Software Management Guide
NXA-ENET24
Managed Ethernet Switches
Last Revised: 3/19/2010
Network/Communication
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Table of Contents
Table of Contents
Introduction ........................................................................................................1
Key Features .......................................................................................................... 1
Software Specifications .......................................................................................... 4
System Defaults........................................................................................................ 8
Initial Configuration ..........................................................................................11
Configuration Options................................................................................................... 11
Required Connections................................................................................................... 12
Remote Connections..................................................................................................... 12
Console Connection ...................................................................................................... 13
Setting Passwords......................................................................................................... 13
Setting an IP Address.................................................................................................... 13
Manual Configuration.................................................................................................... 14
Dynamic Configuration.................................................................................................. 14
Enabling SNMP Management Access............................................................................ 15
Community Strings........................................................................................................ 15
Trap Receivers............................................................................................................... 16
Saving Configuration Settings....................................................................................... 16
Configuring Power over Ethernet........................................................................... 17
DHCP Relay................................................................................................................... 17
Web Interface ...................................................................................................19
Home Page.................................................................................................................... 20
Configuration Options................................................................................................... 20
Main Menu.............................................................................................................. 21
Basic Configuration ..........................................................................................25
Displaying System Information - Web ........................................................................... 25
Displaying System Information - CLI.............................................................................. 26
Displaying Switch Hardware/Software Versions .................................................... 26
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Field Attributes ............................................................................................................ 26
Displaying Switch Hardware/Software Versions - Web ................................................. 27
Displaying Switch Hardware/Software Versions - CLI.................................................... 27
Field Attributes ............................................................................................................ 27
Displaying Bridge Extension Capabilities - Web............................................................ 28
Displaying Bridge Extension Capabilities - CLI.............................................................. 28
Manual Configuration - Web ......................................................................................... 29
Manual Configuration - CLI............................................................................................ 29
Using DHCP/BOOTP - Web .......................................................................................... 30
Using DHCP/BOOTP - CLI.............................................................................................. 30
Renewing DCHP............................................................................................................ 30
Managing Firmware................................................................................................ 31
Downloading System Software from a Server - Web .................................................... 31
Downloading System Software from a Server - CLI....................................................... 32
Saving or Restoring Configuration Settings............................................................ 33
Command Usage ........................................................................................................... 33
Downloading Configuration Settings from a Server - Web ........................................... 34
Downloading Configuration Settings from a Server - CLI.............................................. 34
Console Port Settings - Web ......................................................................................... 36
Console Port Settings - CLI............................................................................................ 36
Telnet Settings - Web.................................................................................................... 37
Telnet Settings - CLI ...................................................................................................... 38
Command Attributes..................................................................................................... 39
Logging Levels ............................................................................................................. 39
System Log Configuration - Web................................................................................... 40
System Log Configuration - CLI..................................................................................... 40
Remote Logs Configuration.................................................................................... 40
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Remote Logs Configuration - Web................................................................................ 41
Remote Logs Configuration - CLI .................................................................................. 41
Displaying Log Messages - Web.................................................................................... 41
Displaying Log Messages - CLI...................................................................................... 42
Command Attributes .................................................................................................... 42
Sending SMPT Alerts - Web .......................................................................................... 43
Sending SMPT Alerts - CLI ............................................................................................ 43
Resetting the System.............................................................................................. 44
Resetting the System - Web.......................................................................................... 44
Resetting the System - CLI ............................................................................................ 44
Command Attributes .................................................................................................... 44
Setting the System Clock - Web.................................................................................... 44
Setting the System Clock - CLI ...................................................................................... 45
Command Attributes .................................................................................................... 45
Setting the Time Zone - Web ........................................................................................ 45
Setting the Time Zone - CLI .......................................................................................... 45
SNMP Protocol .................................................................................................47
SNMPv3 Security Models and Levels...................................................................... 47
Enabling SNMP....................................................................................................... 48
Command Attributes .................................................................................................... 48
Enabling SNMP - Web................................................................................................... 48
Enabling SNMP - CLI ..................................................................................................... 48
Setting Community Access Strings ........................................................................ 48
Command Attributes..................................................................................................... 48
Setting Community Access Strings - Web ..................................................................... 48
Setting Community Access Strings - CLI........................................................................ 49
