AT-9000/12POE and AT-9000/28POE
switches support all five classes listed in Table 2.
Table 2. IEEE Powered Device Classes
Class Maximum Power Output
from a Switch Port Power Ranges of the PDs
0 15.4W 0.44W to 12.95W
1 4.0W 0.44W to 3.84W
2 7.0W 3.84W to 6.49W
3 15.4W 6.49W to 12.95W
430.0W 12.95W to 25.5W
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Power Budget Power budget is the maximum amount of power that the PoE switch can
provide at one time to the connected PDs. The AT-9000/12POE switch
has a power budget of 125 watts. The AT-9000/28POE switch has a
power budget of 370 watts.
Port
Prioritization If the power requirements of the powered devices exceed the switch’s
power budget, the switch denies power to some ports based on a system
called port prioritization. You may use port prioritization to ensure that
powered devices critical to the operations of your network are given
preferential treatment by the switch in the d istribution of power, sho uld the
demands of the devices exceed the available capacity.
There are three priority levels:
Critical
High
Low
Ports set to the Critical level, the highest priority level, are guaranteed
power before any of the ports assigned to the other two priority levels.
Ports assigned to the other priority levels receive power only if all Critical
ports are receiving power. Ports that are connected to the most critical
powered devices should be assigned to this level. If there is not enough
power to support all ports set to the Critical priority level, power is provided
to the ports based on the port number, in ascending order.
The High level is the second highest level. Ports set to this level receive
power only if all ports set to the Critical level are already receiving power. If
there is not enough power to supp ort all ports se t to the High priority level,
power is provided to the ports based on the port number, in ascending
order.
The lowest priority level is Low. This is the default setting. Ports set to this
level only receive power if all ports assigned to the other two levels are
already receiving power. As with the other levels, if there is not enough
power to support all ports set to the Low priority level, power is provided to
the ports based on the port number, in ascending order.
Power allocation is dynamic. Ports supplying power to powered devices
may cease power transmission if the switch’s power budget is at maximum
usage, and new powered devices, connected to ports with higher
priorities, become active.
You can use port prioritization on dual power-supply PoE switches to
protect your important networking devices from loss of power should one
of the power supplies fail or lose power. By limiting the power
requirements of the critical devices connected to a switch to less than 185
watts (the PoE power provided by a single power supply), a switch will
have sufficient power to support the critical devices, even if it ha s only one
functional power supply.
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Displaying PoE Settings
To display the switch Spanning Tree Protocol settings do the following:
1. Hover the cursor over the Switching tab.
The Switching tab is displayed. See Figure 20 on page 59.
2. From the Switching tab drop-down menu, select PoE.
The PoE page is displayed. See Figure 55.
Figure 55. PoE Page
The following fields are displayed:
Status— Indicates if PoE is enabled or disabled globally.
Power Usage Threshold— Threshold of the switch’s total
available system and PoE power. An SNMP trap is transmitted if
the requirements of the PDs exceed the threshold.
Interface— Port ID.
Description— Description of the PoE device connected to the
port.
PoE Status— Ind icates if PoE is enabled or disabled on a specific
port.
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Power Consumed— Power, in milliwatts (mW), that the port is
supplying to the PD.
Power Limit— Power limit, in mW, that the switch provides to the
device connected to the port.
Port Priority— Port priority: Low, High, or Critical. For more
details, see “Port Prioritization” on page 157.
Power Status— Whether or not the port is supplying PoE power:
On indicates the port is supplying PoE power; Off indicates the
port is not supplying PoE power.
Power Class— Class of the PD. See Table 2 on page 156 for a
definition of the PD PoE classes.
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PoE Configuration
You can specify global PoE settings on all ports on the switch using the
PoE page - refer to “Configuring Global PoE Settings”. You can also
specify PoE settings on individual ports using the Modify Port PoE
Settings page - refer to “Configuring Individual Port PoE Settings” on
page 160.
Configuring
Global PoE
Settings
To configure global PoE settings on all ports on the switch, do the
following:
1. Hover the cursor over the Switching tab.
The Switching tab is displayed. See Figure 20 on page 59.
2. From the Switching tab drop-down menu, select PoE.
The PoE page is displayed. See Figure 55 on page 158.
3. From the Status menu, select Enabled or Disabled:
Enabled enables PoE on all ports on the switch.
Disabled disables PoE on all ports on the switch.
4. Click Apply.
5. In the Power Usage Threshold f ield, enter the th reshold of the switch’s
total available system and PoE power. The range is 1 to 99%.
6. Click Apply.
7. Click SAVE.
Configuring
Individual Port
PoE Settings
To configure global PoE settings on individual ports on the switch, do the
following:
1. Hover the cursor over the Switching tab.
The Switching tab is displayed. See Figure 20 on page 59.
2. From the Switching tab drop-down menu, select PoE.
The PoE page is displayed. See Figure 55 on page 158.
3. Select Edit next to the port you want to modify.
The Modify Port PoE Settings page is displayed. See Figure 56 on
page 161.
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Figure 56. Modify Port PoE Settings Page
4. Change the following settings as needed:
Interface— Indicates the ID of the port you are modifying. You
cannot change this parameter.
PoE port status— Select Enabled or Disabled to enable or
disable PoE on this port.
PoE device Description— Enter the description of the PoE device
that is connected to the po rt. The description can contain up to 256
alphanumeric characters. Spaces and special characters are
allowed.
Note
Only the first 16 characters of the description will be displayed.
PoE Port Power Limit— Enter the power limit, in milliwatts (mW),
that the switch provides to the device connected to the port. The
range is 4000 to 30000 mW.
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PoE Legacy Device—Select whether the switch supplies power to
a device that is connected to the port when the device is a legacy
PD. Choose from the following:
– Yes—Allows the switch to supply power to the device, even if
the device is a legacy PD.
– No—Does not allow the switch to supply power if the device is
a legacy PD. This is the default setting.
PoE Port Priority — Select the PoE port priority. Choose from the
following:
– Critical—The highest priority level. Ports set to the Critical
level are guaranteed to receive power before any of the ports
assigned to the other priority levels.
– High—Ports set to the High level receive power only when all
the ports assigned to the Critical level are already receiving
power.
– Low—The lowest priority level. Ports set to the Low level
receive power only when all the ports assigned to the Critical
and High levels are already receiving power. This level is the
default setting.
5. Click Apply.
6. Click SAVE.
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Chapter 15
Setting MAC Address-based Port
Security
This chapter provides a brief description of MAC address-based port
security and explains how to set this feature on the switch. See the
following sections:
“Overview” on page 164
“Displaying MAC Address-based Port Security Settings” on page 166
“Modifying MAC Address-based Port Security Settings” on page 168
“Disabling MAC Address-based Port Security Settings” on page 170
For more information about MAC address-based security, see the
following chapters in the AlliedWare Plus Management Software
Command Line Interface User’s Guide:
MAC Address-based Port Security
MAC Address-based Port Security Commands
Chapter 15: Setting MAC Address-based Port Security
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Overview
This feature lets you control access to the ports on the switch based on
the source MAC addresses of the network devices. You specify the
maximum number of source MAC addresses that ports can learn. Ports
that learn their maximum number of addresses discard packets that have
new, unknown addresses, preventing access to the switch by any
additional devices.
For example, if you configure port 3 on the switch to learn five source MAC
addresses, the port learns up to five address and forwards the ingress
packets of the devices that belong to those addresses. If the port receives
ingress packets that have sou rce MAC addresses other than the five it has
already learned, it discards those packets to prevent the devices from
passing traffic through the switch.
Static Versus
Dynamic
Addresses
The MAC addresses that the ports learn can be stored as either static or
dynamic addresses in the MAC address table in the switch. Ports that
store the addresses as static addresses do not learn new addresses after
they have learned their maximum number. In contrast, ports that store
the addresses as dynamic addresses can learn new addresses when
addresses are timed out from the table by the switch. The addresses are
aged out according to the aging time of the MAC address table.
Intrusion Actions The intrusion actions define what the switch does when ports that have
learned their maximum number of MAC addresses receive packets that
have unknown source MAC addresses. Intrusion actions are also called
violation actions. The possible settings are:
Protect - Ports discard those frames that have unknown MAC
addresses. No other action is taken. For example, if port 14 is
configured to learn 18 addresses, it starts to discard packets with
unknown source MAC addresses after learning 18 MAC addresses.
Restrict - This is the same a s the protect action, except th at the switch
sends SNMP traps wh en the ports discard frames. For example, if port
12 is configured to learn two addresses, the switch sends a trap every
time the port, after learning two addresses, discards a p acket that has
an unknown MAC address.
Shut Down - The switch disables the ports and sends SNMP trap s. For
example, if port 5 is configured to learn three MAC addresses, it is
disabled by the switch to prevent it from forwarding any further traf fic if
it receives a packet with an unknown source MAC address, after
learning three addresses. The switch also sends an SNMP trap.
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Guidelines Here are the guidelines to MAC address-based port security:
The filtering of a packet occurs on the ingress port, not on the egress
port.
You cannot use MAC address-based port security and 802.1x port-
based access control on the same port. To configure a port as an
Authenticator or Supplicant in 802.1x port-based access control, you
must remove MAC address-based port security.
MAC address-based port security is not supported on the optional
GBIC, SFP, or XFP modu les .
You can manually add st atic ad dresses to ports that are configured for
this security. The manually added addresses are not counted against
the maximum number of addresses the ports can learn.
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Displaying MA C Address-based Port Security Settings
To display the MAC address-based port security settings, do the following:
1. Hover the cursor over the Security tab.
The Security tab is displayed. See Figure 57.
Figure 57. Security Tab
2. From the Security tab drop-down menu, select MAC Ba sed Security.
The MAC Based Port Security page is displayed. See Figure 58.
Figure 58. MAC Based Port Security Page
The following fields are displayed:
Interface— Port number.
MAC Security— Whether MAC address-based security is either
“Enabled” or “Disabled” on a port. By default, this setting is
disabled.
Aging— Indicates the ports that can or cannot add the source
MAC addresses as dynamic MAC address in the MAC address
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table. Ports that learn their maximum numbers of addresses can
learn new addresses as inactive addresses are deleted from the
table. A “Yes” value indicates a port that can add source MAC
addresses as dynamic. A “No” value indicates a port that cannot
add source MAC addresses as dynamic. By d efault, this field is set
to “No.”
MAX MACs— Maximum number of dynamic MAC addresses the
port is permitted to learn. The range is 0 to 255. By default, this
field is set to 0.
Violation Action— Intrusion action of the port. Can be one of the
followings actions:
Protect Ports discard those frames that have
unknown MAC addresses.
Restrict Sends SNMP traps when the ports discard
frames.
Disable Disables the ports and sends SNMP traps.
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Modifying MAC Address-based Port Security Settings
To the modify the MAC address-based port security settings, do the
following:
1. Hover the cursor over the Security tab.
The Security tab is displayed. See Figure 57 on page 166.
2. From the Security tab drop-down menu, select MAC Ba sed Security.
The MAC Based Port Security page is displayed. See Figure 58 on
page 166.