Command Attributes .................................................................................................... 49
Specifying Trap Managers and Trap Types - Web......................................................... 49
Specifying Trap Managers and Trap Types - CLI ........................................................... 49
Configuring SNMPv3 Management Access............................................................. 50
Setting an Engine ID............................................................................................... 50
Setting an Engine ID - Web........................................................................................... 50
Setting an Engine ID - CLI ............................................................................................. 50
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Configuring SNMPv3 Users - Web................................................................................. 51
Configuring SNMPv3 Users - CLI................................................................................... 51
Configuring SNMPv3 Groups - Web.............................................................................. 52
Configuring SNMPv3 Groups - CLI ................................................................................ 52
Setting SNMPv3 Views - Web ....................................................................................... 53
Setting SNMPv3 Views - CLI.......................................................................................... 54
Configuring User Accounts - Web ................................................................................. 55
Configuring User Accounts - CLI.................................................................................... 56
Command Usage ........................................................................................................... 56
Authentication Settings - Web ...................................................................................... 58
Authentication Settings - CLI......................................................................................... 58
Command Usage ........................................................................................................... 59
HTTPS Support.............................................................................................................. 59
Command Attributes..................................................................................................... 59
Configuring HTTPS - Web.............................................................................................. 60
Configuring HTTPS - CLI................................................................................................ 60
Replacing the Default Secure-Site Certificate......................................................... 60
Configuring the Secure Shell ................................................................................. 60
Command Usage ........................................................................................................... 61
Generating the Host Key Pair........................................................................................ 62
Field Attributes ............................................................................................................ 62
Configuring the Secure Shell - Web .............................................................................. 62
Configuring the Secure Shell - CLI................................................................................. 63
Field Attributes ............................................................................................................. 63
Configuring the SSH Server - Web ................................................................................ 64
Configuring the SSH Server - CLI................................................................................... 64
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Command Usage........................................................................................................... 65
Command Attributes .................................................................................................... 65
Configuring Port Security - Web ................................................................................... 65
Configuring Port Security - CLI...................................................................................... 65
Requirements................................................................................................................ 66
Command Attributes .................................................................................................... 67
Displaying and Configuring the 802.1x Global Setting - Web....................................... 67
Displaying and Configuring the 802.1x Global Setting - CLI......................................... 67
Command Attributes..................................................................................................... 67
Configuring Port Settings for 802.1x - Web.................................................................. 68
Configuring Port Settings for 802.1x - CLI.................................................................... 69
Displaying 802.1x Statistics - Web ................................................................................ 70
Displaying 802.1x Statistics - CLI .................................................................................. 71
Command Usage........................................................................................................... 71
Command Attributes..................................................................................................... 71
Filtering Addresses for SNMP Client Access - Web....................................................... 72
Filtering Addresses for SNMP Client Access - CLI......................................................... 72
Configuring ACLs .............................................................................................73
Configuring Access Control Lists................................................................................... 73
Setting the ACL Name and Type................................................................................... 73
Command Attributes .................................................................................................... 73
Setting the ACL Name and Type - Web ........................................................................ 74
Setting the ACL Name and Type - CLI........................................................................... 74
Configuring a Standard IP ACL............................................................................... 74
Command Attributes .................................................................................................... 74
Configuring a Standard IP ACL - Web........................................................................... 75
Configuring a Standard IP ACL - CLI ............................................................................. 75
Configuring an Extended IP ACL................................................................................... 75
Command Attributes .................................................................................................... 75
Configuring an Extended IP ACL - Web ........................................................................ 76
Configuring an Extended IP ACL - CLI........................................................................... 76
Command Attributes..................................................................................................... 77
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Command Usage ........................................................................................................... 77
Configuring a MAC ACL - Web...................................................................................... 77
Configuring a MAC ACL - CLI ........................................................................................ 78
Command Usage ........................................................................................................... 78
Specifying the Mask Type ............................................................................................. 78
Configuring ACL Masks - Web....................................................................................... 79
Configuring ACL Masks - CLI......................................................................................... 79
Command Usage ........................................................................................................... 79
Configuring an IP ACL Mask - Web ............................................................................... 80
Configuring an IP ACL Mask - CLI.................................................................................. 80
Command Usage ........................................................................................................... 80
Configuring a MAC ACL Mask - Web ............................................................................ 81
Configuring a MAC ACL Mask - CLI............................................................................... 81
Binding a Port to an Access Control List - Web............................................................. 81
Command Usage ........................................................................................................... 81
Command Attributes .................................................................................................. 82
Binding a Port to an Access Control List - Web............................................................. 82
Binding a Port to an Access Control List - CLI ............................................................... 82
Filtering IPs for Management Access ...............................................................83
Command Usage ........................................................................................................... 83
Filtering IP Addresses for Management Access - Web.................................................. 83
Filtering IP Addresses for Management Access - CLI .................................................... 84
Displaying Connection Status - Web ............................................................................. 85
Field Attributes (CLI) .................................................................................................. 85
Displaying Connection Status - CLI................................................................................ 86
Configuring Interface Connections - Web ..................................................................... 88
Configuring Interface Connections - CLI........................................................................ 88
Command Usage ........................................................................................................... 88
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Statically Configuring a Trunk................................................................................. 89
Command Usage........................................................................................................... 89
Command Attributes .................................................................................................... 89
Statically Configuring a Trunk - Web............................................................................. 89
Statically Configuring a Trunk - CLI ............................................................................... 90
Command Usage........................................................................................................... 90
Command Attributes .................................................................................................... 90
Enabling LACP on Selected Ports - Web ....................................................................... 91
Enabling LACP on Selected Ports - CLI.......................................................................... 91
Command Attributes .................................................................................................... 92
Dynamically Creating a Port Channel - Web.................................................................. 93
Dynamically Creating a Port Channel - CLI.................................................................... 93
Counter Information Fields .......................................................................................... 94
Displaying LACP Port Counters - Web .......................................................................... 94
Displaying LACP Port Counters - CLI............................................................................. 94
Displaying LACP Settings and Status for the Local Side - Web..................................... 95
Displaying LACP Settings and Status for the Local Side - CLI ....................................... 96
Displaying LACP Settings and Status for the Remote Side - CLI ................................... 97
Command Usage........................................................................................................... 97
Command Attributes .................................................................................................... 97
Setting Broadcast Storm Thresholds - Web................................................................... 98
Setting Broadcast Storm Thresholds - CLI..................................................................... 98
Configuring Port Mirroring..................................................................................... 98
Command Usage........................................................................................................... 98
Command Attributes .................................................................................................... 99
Configuring Port Mirroring - Web................................................................................. 99
Configuring Port Mirroring - CLI ................................................................................... 99
Command Attributes .................................................................................................... 99
Configuring Rate Limits - Web .................................................................................... 100
Configuring Rate Limits - CLI....................................................................................... 100
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Showing Port Statistics - Web ..................................................................................... 102
Showing Port Statistics - CLI........................................................................................ 103
Power Over Ethernet (PoE) Settings ..............................................................105
Switch Power Status.................................................................................................... 105
Switch Power Status - Web ......................................................................................... 105
Switch Power Status - CLI............................................................................................ 106
Setting a Switch Power Budget................................................................................... 106
Setting a Switch Power Budget - Web ........................................................................ 106
Setting a Switch Power Budget - CLI........................................................................... 106
Displaying Port Power Status...................................................................................... 106
Displaying Port Power Status - Web............................................................................ 107
Displaying Port Power Status - CLI.............................................................................. 107
Configuring Port PoE Power ....................................................................................... 107
Configuring Port PoE Power - Web............................................................................. 108
Configuring Port PoE Power - CLI ............................................................................... 108
Setting Static Addresses ............................................................................................. 109
Setting Static Addresses - Web................................................................................... 109
Setting Static Addresses - CLI ..................................................................................... 109
Displaying the Address Table...................................................................................... 110
Displaying the Address Table - Web ........................................................................... 110
Displaying the Address Table - CLI.............................................................................. 110
Changing the Aging Time............................................................................................ 110
Changing the Aging Time - Web ................................................................................. 111
Changing the Aging Time - CLI.................................................................................... 111
Displaying Global Settings ......................................................................................... 114
Displaying Global Settings - Web................................................................................ 115
Configuring Global Settings........................................................................................ 115
Configuring Global Settings - Web.............................................................................. 117
Configuring Global Settings - CLI................................................................................ 117
Displaying Interface Settings - Web ............................................................................ 120
Displaying Interface Settings - CLI............................................................................... 120
Configuring Interface Settings ................................................................................... 120
Configuring Interface Settings - Web.......................................................................... 121
Configuring Interface Settings - CLI ............................................................................ 122
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Table of Contents
VLAN Configuration .......................................................................................123
Assigning Ports to VLANs ........................................................................................... 123
Forwarding Tagged/Untagged Frames....................................................................... 125
Enabling or Disabling GVRP (Global Setting) ............................................................. 125
Enabling or Disabling GVRP - Web.............................................................................. 125
Displaying Basic VLAN Information............................................................................. 125
Displaying Basic VLAN Information - Web .................................................................. 125
Displaying Current VLANs........................................................................................... 126