3. Click Edit next to the port that you want to modify.
The Modify MAC Based Port Security page is displayed. See
Figure 59.
Figure 59. Modify MAC Based Port Security Page
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4. Change the following settings as needed:
Interface— Indicates the port number.
MAC Security— Activates or deactivates MAC address-based
security on ports. Choose either “Enabled” or “Disabled.”
Aging— Selects if the ports that can or cannot add the source
MAC addresses as dynamic MAC address in the MAC address
table. Ports that learn their maximum numbers of addresses can
learn new addresses as inactive addresses are deleted from the
table. Choose from the following options:
Yes Indicates a port that can add source MAC
addresses as dynamic.
No Indicates a port that cannot add source MAC
addresses as dynamic.
MAX MACs— Maximum number of dynamic MAC addresses the
port is permitted to learn. The range is 0 to 255.
Violation Action— Selects the intrusion action of the port. Choose
from the following:
Protect Protects intrusion action.This is the default
setting. Ports discard those frames that have
unknown MAC addresses.
Restrict Restricts intrusion action. Sends SNMP traps
when the ports discard frames.
Shut Down Shuts down intrusion action. Disables the
ports and sends SNMP traps.
5. Click Apply.
6. Click SAVE.
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Disabling MAC Address-based Port Security Settings
To deactivate MAC address-based port security settings, do the following:
1. Hover the cursor over the Security tab.
The Security tab is displayed. See Figure 57 on page 166.
2. From the Security tab drop-down menu, select MAC Ba sed Security.
The MAC Based Port Security page is displayed. See Figure 58 on
page 166.
3. Click Edit next to the port that you want to remove.
The Modify MAC Based Port Security page is displayed. See Figure
59 on page 168.
4. Use the pull-down menu next to the MAC Security field and select
“Disabled.”
5. Click Apply.
6. Click SAVE.
171
Chapter 16
Setting RADIUS and TACACS+ Clients
This chapter provides a brief description of both the RADIUS and
TACACS+ clients and explains how to configure these clients on the
switch.
See the following sections:
“Overview” on page 172
“Configuring RADIUS for Remote Manager Authentication” on
page 175
“Configuring TACACS+ for Remote Manager Authentication” on
page 179
“Deleting an Authentication Server” on page 184
For more information about the authentication server features, see the
following chapters in the AlliedWare Plus Management Software
Command Line Interface User’s Guide:
RADIUS and TACACS+ Clients
RADIUS and TACACS+ Client Commands
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Overview
The switch has RADIUS and TACACS+ clients for remote authentication.
Here are the features that use remote authentication:
802.1x port-based network access control. This feature lets you
increase network security by requiring that ne twork users log on with a
username and password before the switch will forward their packets.
This feature is described in Chapter 17, “Setting 802.1x Port-based
Network Access” on page 185.
Remote manager accounts. This feature lets you add manager
accounts to the switch by transferring the task of authenticating
the accounts from the switch to an authentication server on your
network. This feature is described in “Managing User Accounts” on
page 44.
The RADIUS client supports both features, but the TACACS+ client
supports only the remote manager accounts feature. Here are the
guidelines:
Only one client can be active on the switch at a time.
If you want to use just the remote manager account feature, you can
use either RADIUS or TACACS+ because both clients support that
feature.
If you want to use 802.1x p ort-based network access control, you have
to use the RADIUS client because the TACACS+ client does not
support that feature.
Remote Manager
Accounts The switch comes with one local manager account. The account is
referred to as a local account because the switch authenticates the
username and password when a manager uses the account to log on. If
the username and password are valid, the switch allo ws the individual t o
access its management software. Otherwise, it cancels the login to
prevent unauthorized access.
There are two ways to add more manager accounts. The first way is to
create additional local accounts. For more information about local
accounts, see “Managing User Accounts” on page 44.
The second way to add more accounts is with a RADIUS or TACACS+
authentication server on your network. With either authentication method,
the authentication of the usernames and passwords of the manager
accounts is performed by one or more authentication servers. The switch
forwards the information to the servers when managers log on. The
following steps illustrate the authentication process that occurs between
the switch and an authentication server when a manager logs on:
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1. The switch uses its RADIUS or TACACS+ client to transmit the
username and password to an authentication server on the network.
2. The server checks to see if the username and password are valid.
3. If the combination is valid, the authentication server notifies the switch,
which completes the login process, allowing the manager access to its
management software.
4. If the username and password are invalid, the authentication protocol
server notifies the switch, which cancels the login.
Accounting
Information RADIUS and TACACS+ also provide a way to monitor usage by login
users. You can configure the switch to send a st art accounting message at
the beginning of a session and a stop accounting message at the end of
the session to an authentication sever.
Configuring
RADIUS and
TACACS+
To authenticate using a RADIUS or TACACS+ server, you must configure
remote manager authentication and add authentication servers that the
switch can access.
You can configure up to three servers each for the RADIUS and
TACACS+ features. However, only one authentication method, either
RADIUS or TACACS+, can be configured at a time.
To configure remote manager authentication and add authentication
servers, choose from the following procedures:
“Configuring RADIUS for Remote Manager Authentication” on
page 175
“Configuring TACACS+ for Remote Manager Authentication” on
page 179
Placing RADIUS
and TACACS+
Servers in the
Client’s List
When a user logs on to the switch, the authentication client polls the
servers for authentication information in the order in which they are listed
in the client. The order that you add a server determines its order on the
client. For instance, the first server that you add becomes Server 1, the
second server that you add becomes Server 2, and the third server that
you add becomes Server 3.
When you remove a server from the switch, the place holder is retained.
For example, you make the following assignments:
Server 1 has an IP address of 192.168.10.11
Server 2 has an IP address of 192.168.10.12
Server 3 has an IP address of 192.168.10.13
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When you delete Server 1, the server with an IP address of 192.168.10.12
remains Server 2; the server with an IP address of 192.168.10.13 remain s
Server 3. As a result, the next server that you add to the switch becomes
Server 1.
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Configuring RADIUS for Remote Manager Authentication
To configure remote manager authentication using RADIUS and add
RADIUS servers to the switch, perform the following:
“Configuring Remote Manager Authentication Using RADIUS”
“Adding a RADIUS Server” on page 177
Configuring
Remote Manager
Authentication
Using RADIUS
To configure the RADIUS server, do the following:
1. Hover the cursor over the Security tab.
The Security tab is displayed. See Figure 57 on page 166.
2. From the Security tab drop-down menu, select Authentication
Servers.
The Authentication Server Configuration page with the RADIUS tab
selected is displayed. See Figure 60.
Figure 60. Authentication Server Configuration Page with RADIUS Tab
3. Change the following fields as needed:
Timeout Value— Enter the leng th of the time, in seconds, that the
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switch waits for a response from a RADIUS server to an
authentication request, before querying the next server in the list.
The range is 1 to 1,000 seconds. The default value is 5 seconds.
Key Value— Enter the value of the global encryption key of the
RADIUS servers. You can define a global encryption key if you
have one RADIUS server or if there is more than one server and
they all use the same encryption key. The maximum length is 40
characters. Special characters are allowed, but spaces are not
permitted.
Caution
To define two or three servers that use different encryption keys, do
not enter a global encryption key value on this web page. Instead,
define the individual keys when you add the IP addresses of the
servers to the client on the RADIUS Server Configuration Page. See
“Adding a RADIUS Server” on page 177.
RADIUS Authentication Login— Enable or disable RADIUS to
authenticate user login. Choose from the following:
Enabled: The RADIUS servers authenticate user login.
Disabled: The RADIUS servers do not authenticate user login.
Authentication is attempted using the username and password
combinations specified on the User Management page and
using the USERNAME command in the CLI.
AAA Authentication Login Local— Enab le or disable RADIUS to
authenticate user login in combination with local manager
accounts. Choose from the following:
Enabled: The RADIUS servers authenticate the user login.
When any RADIUS server is not available, authentication is
attempted using the username and password combinations
specified on the User Management page and using the
USERNAME command in the CLI.
Disabled: The RADIUS servers do not authenticate user login.
Authentication is attempted using the username and password
combinations specified on the User Management page and
using the USERNAME command in the CLI.
Note
For additional information about the User Management page, see
“Managing User Accounts” on page 44. For more information about
the USERNAME command, see “Local Manager Accounts” in the
AlliedWare Plus Management Software Command Line Interface
User’s Guide.
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AAA Accounting— Select a RADIUS accounting setting. Choose
from the following:
Start-Stop: A start accounting message is sent at the
beginning of a session, and a stop accounting messa ge is sent
at the end of the session.
Stop-Only: A stop accounting message is sent at the end of
the session.
None: Sending accounting messages is disabled.
4. Click Apply.
The Active Authentication Server field shown on the upper middle of
the page indicates “RADIUS.”
5. Click SAVE.
Adding a
RADIUS Server To add a RADIUS server, do the following:
1. Click Add near the RADIUS server list.
The RADIUS Server Add page is displayed. See Figure 61.
Figure 61. Radius Server Add Page
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2. Enter the following fields as needed:
IP Address— IP address of a RADIUS server on the network. The
IP address must be in the following IPv4 format: xxx.xxx.xxx.xxx.
Authentication Port— UDP destination port for RADIUS
authentication requests. If you select 0, the server is not used for
authentication. The default UDP port for authentication is 1812.
Accounting Port— UDP destination port for RADIUS accounting
requests. If you select 0, the server is not used for accounting. The
default UDP port for accounting is 1813.
Key— Encryption key for RADIUS communications between the
switch and RADIUS server. The key must match the encryption
key used by the RADIUS server. The maximum length is 40
characters. Special characters are allowed, but spaces are not
permitted.
3. Click Apply.
4. Click SAVE.
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Configuring TACACS+ for Remote Manager Authentication
To configure remote manager authentication using TACACS+ and add
TACACS+ servers to the switch, perform the following:
“Configuring Remote Manager Authentication Using TACACS+” on
page 179
“Adding a TACACS+ Server” on page 182
Configuring
Remote Manager
Authentication
Using TACACS+
To configure a TACACS+ server, do the following:
1. Hover the cursor over the Security tab.
The Security tab is displayed. See Figure 57 on page 166.
2. From the Security tab drop-down menu, select Authentication
Servers.
The Authentication Server Configuration p age is displayed. See Figure
60 on page 175.
3. Click the TACACS+ tab.
The Authentication Server Configuration Page with the TACACS+ tab
is displayed. See Figure 62 on page 180.
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Figure 62. Authentication Server Configuration Page with TACACS+ Tab
4. Change the following fields as needed:
Timeout Value— Enter the length of the time, in seconds, t hat the
switch waits for a response from a TACACS+ server to an
authentication request, before querying the next server in the list.
The range is 1 to 1,000 seconds. The default value is 5.
Key Value— Enter the value of the global encryption key of the
TACACS+ servers. You can define a global encryption key if you
have one TACACS+ server or if there is more than one server and
they all use the same encryption key. The maximum length is 40
characters. Special characters are allowed, but spaces are not
permitted.