Creating VLANs........................................................................................................... 127
Creating VLANs - Web ................................................................................................ 127
Adding Static Members to VLANs (VLAN Index)......................................................... 128
Adding Static Members to VLANs - Web.................................................................... 129
Adding Static Members to VLANs (Port Index)........................................................... 129
Adding Static Members to VLANs - Web.................................................................... 129
Adding Static Members to VLANs - CLI ...................................................................... 130
Configuring VLAN Behavior for Interfaces.................................................................. 130
Configuring VLAN Behavior for Interfaces - Web........................................................ 131
Configuring VLAN Behavior for Interfaces - CLI.......................................................... 131
Displaying Current Private VLANs............................................................................... 132
Displaying Current Private VLANs - Web .................................................................... 132
Displaying Current Private VLANs - CLI....................................................................... 133
Configuring Private VLANs ........................................................................................ 133
Configuring Private VLANs - Web............................................................................... 133
Configuring Private VLANs - CLI ................................................................................. 133
Associating Community VLANs ................................................................................... 133
Associating Community VLANs - Web......................................................................... 134
Associating Community VLANs - CLI........................................................................... 134
Displaying Private VLAN Interface Information........................................................... 134
Displaying Private VLAN Interface Information - Web ................................................ 134
Displaying Private VLAN Interface Information - CLI................................................... 135
Configuring Private VLAN Interfaces .......................................................................... 135
Configuring Private VLAN Interfaces - Web................................................................ 135
Configuring Private VLAN Interfaces - CLI .................................................................. 136
Class of Service Configuration .......................................................................137
Setting the Default Priority for Interfaces................................................................... 137
Setting the Default Priority for Interfaces - Web......................................................... 137
Setting the Default Priority for Interfaces - CLI........................................................... 138
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Mapping CoS Values to Egress Queues ...................................................................... 138
Mapping CoS Values to Egress Queues - Web............................................................ 139
Mapping CoS Values to Egress Queues - CLI .............................................................. 139
Selecting the Queue Mode ......................................................................................... 139
Selecting the Queue Mode - Web............................................................................... 140
Selecting the Queue Mode - CLI ................................................................................. 140
Setting the Service Weight for Traffic Classes............................................................. 140
Setting the Service Weight for Traffic Classes - Web .................................................. 140
Setting the Service Weight for Traffic Classes - CLI .................................................... 140
Mapping Layer 3/4 Priorities to CoS Values................................................................ 141
Selecting IP Precedence/DSCP Priority ....................................................................... 141
Selecting IP Precedence/DSCP Priority - Web............................................................. 141
Selecting IP Precedence/DSCP Priority - CLI ............................................................... 141
Mapping IP Precedence .............................................................................................. 141
Mapping IP Precedence - Web.................................................................................... 142
Mapping IP Precedence - CLI ...................................................................................... 142
Mapping DSCP Priority ............................................................................................... 143
Mapping DSCP Priority - Web..................................................................................... 143
Mapping DSCP Priority - CLI ....................................................................................... 144
Mapping IP Port Priority.............................................................................................. 144
Mapping IP Port Priority - Web ................................................................................... 144
Mapping IP Port Priority - CLI...................................................................................... 145
Copy Settings.............................................................................................................. 145
Copy Settings - Web ................................................................................................... 146
Copy Settings - CLI...................................................................................................... 146
Mapping CoS Values to ACLs...................................................................................... 146
Mapping CoS Values to ACLs - Web ........................................................................... 147
Mapping CoS Values to ACLs - CLI.............................................................................. 147
Changing Priorities Based on ACL Rules ..................................................................... 147
Changing Priorities Based on ACL Rules - Web........................................................... 148
Changing Priorities Based on ACL Rules - CLI ............................................................. 148
Multicast Filtering ..........................................................................................149
Layer 2 IGMP (Snooping and Query)........................................................................... 149
Configuring IGMP Snooping and Query Parameters................................................... 150
Displaying Interfaces Attached to a Multicast Router ................................................. 151
Displaying Interfaces Attached to a Multicast Router - Web....................................... 152
Displaying Interfaces Attached to a Multicast Router - CLI ......................................... 152
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Specifying Interfaces Attached to a Multicast Router ................................................. 152
Specifying Interfaces Attached to a Multicast Router - Web....................................... 152
Specifying Interfaces Attached to a Multicast Router - CLI ......................................... 153
Displaying Port Members of Multicast Services .......................................................... 153
Displaying Port Members of Multicast Services - Web................................................ 153
Displaying Port Members of Multicast Services - CLI .................................................. 153
Assigning Ports to Multicast Services.......................................................................... 153
Assigning Ports to Multicast Services - Web ............................................................... 154
Assigning Ports to Multicast Services - CLI.................................................................. 154
Configuring General DNS Server Parameters ............................................................ 155
Configuring General DNS Server Parameters - Web................................................... 156
Configuring General DNS Server Parameters - CLI ..................................................... 156
Configuring Static DNS Host to Address Entries ........................................................ 156
Configuring Static DNS Host to Address Entries - Web.............................................. 157
Configuring Static DNS Host to Address Entries - CLI ................................................ 157
Displaying the DNS Cache .......................................................................................... 157
Displaying the DNS Cache - Web................................................................................ 158
Displaying the DNS Cache - CLI .................................................................................. 158
CLI (Command Line Interface) ........................................................................159
Console Connection.............................................................................................. 159