Caution
To define two or three servers that use different encryption keys, do
not enter a global encryption key value on this web page. Instead,
define the individual keys when you add the IP addresses of the
servers to the switch on the TACACS+ Add page. See “Adding a
RADIUS Server” on page 177.
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TACACS+ Authentication Login— Enable or disable TACACS+
to authenticate user login. Choose from the following:
Enabled: The TACACS+ servers authenticate user login.
Disabled: The TACACS+ servers do not authenticate user
login. Authentication is attempted using the username and
password combinations specified on the User Management
page and using the USERNAME command in the CLI.
AAA Authentication Login Local— Enab le or disable TACACS+
to authenticate user login in combination with local manager
accounts. Choose from the following:
Enabled: The TACACS+ servers authenticate user login.
When any TACACS+ server is not available, authentication is
attempted using the username and password combinations
specified on the User Management page and using the
USERNAME command in the CLI.
Disabled: The TACACS+ servers do not authenticate user
login. Authentication is attempted using the username and
password combinations specified on the User Management
page and using the USERNAME command in the CLI.
Note
For additional information about the User Management page, see
“Managing User Accounts” on page 44. For more information about
the USERNAME command, see “Local Manager Accounts” in the
AlliedWare Plus Management Software Command Line Interface
User’s Guide.
AAA Authentication Enable— Enable or disable TACACS+ to
authenticate users requesting the Privileged Exec mode. Choose
from the following:
Enabled: The TACACS+ determines whether users can
access the Privileged EXEC level using the TACACS+ enable
password.
Disabled: The TACACS+ servers do not use its enable
password. Authentication is attempted using the password
specified using the ENABLE PASSWORD command in the CLI.
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AAA Authentication Enable Local— Enable or disable
TACACS+ to authenticate users requesting the Privileged Exec
mode. Choose from the following:
Enabled: The TACACS+ determines whether users can
access the Privileged EXEC level using the TACACS+ enable
password. When any TACACS+ server is not available,
authentication is attempted using t he password specified using
the ENABLE PASSWORD command in the CLI.
Disabled: The TACACS+ servers do not use its enable
password. Authentication is attempted using the password
specified using the ENABLE PASSWORD command in the
CLI.
AAA Accounting— Select a TACACS+ accounting setting.
Choose from the following:
Start-Stop: A start accounting message is sent at the
beginning of a session, and a stop accounting message is sent
at the end of the session.
Stop-Only: A stop accounting message is sent at the end of
the session.
None: Sending accounting messages is disabled.
5. Click Apply.
The Active Authentication Server field shown on the upper middle of
the page indicates “TACACS+.”
6. Click SAVE.
Adding a
TACACS+
Server
To add a TACACS+ server, do the following:
1. Click Add at the bottom of the page.
The TACACS+ Add page is displayed. See Figure 63 on page 183.
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Figure 63. TACACS+ Server Add Page
2. Enter the following settings:
IP Address— Enter the IP address of the TACACS+ server . The IP
address must be in the following IPv4 format: xxx.xxx.xxx.xxx.
Key— Enter the encryption key for TACACS+ communications
between the switch and TACACS+ server. The key must match the
encryption key used by the TACACS+ server. The maximum
length is 40 characters. Special characters are allowed , but spaces
are not permitted.
3. Click Apply.
4. Click SAVE.
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Deleting an Authentication Server
To delete either an TACACS+ or RADIUS authentication server, do the
following:
1. Hover the cursor over the Security tab.
The Security tab is displayed. See Figure 57 on page 166.
2. From the Security tab drop-down menu, select Authentication
Servers.
The Authentication Server Configuration p age is displayed. See Figure
60 on page 175.
3. Click either the TACACS+ or the RADIUS tab, depending on the type
of server you want to delete.
4. Click Delete next to the server that you want to delete.
5. Click SAVE.
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Chapter 17
Setting 802.1x Port-based Network
Access
This chapter provides a brief description of the 802.1x Port-based
Authentication feature, and explains how to enable this feature on the
switch and configure authentication on a port.
See the following sections:
“Overview” on page 186
“Enabling 802.1x Port-based Authentication on the Switch” on
page 187
“Configuring 802.1x Port-based Authentication” on page 188
“Displaying the 802.1x Authentication Port Settings” on page 194
“Disabling 802.1x Port-based Authentication on the Switch” on
page 195
“Disabling 802.1x Port-based Authentication on a Port” on page 196
For more information about the 802.1x features, see the following ch apters
in the AlliedWare Plus Management Software Command Line Interface
User’s Guide:
802.1x Port-based Network Access Control
802.1x Port-based Network Access Control Commands
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Overview
The 802.1x port-based network access control feature lets you control
who can send traffic through, and receive traffic from, the individual switch
ports. The switch does not allow an end node to send or receive traffic
through a port until the user of the node has been authenticated by a
RADIUS server.
This port-security feature is used to prevent unauthorized individuals from
connecting a computer to a switch port or using an unattended workst ation
to access your network resources. Only those users designated as valid
network users on a RADIUS server are permitted to use the switch to
access the network.
This port security method uses the RADIUS authentication protocol. The
management software of the switch includes RADIUS client software. As
mentioned in Chapter 16, “Setting RADIUS and TACACS+ Clients” on
page 171, you can use the RADIUS client software on the switch, along
with a RADIUS server on your network, to create new remote manager
accounts.
Note
RADIUS with Extensible Authentication Protocol (EAP) extensions
is the only supported authentication protocol for 802.1x port-based
network access control. This feature is not supported with the
TACACS+ authentication protocol.
Here are several terms to keep in mind when using this feature:
Supplicant— A supplicant is an end user or end node that wants to
access the network through a switch port. A supplican t is also referred
to as a client.
Authenticator— The authenticator is a port that prohibits network
access until a supplicant has logged on and been validated by the
RADIUS server.
Authentication server— The authentication server is the network
device that has the RADIUS server software. This is the device that
does the actual authenticating of the supplicants.
The switch does not authenticate any supplicants connected to its ports.
Its function is to act as an intermediary between the supplicants and the
authentication server during the authentication process.
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Enabling 802.1x Port-based Authentication on the Switch
To enable the 802.1x port-based Authentication feature on a switch, do
the following:
1. Hover the cursor over the Security tab.
The Security tab is displayed. See Figure 57 on page 166.
2. From the Security tab drop-down menu, select 802.1x Port
Authentication.
The 802.1x Authentication page is displayed. See Figure 64.
Figure 64. 802.1x Authentication Page
3. Use the pull-down menu next to the Status field to select Enabled.
4. Click Apply.
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188
Configuring 802.1x Port-based Authentication
To configure 802.1x port authentication on a port, do the following:
1. Hover the cursor over the Security tab.
The Security tab is displayed. See Figure 57 on page 166.
2. From the Security tab drop-down menu, select 8 02.1x Po rt
Authentication.
The 802.1x Authentication page is displayed. See Figure 64 on page
187.
3. Click Edit next to the port that you want to modify.
The Modify 802.1x Authentication page is displayed. See Figure 65.
Figure 65. Modify 802.1x Authentication Page
4. Use the pull-down menu next to the Port Role field to select
Authenticator.
The Modify 802.1x Authentication page expands to display the
Authenticator parameters. See Figure 66 on page 189.
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Figure 66. Modify 802.1x Authentication Page Expanded
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5. Modify the following fields as needed:
Interface— Indicates the port number.
Port Role— Indicates that you have selected the port as an
Authenticator.
Authentication Mode— Sets the authentication mode. Choose
from the following:
Unauthorized Sets the port to the 802.1x
authenticator role, in the unauthorized
state. Although the port is in the
authenticator role, the switch blocks all
authentication on the port. If you set all
the ports on the switch to this setting,
then no clients can log on and forward
packets through them.
Force-authorized Sets port to the 802.1x authenticator
role, in the force-authorized state. A
port in the force-authorized state
transitions to the authorized state
without any authentication exchanges
required. The port transmits and
receives traffic normally without
802.1X-based authentication of the
clients.
Auto Sets the port to the 802.1X port-based
authenticator role. A port in this state
begins in the unauthorized state,
forwarding only EAPOL frames, until a
client has logged on successfully.
Supplicant Sets the port to the 802.1X port-based
supplicant role. A port in this state acts
as a client. It has t o log on by providing
a valid username and password to the
device it is connected to, typically
another switch port, before forwarding
traffic. A port set to the supplicant role
and connected to another port that is
not set to the authenticator role will
begin to forward traffic after a timeout
period and without logging on.
Timeouts— The following fields set the timers for this feature:
Quiet Period Sets the number of seconds that an
authenticator port remains in the quiet
state following a failed authentication
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exchange with a client. The range is 1
to 65,535 seconds. The default value is
60 seconds.
Tx-period Sets the number of seconds an
authenticator port waits for a response
to an EAP-request/identity frame from
a client before retransmitting the
request. The default value is 30
seconds. The range is 1 to 65,535
seconds.
Reauth-period Specifies the time interval that an
authenticator port requires a client to
reauthenticate. The range is 1 to
65,535 seconds. The default value is
3600 seconds.
Supplicant-timeout Sets the timer used by the switch to
determine authentication server
timeout conditions. The range is 1 to
65,535 seconds. The default value is
30 seconds.
Server-timeout Sets the timer used by the switch to
determine authentication server
timeout conditions. The range is 1 to
65,535 seconds. The default value is
30 seconds.
Re-authentication— Activates reauthentication on the
authenticator port. The client must periodically reauthenticate
according to the time interval set with the Reauth-period timer.
Click the box to activate this field.
Number of Re-auth Requests— Specifies the maximum number
of times the switch retransmits EAP Request packets to a client
before it times out an authentication session. The range is 1 to 10
retransmissions. The default value is 2.
Port Control Direction— Specifies whether authenticator ports
that are in the unautho rized state sh ould forward eg ress broadcast
and multicast traffic. Choose from the following:
In Specifies that authenticator ports in the
unauthorized state should forward egress
broadcast and multicast traffic, and discard the
ingress broadcast and multicast traffic. This is
the default setting.
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Both Specifies that authenticator ports in the
unauthorized state should discard both ingress
and egress broadcast and multicast traffic.
Dynamic VLAN Creation— Activates dynamic VLAN
assignments of authenticator ports. Click the box to activate this
field.
Type— Activates dynamic VLAN assignments of authenticator
ports. Choose from the following:
Single Specifies that an authenticator port forwards
packets of only those supplicants that have the
same VID as the supplicant who initially
logged on.
Multi Specifies that an authenticator port forwards
packets of all supplicants, regardless of the
VIDs in their client accounts on the RADIUS
server.
Guest VLAN— Specifies the ID number of a VLAN that is the
guest VLAN of an authenticator port. You can enter only one VID.
Host Mode— Sets the operating modes on authenticator ports.
Choose from the following:
Single-host Specifies the single-host operating mode.
An authenticator port set to this mode
forwards only those packets from the one
client who initially logs on. This is the
default setting.
Multi-host Specifies the multiple-host operating
mode. An authenticator port set to this
mode forwards all packets after one client
logs on. This is referred to as piggy-
backing.
Multi-supplicant Specifies the multiple-supplicant operating
mode. An authenticator port set to this
mode requires that all clients log on.
Mac Authentication— Activates MAC address-based
authentication on authenticator ports. An authenticator port that
uses this type of authentication extracts the source MAC address
from the initial frames from a supplicant and automatically sends it
as the supplicant’s username and password to the authentication
server. This authentication method does not require 802.1x client
software on supplicant nodes. Click the box to activate this field.
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Re-Auth Learning— Forces ports that are using MAC address
authentication into the u nauthorized state. You may use this setting
to reauthenticate the nodes on authenticator ports. Click the box to
activate this field.
6. Click Apply.
7. Click SAVE.
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194
Displaying the 802.1x Authentication Port Settings
To display the 802.1x Authentication port settings, do the following:
1. Hover the cursor over the Security tab.
The Security tab is displayed. See Figure 57 on page 166.
2. From the Security tab drop-down menu, select 8 02.1x Po rt
Authentication.
The 802.1x Authentication page is displayed. See Figure 64 on page
187.
3. Click View next to the port that you want to display.
The 802.1x Authentication View page is displayed. See Figure 67.
Figure 67. 802.1x Authentication View Page
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Disabling 802.1x Port-based Authentication on the Switch
To disable the 802.1x port-based Authentication feature on a switch, do
the following:
1. Hover the cursor over the Security tab.
The Security tab is displayed. See Figure 57 on page 166.
2. From the Security tab drop-down menu, select 802.1x Port
Authentication.
The 802.1x Authentication page wit h the Status field set to Enabled is
displayed. See Figure 68.
Figure 68. 802.1x Authentication Page with Status Enabled
3. Use the pull-down menu next to the Status field to select Disabled.
4. Click Apply.
5. Click SAVE.
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Disabling 802.1x Port-based Authentication on a Port
To disable 802.1x port authentication on a port, do the following:
1. Hover the cursor over the Security tab.
The Security tab is displayed. See Figure 57 on page 166.
2. From the Security tab drop-down menu, select 8 02.1x Po rt
Authentication.
The 802.1x Authentication page is displayed. See Figure 64 on page
187.
3. Click Edit next to the port that you want to modify.
The Modify 802.1x Authentication p age is displayed. See Figure 65 on
page 188.
4. Use the pull-down menu next to the Port Role field to select None.
5. Click Apply.
6. Click SAVE.
197
Chapter 18
Setting IPv4 and IPv6 Management
This chapter provides brief descriptions of IPv4 and IPv6 Management,
and explains how to configure both types of IP addresses on the switch.
See the following sections:
“Overview” on page 198
“Assigning an IPv4 Address” on page 200
“Assigning an IPv6 Address” on page 204
“Displaying IP Addresses” on page 206
“Modifying IP Addresses” on page 207
For more information about the IP management, see the following
chapters in the AlliedWare Plus Management Software Command Line
Interface User’s Guide:
IPv4 and IPv6 Management Addresses
IPv4 and IPv6 Management Address Commands
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198
Overview
If you use the AlliedWare Plus web interface to change the IP address of
the switch, the web connection to the switch is lost. In order to maintain a
connection with the switch, it is necessary to also have a local connect ion
if you are going to change the IP address with the web interface. For
information about a local connection to the switch, see the AlliedWare
Plus Management Software Command Line Interface User’s Guide.
The features listed in Table 3 require that the switch is assigned a
management IP address in the web interface. The switch uses the
address to identify itself to other network devices, such as TFTP servers
and Telnet clients.
You can assign the switch an IPv4 addre ss and an IPv6 address, but only
one of each type. However, as shown in the table, a management IPv6
address only supports the TACACS+ client. To use features that are not
supported by an IPv6 address, you must assign the switch an IPv4
address instead of or, in addition to, an IPv6 address.
Note
In the Command Line Interface, there are additional features that
require either an IPv4 or IPv6 address.
Table 3. Web Interface Features that Require an IP Management Address
Feature Description Supported by
IPv4 Address Supported by
IPv6 Address
802.1x port-based
network access
control
Used for port security. yes no
RADIUS client Used for remote
management authentication
and for 802.1x port-based
network access control.
yes no
sFlow agent Used to transmit packet
statistics and port counte rs to
an sFlow collector on your
network.
yes no
TACACS+ client Used for remote
management authentication
using a TACACS+ server on
your network.
yes yes
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IP Management
Guidelines See the following list for guidelines about assigning the switch a
management IPv4 or IPv6 address:
You can assign the switch one IPv4 address and one IPv6 address.
A management address must be assigned to a VLAN on the switch. It
can be assigned to any VLAN, in cluding the default VLAN, wh ich has a
VID of 1. For background information on VLANs, see Chapter 11,
“Setting Port-based and Tagged VLANs” on page 125.
If you assign both IPv4 and IPv6 addresses to the switch, you must
assign them to the same VLAN.
An IPv4 management address can be assigned manually or from a
DHCP server on your network. (To learn the switch’s MAC address, go
to the Dashboard page. See Figure 4 on page 23.)
An IPv6 address must be assigned manually. The switch does not
support the assignment of an IPv6 management address from a DHCP
server.
You must assign the switch a default gateway if the network devices,
such as syslog servers and Telnet workstations, are not members of
the same subnet as the management address. This IP address
designates an interface on a router or other Layer 3 device that
represents the first hop to the remote subnets or networks where the
network devices are located.
The default gateway address, if needed, must be a member of the
same subnet as the management address.
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200
Assigning an IPv4 Address
Use one of the following procedures to assign a static or DHCP IPv4
address to the switch.
“Assigning a Static IPv4 Address”
“Assigning a DHCP IPv4 Address” on page 201
Assigning a Static
IPv4 Address To assign a static IPv4 address, do the following:
1. Hover the cursor over the Management tab.
The Management tab is displayed. See Figure 69.
Figure 69. Management Tab
2. From the Management tab drop-down menu, select IP.
The IP Management Configuration page with the Static IP Address
field selected is displayed. See Figure 70.
Figure 70. IP Management Configuration Page with Static IP Address
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3. Click the box next to the Static IP Address field. This is the default
setting.
4. Assign a VLAN to the IPv4 address by using the pull-down menu next
to the Interface Name field.
You can only select a VLAN that you have configured previously. For
information about how to assign a VLAN, see Chapter 11, “Setting
Port-based and Tagged VLANs” on page 125.
5. Enter an IPv4 address in the IP Address field in the following format:
xxx.xxx.xxx.xxx
where xxx is a number from 0 to 255. There are four groups of
numbers that are separated by periods.
6. Enter a value in the Net Mask field to assign a subnet mask to the
switch.
The Next Mask is a decimal nu mber that represents the number of bit s,
from left to right, that constitute the network port ion of the address. For
example:
The decimal mask 16 is equivalent to the mask 255.255.0.0.
The decimal mask 24 is equivalent to the mask 255.255.255.0.
7. To assign a default gateway to the switch, enter an IPv4 address in the
Default IP Gateway field.
The IPv4 address is specified in the following format:
xxx.xxx.xxx.xxx
where xxx is a number from 0 to 255. There are four groups of
numbers that are separated by periods.
For more information about the default gateway, see “IP Management
Guidelines” on page 199.
8. Click Apply.
9. Click SAVE.
Assigning a
DHCP IPv4
Address
Use this procedure to assign the switch an IPv4 management address
from a DHCP server. This procedure activates the DHCP client, which
automatically queries the network for a DHCP server. The client also
queries for a DHCP server whenever you reset or power-cycle the switch.
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Caution
When you use the web interface to assign an IPv4 address to the
switch using DHCP, you lose connection with the switch. To
maintain your connection with the switch, make sure you have a
local connection to the switch when you assign a DHCP IP address.
To assign a DHCP IPv4 address, do the following:
1. Hover the cursor over the Management tab.
The Management tab is displayed. See Figure 69 on page 200.
2. From the Management tab drop-down menu, select IP.
3. Click the box next to the DHCP Address field.
The IP Management Configuration page with the DHCP IP Address
selected is displayed. See Figure 71.
Figure 71. IP Management Configuration Page with DHCP
4. To select a VLAN, use the pull-down menu next to the Interface Name
field.
You can only select a VLAN that you have configured previously. For
information about how to assign a VLAN, see Chapter 11, “Setting
Port-based and Tagged VLANs” on page 125.
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Note
You cannot select the IP addre ss, Net Mask, and Default Gateway
IP fields from this page.
5. Click Apply.
6. Click SAVE.
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Assigning an IPv6 Address
To assign an IPv6 address to the switch, do the following:
1. Hover the cursor over the Management tab.
The Management tab is displayed. See Figure 69 on page 200.
2. From the Management tab drop-down menu, select IPv6.
The IPv6 Management Configuration page is displayed. See
Figure 72.
Figure 72. IPv6 Management Configuration Page
3. Assign a VLAN to the IPv6 address by using the pull-down menu next
to the Interface Name field.
You can only select a VLAN that you have configured previously. For
information about how to assign a VLAN, see Chapter 11, “Setting
Port-based and Tagged VLANs” on page 125.
4. Enter an IPv6 address in the IP Address field in the following format:
nnnn:nnnn:nnnn:nnnn:nnnn:nnnn:nnnn:nnnn
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Where n is a hexadecimal number from 0 to F. The eight groups of
numbers must be separated by colons. Group s where all four digits are
“0” can be omitted. Leading “0’s” in groups can also be omitted. For
example, the following IPv6 addresses are equivalent:
12c4:421e:09a8:0000:0000:0000:00a4:1c50
12c4:421e:9a8::a4:1c50
5. To assign a prefix to the IPv6 addre ss, enter a value in the Prefix field.
The prefix is a decimal number that represents the number of bit s, from
left to right, that constitute the network portion of the address. (In an
IPv4 address, the prefix is called the subnet mask.) For example:
The decimal mask 16 is equivalent to the prefix 255.255.0.0.
The decimal mask 24 is equivalent to the prefix 255.255.255.0.
6. To assign an IPv6 default gateway to the switch, enter an IPv6 address
in the Default IP Gateway field.
A default gateway is an address of an interface on a router or other
Layer 3 device. It defines the first hop to reaching the remote subnets
or networks where the network devices are located. You must assign
the switch a default gateway address if the following are true:
The remote management devices, such as Telnet workstations
and TFTP servers, are not members of the same subnet as the
IPv6 management address.
The switch can have only one IPv6 default gateway.
The IPv6 management address and the default gateway address
must be members of the same subnet.
For more information about the default gateway, see “IP Management
Guidelines” on page 199.
7. Click Apply.
8. Click SAVE.
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Modifying IP Addresses
To modify an IP address on the switch, choose one of the following
procedures:
“Modifying an IPv4 Static Address”
“Changing a DHCP IPv4 Address to Static” on page 207
“Modifying an IPv6 Address” on page 208
Caution
Modifying the IP address assigned to the switch may cause you to
end the current login session and lose the connection to the web
interface. To re-gain access to the web interface, enter the new IP
address in your web browser.