Telnet Connection....................................................................................................... 159
Keywords and Arguments........................................................................................... 160
Minimum Abbreviation................................................................................................ 160
Command Completion ................................................................................................ 160
Getting Help on Commands........................................................................................ 161
Showing Commands.................................................................................................... 161
Partial Keyword Lookup.............................................................................................. 162
Negating the Effect of Commands.............................................................................. 162
Using Command History.............................................................................................. 162
Understanding Command Modes................................................................................ 162
Exec Commands.......................................................................................................... 162
Configuration Commands............................................................................................ 163
Command Line Processing .......................................................................................... 163
Command Groups................................................................................................. 164
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line .......................................................................................................................................... 165
password ................................................................................................................................ 166
exec-timeout ........................................................................................................................... 166
password-thresh ..................................................................................................................... 167
silent-time ............................................................................................................................... 167
parity ...................................................................................................................................... 168
speed ...................................................................................................................................... 168
stopbits ................................................................................................................................... 168
General Commands .......................................................................................... 169
enable ..................................................................................................................................... 169
disable .................................................................................................................................... 169
reload ..................................................................................................................................... 170
quit ......................................................................................................................................... 171
? .............................................................................................................................................. 171
Device Designation Commands ................................................................................ 172
hostname ................................................................................................................................ 172
User Access Commands............................................................................................... 172
username ................................................................................................................................ 172
IP Filter Commands .................................................................................................. 173
management ........................................................................................................................... 173
Web Server Commands ............................................................................................ 175
ip http server .......................................................................................................................... 175
Telnet Server Commands ......................................................................................... 176
ip telnet port .......................................................................................................................... 176
Secure Shell Commands ............................................................................................. 176
calendar set ............................................................................................................................ 176
To Use the SSH Server ................................................................................................ 177
ip ssh timeout ......................................................................................................................... 178
ip ssh server-key size .............................................................................................................. 178
delete public-key .................................................................................................................... 179
ip ssh save host-key ................................................................................................................ 179
show ip ssh ............................................................................................................................. 180
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Event Logging Commands ...................................................................................... 181
logging history ........................................................................................................................182
logging host ............................................................................................................................182
logging trap ............................................................................................................................183
clear logging ...........................................................................................................................183
SMTP Alert Commands ............................................................................................... 185
logging sendmail host .............................................................................................................185
Time Commands ......................................................................................................... 187
sntp server ..............................................................................................................................187
sntp poll ..................................................................................................................................188
clock timezone ........................................................................................................................188
System Status Commands ........................................................................................ 189
show calendar .........................................................................................................................189
Flash/File Commands............................................................................................ 193
power inline ............................................................................................................................197
show power mainpower ..........................................................................................................198
authentication login ................................................................................................................199
radius-server key .....................................................................................................................200
radius-server retransmit ..........................................................................................................201
radius-server timeout ..............................................................................................................201
show radius-server ..................................................................................................................201
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tacacs-server host ................................................................................................................... 202
tacacs-server port ................................................................................................................... 202
mac-address-table static ......................................................................................................... 204
dot1x default .......................................................................................................................... 205
dot1x max-req ........................................................................................................................ 205
dot1x port-control .................................................................................................................. 206