Modifying an
IPv4 Static
Address
To modify an IPv4 address, do the following:
1. Hover the cursor over the Management tab.
The Management tab is displayed. See Figure 69 on page 200.
2. From the Management tab drop-down menu, select IP.
The IP Management Configuration page with the Static IP Address
field selected is displayed. See Figure 70 on page 200.
3. Modify the IP address in the IP Addre ss field.
4. Click Apply.
5. Click SAVE.
Changing a
DHCP IPv4
Address to Static
To change a DHCP IPv4 address to a static address, do the following:
1. Hover the cursor over the Management tab.
The Management tab is displayed. See Figure 69 on page 200.
2. From the Management tab drop-down menu, select IP.
The IP Management Configuration page with DHCP IP Address field
selected is displayed. See Figure 71 on page 202.
3. Select Static IP Address.
4. Click Apply.
5. Click SAVE.
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Modifying an
IPv6 Address To modify an IPv6 address, do the following:
1. Hover the cursor over the Management tab.
The Management tab is displayed. See Figure 69.
2. From the Management tab drop-down menu, select IPv6.
The IPv6 Management Configuration p age is displayed. See Figure 72
on page 204.
3. Modify the IPv6 address in the IP Address field.
4. Click Apply.
5. Click SAVE.
209
Chapter 19
Setting LLDP and LLDP-MED
This chapter provides a brief description of the Link Layer Discovery
Protocol (LLDP) and Link Layer Discovery Protocol for Media Endpoint
Devices (LLDP-MED) features, and explains how to e nable these feature s
on the switch. See the following sections:
“Overview” on page 210
“Setting LLDP Locations” on page 211
“Configuring LLDP and LLDP-MED” on page 219
“Displaying LLDP Neighbor Information” on page 231
“Displaying LLDP Statistics” on page 236
“Displaying LLDP Locations” on page 238
“Displaying LLDP and LLDP-MED Settings” on page 241
“Disabling LLDP on the Switch” on page 247
For more information about the LLDP and LLDP-MED features, see the
following chapters in the AlliedWare Plus Management Software
Command Line Interface User’s Guide:
802.1x Port-based Network Access Control
802.1x Port-based Network Access Control Commands
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Overview
Link Layer Discovery Protocol (LLDP) and Link Layer Discovery Protocol
for Media Endpoint Devices (LLDP-MED) allow Ethernet network devices,
such as switches and routers, to receive and/or transmit device-related
information to directly connected devices on the network that are also
using the protocols, and to st ore the information that is learned about other
devices. The data sent and received by LLDP and LLDP-MED are useful
for many reasons. The switch can discover other devices directly
connected to it. Neighboring devices can use LLDP to advertise some
parts of their Layer 2 configuration to each other, enabling some types of
misconfiguration to be more easily detected and corrected.
LLDP is a “one-hop” protocol. LLDP information can only be sent to and
received by devices that are directly connected to each other, or
connected via a hub or repeater. Devices that are directly connected to
each other are called neighbors. Advertised information is not forwarded
on to other devices on the network. In addition, LLDP is a one-way
protocol. That is, the information transmitted in LLDP advertisements
flows in one direction only, from one device to its neighbors, and the
communication ends there. Transmitted advertisements do not solicit
responses, and received advertisements do not solicit
acknowledgements. LLDP cannot solicit any information from other
devices. LLDP operates over physical ports only. For example, it can be
configured on switch port s that belong to static port trunks or LACP trunks,
but not on the trunks themselves, and on switch ports that belong to
VLANs, but not on the VLANs themselves.
Each port can be configured to transmit local information, r eceive neighbor
information, or both. LLDP transmits information as packets called LLDP
Data Units (LLDPDUs). An LLDPDU consists of a set of Type-Length-
Value (TLV) elements, each of which contains a particular type of
information about the device or port transmitting it.
A single LLDPDU contains multiple TLVs. TLVs are short information
elements that communicate complex data, such as variable length strings,
in a standardized format. Each TLV advertises a single type of
information, such as its device ID, type, or management addresses.
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Setting LLDP Locations
Creating LLDP locations lets you create IDs that are then used in following
procedures. The procedures in this sectio n allow you to create LLDP Civic,
Coordinate, and Emergency Location Identifier Number (ELIN) locations.
See the following:
“Creating a Civic Location”
“Creating a Coordinate Location” on page 215
“Creating an ELIN Location” on page 217
Creating a Civic
Location To create an LLDP Civic Location, do the following:
1. Hover the cursor over the Discovery & Monitoring tab.
The Discovery & Monitoring tab is displayed. See Figure 73.
Figure 73. Discovery & Monitoring Tab
2. From the Discovery & Monitoring tab, hover over LLDP.
The LLDP tab appears on the right.
3. From the LLDP tab, move the cursor to the right and hover over
Locations.
The Locations tab is displayed. See Figure 74 on page 212.
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The following fields are displayed:
ID
Country
State
County
City
Division
Neighborhood
Street Group
Leading Street Direction
Trailing Street Suffix
Street Suffix
House Number
House Number Suffix
Landmark
Additional Information
Name
Postal Code
Building
Unit
Floor
Room
Place Type
Postal Community Name
Post Office Box
Additional Code
Seat
Primary Road Name
Road Selection
Branch Road Name
Sub Branch Road Name
Street Name Pre Modifier
Street Name Post Modifier
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You must define the ID and Country fields. The remaining fields are
optional.
The fields are listed in Step 4. Each field can contain up to 255
characters.
Note
The ID number indicates the civic location. The Country field must
contain two uppercase characters, for example, “US.”
7. Click Apply.
8. Click SAVE.
Creating a
Coordinate
Location
To create an LLDP Coordinate Location, do the following:
1. Hover the cursor over the Discovery & Monitoring tab.
The Dis covery & Monitoring t ab is displayed. See Figure 73 on p age
211.
2. From the Discovery & Monitoring tab, hover over LLDP.
The LLDP tab appears on the right.
3. From the LLDP tab, move the cursor to the right and hover over
Locations.
The Locations tab is displayed. See Figure 74 on page 212.
4. From the Locations tab drop-down menu, move the cursor to the right
and select Coordinates.
The LLDP Coordinate Location page is displayed. See Figure 77.
Figure 77. LLDP Coordinate Location Page
5. From the LLDP Coordinate Location page, click Add.
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The Add LLDP Coordinate Location page is displayed. See Figure 78.
Figure 78. Add LLDP Coordinate Location Page
6. Define or edit the following fields as needed:
ID— LLDP Coordinate Location ID.
Latitude— Latitude value in decimal degrees. The range is -90.0º
to 90.0º. The field accepts up to two digits to the right of the
decimal point.
Latitude Resolution— Latitude resolution as the number of valid
bits. The range is 0 to 34.
Longitude— Longitude value in decimal degrees. The range is
-180.0º to 180.0º. The field accepts up to two digits to the right of
the decimal point.
Longitude Resolution— Longitude resolution as the number of
valid bits. The range is 0 to 34.
Altitude— Altitude in meters or floors. For the altitude in meters,
the range is -2097151.0 to 2097151.0 meters. The parameter
accepts up to eight digits to the right of the decimal point. For
altitude in the number of floors, the range is -2097151.0 to
2097151.0. Use the Altitude Type field to specify meters or floors.
Altitude Type— Choose between meters and floors.
Altitude Resolution— Altitude resolution as the number of valid
bits. The range is 0 to 30.
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Datum— Geodetic system (or datum) of the coordinates. Choose
one of the following:
nad83-mllw Mean lower low water datum 1983
nad83-navd North American vertical datum 1983
wgs84 World Geodetic System 1984
7. Click Apply.
8. Click SAVE.
Creating an
ELIN Location The Emergency Location Identifier Number (ELIN) TLV specifies the
location of a network device by its ELIN.
To create an LLDP ELIN location, do the following:
1. Hover the cursor over the Discovery & Monitoring tab.
The Dis covery & Monitoring t ab is displayed. See Figure 73 on p age
211.
2. From the Discovery & Monitoring tab, hover over LLDP.
The LLDP tab appears on the right.
3. From the LLDP tab, move the cursor to the right and hover over
Locations.
The Locations tab is displayed. See Figure 74 on page 212.
4. From the Locations tab drop-down menu, move the cursor to the right
and select ELIN.
The LLDP ELIN Location List page is displayed. See Figure 79.
Figure 79. LLDP ELIN Location List Page
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5. From the LLDP ELIN Location page, click Add.
The LLDP ELIN Location page is displayed. See Figure 80.
Figure 80. LLDP ELIN Location Page
6. Define or edit the following fields as needed:
ID— ID number for an LLDP-MED co ordinate location entry on the
switch. The range is 1 to 256. (This range is separate from the
ranges for civic and coordinate entries.) You can specify one ID
number.
ELIN LOCATION— ELIN of 10 to 25 digits.
7. Click Apply.
8. Click SAVE.
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Configuring LLDP and LLDP-MED
To configure LLDP and LLDP-MED, perform the following procedures:
“Setting the Basic LLDP Configuration”
“Setting LLDP Port Assignments” on page 220
“Assigning Port Locations” on page 222
“Enabling LLDP TLV” on page 224
“Enabling LLDP- MED TLV” on page 228
Setting the Basic
LLDP
Configuration
To set the basic LLDP configuration, do the following:
1. Hover the cursor over the Discovery & Monitoring tab.
The Dis covery & Monitoring t ab is displayed. See Figure 73 on p age
211.
2. From the Discovery & Monitoring tab, hover over LLDP.
The LLDP tab appears to the right.
3. From the LLDP tab, move the cursor to the right and select Basic
Configuration.
The LLDP Configuration page is displayed. See Figure 81.
Figure 81. LLDP Configuration Page
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4. Define or edit the following fields as needed:
Status— Choose whether LLDP is enabled or disabled on the
switch. By default, LLDP is disabled on the switch.
Timer— Transmit interval. The range is 5 to 32,768 seconds. The
default value is 30 seconds.
Fast Start Count— Fast-start count for LLDP-MED. The fast-start
count determines how ma ny fast-start advertisements LLDP sends
from a port when it begins sending LLDP-MED advertisements
from a port, for instance when it detects a new LLDP-MED capable
device. The range is 1 to 10. The default value is 3.
Holdtime Multiplier— Holdtime multiplier value. The transmit
interval is multiplied by the holdtime multiplier to give the Time To
Live (TTL) the switch advertises to the neighb ors. The range is 2 to
10. The default value is 4.
Non Strict Med TLV Order Check— Sets the switch to accept
LLDP-MED advertisements, even if the TLVs are not in the
standard order, as specified in ANSI/TIA-1057. This configuration
is useful if the switch is connected to devices that send LLDP-MED
advertisements in which the TLVs are not in the standard order.
Click in the box next to this field to select the nonstrict Med TLV
Order Check.
Notification Interval— Notification interval. This is the minimum
interval between LLDP SNMP notifications (traps). The range is 5
to 3,600 seconds. The default value is 5.
Reinit— Reinitialization delay. This is the number of seconds that
must elapse after LLDP is disabled on a port before it can be
reinitialized. The range is 1 to 10 seconds. The default value is 2.
Tx Delay— Transmission delay. This is the minimum time interval
between transmissions of advertisement s due to changes in LLDP
local information. The range is 1 to 8192 seconds. The default
value is 2.
Total Neighbors— Indicates the number of LLDP neighbors the
switch has discovered on all its ports. You cannot modify this field.
Neighbors Last Update— Indicates the time since the LLDP
neighbor table was last updated. You cannot modify this field.
5. Click Apply.
6. Click SAVE.
Setting LLDP
Port Assignments To assign LLDP to a port, do the following:
1. Hover the cursor over the Discovery & Monitoring tab.
The Discovery & Monitoring t ab is displayed. See Figure 73 on page
211.
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2. From the Discovery & Monitoring tab, hover over LLDP and then
select Port Configurations on the right.
The LLDP Port Config page is displayed. See Figure 82.
Figure 82. LLDP Port Config Page
The following fields are displayed:
Interface— Port number.
Notification— The switch sends LLDP-MED topology change
notifications when devices are connected t o, or disconnected from,
the specified ports. By default, this field is not selected.
Adv. Transmit— The port sends LLDP advertisements. Ports
configured to transmit LLDP advertisements send the mandatory
TLVs and any optional LLDP TLVs they have been configured to
send. By default, this field is selected.
Adv. Receive— The port accepts LLDP advertisements. Ports
configured to receive LLDP advertisements accept all
advertisements from their neighbors. By default, this field is
selected.
Med Notifications— The switch sends LLDP-MED topology
change notifications when devices are connected to, or
disconnected from, the specified ports. By default, this field is not
selected.
3. Select Edit next to the port that you want to modify.
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The Modify LLDP Port Configuration page is displayed. See Figure 83.
Figure 83. Modify LLDP Port Configuration Page
4. Change the settings as needed.
The definitions are listed in Step 2. Click on the box next to the field to
select it.
Note
You cannot modify the port ID from this page. To change this field,
go to the previous page (Figure 82, “LLDP Port Config Page” on
page 221) and select Edit next to the port you want to modify.
5. Click Apply.
6. Click SAVE.
Assigning Port
Locations A port location is assigned to a Civic, Coordina te, or ELIN location ID. You
must create these IDs before you assign a port location. For instructions,
see “Setting LLDP Locations” on page 211.
To assign an LLDP port location, do the following:
1. Hover the cursor over the Discovery & Monitoring tab.
The Discovery & Monitoring t ab is displayed. See Figure 73 on page
211.
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2. From the Discovery & Monitoring tab, hover over LLDP.
The LLDP tab appears on the right.
3. From the LLDP tab, select Port Locations on the right.
The LLDP Port Location page is displayed. See Figure 84.
Figure 84. LLDP Port Location Page
The fields displayed are described in Step 5.
4. Click Edit next to the port (listed under Interface) that you want to
modify.
The Modify LLDP Port Location page is displayed. See Figure 85 on
page 224.
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Figure 85. Modify LLDP Port Location Page
5. Change the parameters as needed. Use the drop-down menu next to a
field to select.
Interface— Indicates the port number. You cannot modify this
parameter on this page.
Civic Location ID— Use the pull-down menu to add civic location
information to the port. The specified location entry must already
exist.
Coordinate Location ID— Use the pull-down menu to add LLDP-
MED coordinate information to the port. The specified location
entry must already exist.
ELIN Location ID— Use the pull-do wn menu t o add ELIN location
information to the port. The specified location entry must already
exist.
6. Click Apply.
7. Click SAVE.
Enabling LLDP
TLV To enable LLDP TLV, do the following:
1. Hover the cursor over the Discovery & Monitoring tab.
The Discovery & Monitoring t ab is displayed. See Figure 73 on page
211.
2. From the Discovery & Monitoring tab, hover over LLDP.
The LLDP tab is displayed.
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3. From the LLDP tab, hover over TLV.
The LLDP TLV tab is displayed in Figure 86.
Figure 86. LLDP TLV Tab
4. Move your cursor to the right and select TLV again.
The LLDP TLV page is displayed. See Figure 87.
Figure 87. LLDP TLV Page
5. Click Edit next to the port that you want to modify.
The Modify LLDP TLV page is displayed. See Figure 88 on page 226.
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Figure 88. Modify LLDP TLV Page
6. Change the following fields as needed by clicking the box next to the
field:
Port Description— Port description of the neighbor’s port.
System Name— Neighbor’s system name.
System Description— Model number of the AT-9000 switch.
System Capabilities— Device’s router and bridge functions, and
whether or not these functions are currently enabled.
Management Address— IP address of the local LLDP ag ent. This
is used to obtain information related to the local device.
Port Vlan— VID of the VLAN in which the transmitting port is an
untagged member.
Port and Protocol Vlans— Whether the device supports protocol
VLANs, and if it does, the protocol VLAN identifiers. This field is
not supported on the AT-9000 switches.
Vlan Names— Lists the names of the VLANs in which the
transmitting port is either an untagged or tagged member.
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Protocol Ids— List of protocols that are accessible through the
port, for instance:
- 9000 (Loopback)
- 0026424203000000 (STP, RSTP, or MSTP)
- 888e01 (802.1x)
- AAAA03 (EPSR)
- 88090101 (LACP)
- 00540000e302 (Loop protection)
- 0800 (IPv4)
- 0806 (ARP)
- 86dd (IPv6)
MAC Phy Config— Speed and duplex mode of the port and
whether the port was configured with Auto-Negotiation.
Link Aggregation— Whether the port is capable of link
aggregation and, if so, whether it is currently a member of an
aggregator.
Max Frame Size— Sends the maximum supported frame size of
the port. This field is not adjustable on the switch.
7. Click Apply.
8. Click SAVE.
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Enabling LLDP-
MED TLV To enable LLDP-MED TLV, do the following:
1. Hover the cursor over the Discovery & Monitoring tab.
The Discovery & Monitoring t ab is displayed. See Figure 73 on page
211.
2. From the Discovery & Monitoring tab, hover over LLDP and then
hover over TLV.
The LLDP TLV tab is displayed. See Figure 86 on page 225.
3. From the LLDP TLV tab, select TLV-MED on the right
The LLDP MED TLV page is displayed. See Figure 89.
Figure 89. LLDP MED TLV Page
The following fields are displayed:
Interface— Port number.
Capabilities— Device’s router and bridge functions, and whether
or not these functions are currently enabled.
Network-policy— Network policy information configured on the
port for connected media endpoint devices. The switch supports
Application Type 1: Voice, including the following network policy
for connected voice devices to use for voice data:
- Voice VLAN ID
- Voice VLAN Class of Service (CoS) priority
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- Voice VLAN Diffserv Code Point (DSCP)
Location— Location information configured for the port, in one or
more of the following formats:
- Civic location
- Coordinate location
- Emergency Location Identification Number (ELIN)
Inventory-management— Current hardware platform and the
software version, identical on every port on the switch:
- Hardware Revision
- Firmware Revision
- Software Revision
- Serial Number
- Manufacturer Name
- Model Name
- Asset ID
4. Click Edit next to the port that you want to modify.
The Modify LLDP Med TLV page is displayed. See Figure 90.
Figure 90. Modify LLDP Med TLV Page
5. Change the following fields, as needed, by clicking the box next to the
field. The fields are described in detail in Step 3.
Capabilities— Capabilities TLV.
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Network-policy— Network policy TLV.
Location— Location identification TLV.
Inventory-management— Inventory management TLV.
6. Click Apply.
7. Click SAVE.
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Displaying LLDP Neighbor Information
To display LLDP Neighbor Information, use the following procedures:
“Displaying LLDP Neighbor Information”
“Displaying LLDP Neighbor Detail” on page 232
Displaying LLDP
Neighbor
Information
To display LLDP Neighbor information, do the following:
1. Hover the cursor over the Discovery & Monitoring tab.
The Dis covery & Monitoring t ab is displayed. See Figure 73 on p age
211.
2. From the Discovery & Monitoring tab, hover over LLDP, move the
cursor to the right, and then select Neighbors.
The LLDP Neighbors Information page is displayed. See Figure 91.
Figure 91. LLDP Neighbors Information Page
The following fields are displayed:
Local Port— Port number.
Neighbor Chassis ID— ID number of the neighbor’s chassis.
Neighbor Port Name— The neighbor ’s port number that sent the
information.
Neighbor System Name— Neighbor’s system name.
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System Capabilities— Capabilities that are supported and
enabled on the neighbor. The System Capabilities codes are:
O = Other
P = Repeater
B = Bridge
W = Wireless Access Point
R = Router
T = Telephone
C= Cable Device
S = Station only
Med Device class and Power Source code— The MED device
Classes I through III are supported. Power Source code indicates
the current power source which is either the Primary Power Source
or the Backup Power Source. The codes are:
C1 = Class I
C2 = Class II
C3 = Class III
N = Network
L = Local
PSE = PoE
prim = Primary
UN = Unknown
Ba = Backup
Displaying LLDP
Neighbor Detail To display LLDP Neighbor detailed information, do the following:
1. Hover the cursor over the Discovery & Monitoring tab.
The Discovery & Monitoring t ab is displayed. See Figure 73 on page
211.
2. From the Discovery & Monitoring tab, hover over LLDP, move the
cursor to the right, and then select Neighbors.
The LLDP Neighbors Information pag e is disp layed. See Figure 91 on
page 231.
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3. From the LLDP Neighbors Information page, click Details next to the
port whose LLDP Neighbor detailed information you want to view.
The LLDP Neighbor Detail page is displayed. See Figure 92.
Figure 92. LLDP Neighbor Detail Page
The following fields are displayed:
Port Id— Local port ID.
Neighbor Chassis Id— Chassis ID that uniquely identifies the
neighbor.
Neighbor Port Id Type— Port ID type of the neighbor.
Neighbor Port Id— Port ID of the neighbor.
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Neighbor TTL— Number of seconds that the information
advertised by the neighbor remains valid.
Neighbor System Name— Neighbor’s system name.
Neighbor System Description— Description of the neighbor
switch, such as the product name.
Neighbor System Capabilities Supported— Neighbor device’s
functions supported by the switch.
Neighbor System Capabilities Enabled— Neighbor device’s
functions and whether or not these f unctions are currently enabled.
Neighbor Management Address— IP address of the neighbor.
Neighbor PVID— VLAN ID of the neighbor port.
Neighbor Port Vlan Supported— Protocol VLANs supported by
the neighbor switch.
Neighbor Port Vlan Enabled— Protocol VLANs enabled on the
neighbor switch.
Neighbor VIDs— VLAN IDs of the protocol VLANs supported on
the neighbor switch.
Neighbor VNames— Names of the port-based and t agged VLANs
in which the neighbor port is a member.
Neighbor Protocol Ids— List of protocols that are accessible
through the neighbor’s port.
Neighbor MAC Phy Auto— Speed and duplex mode of the
neighbor port and whether the port was configured with Auto-
Negotiation.
Neighbor Advertised Capability— Auto-negotiation neighbor
port capabilities, including 1000BaseTDF, 100BaseTXFD,
100BaseTX, 10BaseTFD, 10BaseT.
Neighbor Operational Mau Type— Operational Medium
Attachment Unit (MAU) type is the attached device’s medium
speed, such as twisted pair, fiber, or link speed.
Neighbor Power Via MDI— Power via MDI capabilities of the
neighbor port.
Neighbor Link Aggregation— Neighbor link aggregation status.
Neighbor Max Frame Size— Maximum frame size the neighbor
port can forward.
Neighbor LLDP Med Device Type— LLDP-MED device types are
Class I, Class II, Class III, Network Connectivity, Local, and
Unknown.
Neighbor LLDP Med Capabilities— LLDP-MED TLVs that are
supported and enabled on the neighbor switch, and the device
type.
Neighbor Network Policies— Network policy information
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configured on the port for connected media endpoint devices. The
switch supports Application Type 1: Voice, including the following
network policy for connected voice devices to use for voice data:
– Voice VLAN ID
– Voice VLAN Class of Service (CoS) priority
– Voice VLAN Diffserv Code Point (DSCP)
Neighbor Location Identifier— ID numb er for an LLDP-MED civic
location entry on the neighbor switch.
Neighbor Extended Power Via MDI— Extended power via MDI
capabilities of the neighbor port.
Neighbor Power Source— Current neighbor power source, either
Primary Power Source or Backup Power Source.
Neighbor Power Priority— Power priority configured on the
neighbor port.
Neighbor Power Value— In TLVs transmitted by a Power
Sourcing Equipment (PSE), such as this switch, this advertises the
power that the port can supply over a maximum length cable base d
on its current configuration (that is, it takes into account power
losses over the cable). In TLVs received from Powered Device
(PD) neighbors, the power value is the power the neighbor
requests.
Neighbor Hardware Revision— Hard ware revision number of the
neighbor chassis.
Neighbor Firmware Revision— Revision number of the
bootloader on the neighbor chassis.
Neighbor Software Revision— Revision number of the
management software on the neighbor chassis.
Neighbor Serial Number— Serial number of the neighbor device.
Neighbor Mfg Name— Name of the company that manufactured
the neighbor device.
Neighbor Model Name— Model name of the neighbor.
Neighbor Asset Id— Asset ID of the neighbor.
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Displaying LLDP Statistics
To display LLDP Statistical information, do the following:
1. Hover the cursor over the Discovery & Monitoring tab.
The Discovery & Monitoring t ab is displayed. See Figure 73 on page
211.
2. From the Discovery & Monitoring tab, hover over LLDP.
3. From the LLDP tab, move the cursor to the right and select Statistics.
The LLDP Statistics page is displayed with the Port Statistics tab
selected automatically. See Figure 93.
Figure 93. LLDP Statistics Page with Port Statistics Tab
The following fields are displayed:
Interface— Port number.
Out Frames— Number of LLDPDU frames transmitted.
In Frames— Number of LLDPDU frames received.
In Frames Errored— Number of invalid LLDPDU frames receive d.
In Frames Dropped— Number of LLDPDU frames received and
discarded.
Unrecognized TLVs— Number of LLDP TLVs received that were
unrecognized, but the TLV types were in the range of reserved TL V
types.
Discarded— Number of discarded TLVs.
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New Entries— Number of times the information advertised by
neighbors has been inserted into the neighbor table.
Deleted Entries— Number of times the information advertised by
neighbors has been removed from the neighbor table.
Dropped Entries— Number of times the information advertised by
neighbors could not be entered into the neighbor table because of
insufficient resources.
Ageout Entries— Number of times the information advertised by
neighbors has been removed from the neighbor table because the
information TTL interval has expired.
4. Select the Summary tab.
The LLDP Statistics Summary page is displayed. See Figure 94.
Figure 94. LLDP Statistics Page with Summary Tab
The fields are described in Step 2. These fields list the statistics for all
of the ports.
5. Click OK to return to the LLDP Statistics Page with the Port Statistics
Tab selected.
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Displaying LLDP Locations
To display the LLDP Civic, Coordinate, and ELIN locations, use the
following procedures:
“Displaying Civic Locations”
“Displaying Coordinate Locations” on page 239
“Displaying ELIN Locations” on page 240
For information about creating LLDP locations, see “Setting LLDP
Locations” on page 211.
Displaying Civic
Locations To display a Civic Location, do the following:
1. Hover the cursor over the Discovery & Monitoring tab.
The Discovery & Monitoring t ab is displayed. See Figure 73 on page
211.
2. From the Discovery & Monitoring tab, hover over LLDP.
The LLDP tab appears on the right.
3. From the LLDP tab, hover over Locations.
The Locations tab is displayed. See Figure 74 on page 212.
4. From the Locations tab, move the cursor to the right and select Civic.
The LLDP Civic Location page is displayed. See Figure 75 on page
212.
The following fields are displayed:
ID
Country
State
County
City
Division
Neighborhood
Street Group
Leading Street Direction
Trailing Street Suffix
Street Suffix
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House Number
House Number Suffix
Landmark
Additional Information
Name
Postal Code
Building
Unit
Floor
Room
Place Type
Postal Community Name
Post Office Box
Additional Code
Seat
Primary Road Name
Road Selection
Branch Road Name
Sub Branch Road Name
Street Name Pre Modifier
Street Name Post Modifier
Displaying
Coordinate
Locations
To display a Coordinate Location, do the following:
1. Hover the cursor over the Discovery & Monitoring tab.
The Dis covery & Monitoring t ab is displayed. See Figure 73 on p age
211.
2. From the Discovery & Monitoring tab, hover over LLDP.
The LLDP tab appears on the right.
3. From the LLDP tab, hover over Locations.
The Locations tab is displayed. See Figure 74 on page 212.
4. From the Locations tab, move the cursor to the right and select
Coordinates.
The LLDP Coordinate Location page is displayed. See Figure 77 on
page 215.
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The following fields are displayed:
ID— LLDP Coordinate Location ID.
Latitude— Latitude value in decimal degrees.
Latitude Resolution— Latitude resolution as the number of valid
bits.
Longitude— Longitude value in decimal degrees.
Longitude Resolution— Longitude resolution as the number of
valid bits.
Altitude— Altitude in meters or floors.
Altitude Resolution— Altitude resolution as the number of valid
bits.
Datum— Geodetic system (or datum) of the coordinates:
nad83-mllw Mean lower low water datum 1983
nad83-navd North American vertical datum 1983
wgs84 World Geodetic System 1984
Displaying ELIN
Locations To display an LLDP ELIN location, do the following:
1. Hover the cursor over the Discovery & Monitoring tab.
The Discovery & Monitoring t ab is displayed. See Figure 73 on page
211.
2. From the Discovery & Monitoring tab, hover over LLDP.
The LLDP tab appears on the right.
3. From the LLDP tab, hover over Locations.
The Locations tab is displayed. See Figure 74 on page 212.
4. From the Locations tab, move the cursor to the right and select ELIN.
The LLDP ELIN Location page is displayed. See Figure 79 on page
217.
The following fields are displayed:
ID— ID number for an LLDP-MED co ordinate location entry on the
switch.
ELIN LOCATION— ELIN of 10 to 25 digits.
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Displaying LLDP and LLDP-MED Settings
To display the LLDP and LLDP-MED settings, use the following
procedures:
“Displaying the Basic LLDP Configuration”
“Displaying LLDP Port Assignments” on page 242
“Displaying Port Locations” on page 243
“Displaying LLDP TLV” on page 243
“Displaying LLDP-MED TLV” on page 245
For information about configuring LLDP and LLDP-MED, see “Conf iguring
LLDP and LLDP-MED” on page 219
Displaying the
Basic LLDP
Configuration
To display the basic LLDP configuration, do the following:
1. Hover the cursor over the Discovery & Monitoring tab.
The Dis covery & Monitoring t ab is displayed. See Figure 73 on p age
211.
2. From the Discovery & Monitoring tab, hover over LLDP.
The LLDP tab appears to the right.
3. From the LLDP tab, select Basic Configuration.
The LLDP Configuration page is displayed. See Figure 81 on page
219.
The following fields are displayed:
Status— Whether LLDP is enabled or disabled on the switch.
Timer— Transmit interval.
Fast Start Count— Fast-start count for LLDP-MED. The fast-start
count determines how many fast start advertisements LLDP sends
from a port when it begins sending LLDP-MED advertisements
from a port, for instance when it detects a new LLDP-MED capable
device.
Holdtime Multiplier— Holdtime multiplier value. The transmit
interval is multiplied by the holdtime multiplier to give the Time To
Live (TTL) the switch advertises to the neighbors.
Non Strict Med TLV Order Check— Indicates whether the switch
accepts LLDP-MED advertisements when the TLVs are not in the
standard order, as specified in ANSI/TIA-1057.
Notification Interval— Notification interval. This is the minimum
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interval between LLDP SNMP notifications (traps).
Reinit— Reinitialization delay. This is the number of seconds that
must elapse after LLDP is disabled on a port before it can be
reinitialized.
Tx Delay— Transmission delay. This is the minimum time interval
between transmissions of advertisement s due to changes in LLDP
local information.
Total Neighbors— Number of LLDP neighbors the switch has
discovered on all its ports.
Neighbors Last Update— Time since the LLDP neighbor table
was last updated.
Displaying LLDP
Port Assignments To display LLDP port assignments, do the following:
1. Hover the cursor over the Discovery & Monitoring tab.
The Discovery & Monitoring t ab is displayed. See Figure 73 on page
211.
2. From the Discovery & Monitoring tab, hover over LLDP, move the
cursor to the right, and then select Port Configurations.
The LLDP Port Config page is displayed. See Figure 82 on page 221.
The following fields are displayed:
Interface— Port ID.
Notification— Indicates whether the switch sends LLDP-MED
topology change notifications when devices are connected to, or
disconnected from, the specified ports.
Adv. Transmit— Indicates whether the ports send LLDP
advertisements. Ports configured to transmit LLDP advertisements
send the mandatory TLVs and any optional LLDP TLVs they have
been configured to send.
Adv. Receive— Indicates whether the ports accept LLDP
advertisements. Ports configured to receive LLDP advertisements
accept all advertisements from their neighbors.
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Med Notification— Indicates whether the switch sends LLDP-
MED topology change notifications when devices are connected
to, or disconnected from, the specified ports.
Displaying Port
Locations To display the LLDP port locations, do the following:
1. Hover the cursor over the Discovery & Monitoring tab.
The Dis covery & Monitoring t ab is displayed. See Figure 73 on p age
211.
2. From the Discovery & Monitoring tab, hover over LLDP.
The LLDP tab appears on the right.
3. From the LLDP tab, move the cursor to the right and select Port
Locations.
The LLDP Port Location page is displayed. See Figure 84 on page
223.
The following fields are displayed.
Interface— Port number.
Civic Location ID— Civic location information for the port.
Coordinate Location ID— LLDP-MED coordinate information for
the port.
ELIN Location ID— ELIN location information for the port.
Displaying LLDP
TLV To display the LLDP TLV settings, do the following:
1. Hover the cursor over the Discovery & Monitoring tab.
The Dis covery & Monitoring t ab is displayed. See Figure 73 on p age
211.
2. From the Discovery & Monitoring tab, hover over LLDP.
The LLDP tab is displayed.
3. From the LLDP tab, hover over TLV.
The LLDP TLV tab is displayed in Figure 86 on page 225.
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4. From the LLDP TLV tab, select TLV again.
The LLDP TLV page is displayed. See Figure 87 on page 225.
The following fields are displayed:
Interface— Port number.
Port Description— Port description of the neighbor’s port.
System Name— Neighbor’s system name.
System Description— Model number of the AT-9000 switch.
System Capabilities— Device’s router and bridge functions, and
whether or not these functions are currently enabled.
Management Address— IP address of the local LLDP ag ent. This
is used to obtain information related to the local device.
Port Vlan— VID of the VLAN in which the transmitting port is an
untagged member.
Port and Protocol Vlans— Whether the device supports protocol
VLANs and, if it does, the protocol VLAN identifiers. This field is
not supported on the AT-9000 switches.
Vlan Names— Names of the VLANs in which the transmitting port
is either an untagged or tagged member.
Protocol Ids— Protocols that are accessible through the port, for
instance:
- 9000 (Loopback)
- 0026424203000000 (STP, RSTP, or MSTP)
- 888e01 (802.1x)
- AAAA03 (EPSR)
- 88090101 (LACP)
- 00540000e302 (Loop protection)
- 0800 (IPv4)
- 0806 (ARP)
- 86dd (IPv6)
MAC Phy Config— Speed and duplex mode of the port and
whether the port was configured with Auto-Negotiation.
Link Aggregation— Whether the port is capable of link
aggregation, and if so, whether it is currently a member of an
aggregator.
Max Frame Size— Sends the maximum supported frame size of
the port. This field is not adjustable on the switch.
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Displaying
LLDP-MED TLV To display LLDP-MED TLV settings, do the following:
1. Hover the cursor over the Discovery & Monitoring tab.
The Dis covery & Monitoring t ab is displayed. See Figure 73 on p age
211.
2. From the Discovery & Monitoring tab, hover over LLDP and then
hover over TLV.
The LLDP TLV tab is displayed. See Figure 86 on page 225.
3. From the LLDP TLV tab, move the cursor to the right and select TLV-
MED.
The LLDP Med TLV page is displayed. See Figure 89 on page 228.
The following fields are displayed:
Interface— Port number.
Capabilities— Device’s router and bridge functions, and whether
or not these functions are currently enabled.
Network-policy— Network policy information configured on the
port for connected media endpoint devices. The switch supports
Application Type 1: Voice, including th e following network policy for
connected voice devices to use for voice data:
- Voice VLAN ID
- Voice VLAN Class of Service (CoS) priority
- Voice VLAN Diffserv Code Point (DSCP)
Location— Location information configured for the port, in one or
more of the following formats:
- Civic location
- Coordinate location
- Emergency Location Identification Number (ELIN)
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Inventory-management— Current hardware platform and the
software version, identical on every port on the switch:
- Hardware Revision
- Firmware Revision
- Software Revision
- Serial Number
- Manufacturer Name
- Model Name
- Asset ID
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Disabling LLDP on the Switch
To disable the LLDP feature on a switch, do the following:
1. Hover the cursor over the Discovery & Monitoring tab.
The Dis covery & Monitoring t ab is displayed. See Figure 73 on p age
211.
2. From the Discovery & Monitoring tab, hover over LLDP.
The LLDP tab appears to the right.
3. From the LLDP tab, select Basic Configuration.
The LLDP Configuration page is displayed. See Figure 81 on page
219.
4. Use the pull-down menu next to the Status field to select Disabled.
5. Click Apply.
6. Click SAVE.
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249
Chapter 20
Setting sFlow
This chapter provides a brief description of the sFlow feature and explains
how to enable this feature on the switch and on a port.
See the following sections:
“Overview” on page 250
“Configuring sFlow on a Port” on page 252
“Specifying an sFlow Collector” on page 254
“Enabling sFlow on the Switch” on page 256
“Displaying the sFlow Settings” on page 257
For more information about the sFlow feature, see the following chapters
in the AlliedWare Plus Management Software Command Line Interface
User’s Guide:
sFlow Agent
sFlow Agent Commands
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Overview
The sFlow agent allows the switch to gather data about the traffic on the
ports and to send the data to sFlow collectors on your network for
analysis. You can use the information to monitor the performance of your
network or identify traffic bottlenecks.
The sFlow agent can gather two types of information about the traffic on
the ports of the switch:
Ingress packet samples
Packet counters
Ingress Packet
Samples The sFlow agent can capture ingress packets on ports and send copies of
the packets to sFlow collectors on your network for analysis. Depending
on the capabilities of the collectors, packets can be scrutinized for source
and destination MAC or IP addresses, protocol type, length, and so forth.
Packet sampling is activated by specifying sampling rates on the ports.
This value defines the number of ingress packets from which the agent
samples one packet. For example, a sampling rate of 1000 on a port
prompts the agent to send one p acket from every 1000 ing ress packets to
the designated sFlow collector. Different ports can have different rates.
Packet Counters The agent can also gather and send data to a collector about overall
information regarding the status and performance of the ports, such as
speeds and status, and the statistics from the packet counters. The
counters contain the number and types of ingress and egress packets
handled by the ports since the switch or the counters were last reset. The
agent can gather and send the following port status and counter
information to a collector on your network:
Port number
Port type
Speed
Direction
Status
Number of ingress and egress octets
Number of ingress and egress unicast packets
Number of ingress and egress multicast packets
Number of ingress and egress broadcast packets
Number of ingress and egress discarded packets
Number of ingress and egress packets with errors
Number of ingress packets with unknown protocols
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To configure the ag ent to forward these port st atistics to the collectors, you
have to specify polling rates, which define the maximum amount of time
permitted between successive queries of the counters of a port by the
agent.
Different ports can have different polling rates. Ports to which critical
network devices are connected can be assigned low polling rates, so that
the information on the collect or is kept up-to-date. Ports connected to less
critical devices can be assigned higher polling rates.
To increase its efficiency, the agent can send port status and counter
information before the polling interval of a port times out. For example, if
you define a polling interval of five minutes for a port, the agent, depending
on its internal dynamics, may send the information to the collector before
five minutes have actually elapsed.
sFlow Collectors The sFlow agent on the switch can send port performance data to up to an
sFlow collector on your network. The performance data from each port can
be sent to one collector.
Guidelines Here are the guidelines for the sFlow agent:
The sFlow agent can send port performance data to up to four sFlow
collectors on your network.
The switch must have a management IP address. For instructions,
refer to Chapter 18, “Setting IPv4 and IPv6 Management” on page
197.
The sFlow collectors must be members of the same subnet as the
management IP address of the switch, or must have access to it
through routers or other Layer 3 devices.
If the sFlow collectors are not a member of the same subnet as the
management IP address of the switch, the switch must have a default
gateway that specifies the first hop to reaching the collectors’ subnet.
For instructions, refer to Chapter 18, “Setting IPv4 and IPv6
Management” on page 197.
The sFlow feature is not dependent on SNMP. You do not have to
enable or configure SNMP on the switch to use the sFlow feature. In
addition, you cannot use sFlow collectors to configure or manage
SNMP.
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Configuring sFlow on a Port
To configure the sFlow feature on a port, do the following:
1. Hover the cursor over the Discovery & Monitoring tab.
The Discovery & Monitoring t ab is displayed. See Figure 73 on page
211.
2. From the Discovery & Monitoring tab drop-down menu, select
sFlow.
The sFlow pa ge is displayed with the Port Conf igurations tab sele cted.
See Figure 98 on page 256.
3. Click Edit next to the port that you want to modify.
The sFlow Port Modify page is displayed. See Figure 95.
Figure 95. sFlow Port Modify Page
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4. Change the following fields as needed:
Interface— Indicates the port number.
Polling Interval— Sets the polling intervals for the ports. This
controls the maximum amount of time permitted between
successive pollings of the packet counters on the ports by the
sFlow agent. The ports can have different polling intervals.
Sample Rate— Enables packet sampling on the ports and sets the
sampling rates. The sampling rate dictates the number of ingress
packets from which one sample is taken on a port and sent by the
agent to the sFlow collector. For example, a sample rat e of 700 on
a port means that one sample packet is taken for every 700 ingress
packets. The ports can have different sampling rates.
Collector— Select the Collector, which is the number of sFlow
collectors that have been defined on the switch by entering th eir IP
addresses in the agent. The agent can contain up to four IP
addresses of sFlow collectors. Enter the IP addresses in the
“Specifying an sFlow Collector” on page 254.
5. Click Apply.
6. Click SAVE.
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Specifying an sFlow Collector
Use this procedure to specify the IP addresses and the UDP ports of the
sFlow collectors on your network. The packet sampling data and the
packet counters are sent by the switch to the collectors specified. You can
specify up to four collectors, but you can add only one address at a time
with this procedure.
To select the Collectors tab from the sFlow page, do the following:
1. Hover the cursor over the Discovery & Monitoring tab.
The Discovery & Monitoring t ab is displayed. See Figure 73 on page
211.
2. From the Discovery & Monitoring tab drop-down menu, select
sFlow.
The sFlow pa ge is displayed with the Port Conf igurations tab sele cted.
See Figure 98 on page 256.
3. From the sFlow page, select the Collectors tab.
The sFlow page is displayed with the Collectors Tab selected. See
Figure 96.
Figure 96. sFlow Page with Collectors Tab
4. Click Add.
The sFlow Collector page is displayed. See Figure 97 on page 255.
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Figure 97. sFlow Collector Page
5. Define or change the following fields as needed:
IP Address— IPv4 address of the sFlow collector on your networ k.
Enter the IPv4 address in the following format:
xxx.xxx.xxx.xxx
where xxx is a number from 0 to 255. There are four groups of
numbers that are separated by periods.
UDP Port— UDP port number of the sFlow collector. The default is
UDP port 6343.
6. Click Apply.
7. Click SAVE.
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Enabling sFlow on the Switch
To enable the sFlow feature on a switch, do the following:
1. Hover the cursor over the Discovery & Monitoring tab.
The Discovery & Monitoring t ab is displayed. See Figure 73 on page
211.
2. From the Discovery & Monitoring tab drop-down menu, select
sFlow.
The sFlow page is displayed with the Port Configurations tab selected.
See Figure 98.
Figure 98. sFlow Page with Port Configurations Tab
3. Use the pull-down menu next to the Status field to select Enabled.
4. Click Apply.
5. Click SAVE.
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Displaying the sFlow Settings
To display the sFlow settings, do the following:
1. Hover the cursor over the Discovery & Monitoring tab.
The Dis covery & Monitoring t ab is displayed. See Figure 98 on p age
256.
2. From the Discovery & Monitoring tab drop-down menu, select
sFlow.
The sFlow page is d isplayed with the Port Co nfigurations t ab selected.
See Figure 98 on page 256.
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