dot1x re-authenticate ............................................................................................................. 206
dot1x re-authentication .......................................................................................................... 206
dot1x timeout quiet-period .................................................................................................... 207
dot1x timeout re-authperiod .................................................................................................. 207
dot1x timeout tx-period ......................................................................................................... 207
show dot1x ............................................................................................................................. 207
Access Control List Commands............................................................................. 209
Access Control Lists..................................................................................................... 209
Masks for Access Control Lists .................................................................................... 210
IP ACL Commandss ........................................................................................... 210
permit, deny ........................................................................................................................... 211
permit, deny ........................................................................................................................... 211
permit, deny ........................................................................................................................... 212
access-list ip mask-precedence ............................................................................................... 213
show access-list ip mask-precedence ...................................................................................... 216
map access-list ip .................................................................................................................... 216
match access-list ip ................................................................................................................. 217
MAC ACL Commands ........................................................................................ 218
permit, deny ........................................................................................................................... 218
show mac access-list ............................................................................................................... 219
show mac access-group .......................................................................................................... 222
ACL Information ................................................................................................ 223
snmp-server ............................................................................................................................ 224
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snmp-server location ...............................................................................................................225
snmp-server view ....................................................................................................................227
show snmp view ......................................................................................................................228
snmp-server group ..................................................................................................................228
Interface Commands............................................................................................. 231
Rate Limit Commands........................................................................................... 238
Guidelines for Creating Trunks.................................................................................... 239
interface port-channel .............................................................................................................239
lacp admin-key ........................................................................................................................241
lacp admin-key ........................................................................................................................242
show interfaces status port-channel ........................................................................................243
show lacp ................................................................................................................................243
mac-address-table aging-time .................................................................................................247
Spanning Tree Commands.................................................................................... 248
spanning-tree mode ................................................................................................................248
spanning-tree hello-time .........................................................................................................249
spanning-tree pathcost method ..............................................................................................250
spanning-tree transmission-limit ..............................................................................................250
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spanning-tree portfast ............................................................................................................ 252
spanning-tree link-type ........................................................................................................... 253
VLAN Commands.................................................................................................. 255
vlan ......................................................................................................................................... 255
Configuring VLAN Interfaces ................................................................................... 256
interface vlan .......................................................................................................................... 256
switchport ingress-filtering ..................................................................................................... 257
Displaying VLAN Information .................................................................................. 259
show interfaces status vlan ..................................................................................................... 259
show interfaces switchport ..................................................................................................... 259
private-vlan ............................................................................................................................. 260
Configure Private VLAN Interfaces ............................................................................. 261
switchport mode private-vlan ................................................................................................. 261
switchport private-vlan mapping ............................................................................................ 261
GVRP and Bridge Extension Commands............................................................... 262
Priority Commands (Layer 2) ...................................................................................... 264
show queue mode .................................................................................................................. 264
show queue cos-map .............................................................................................................. 266
Priority Commands (Layer 3 and 4) ............................................................................ 267
map ip port (Interface Configuration) ..................................................................................... 267
show interfaces switchport ..................................................................................................... 267
map ip precedence (Interface Configuration) ......................................................................... 268
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show map ip port ....................................................................................................................269
map access-list mac .................................................................................................................269
show map ip precedence ........................................................................................................270
Multicast Filtering Commands ............................................................................. 271
ip igmp snooping ....................................................................................................................271
show ip igmp snooping ...........................................................................................................272
ip igmp snooping query-count ................................................................................................273
ip igmp snooping query-interval .............................................................................................273
ip igmp snooping query-max-response-time ...........................................................................273
Static Multicast Routing Commands ......................................................................... 274
ip igmp snooping vlan mrouter ...............................................................................................274
show ip igmp snooping mrouter .............................................................................................274
ip igmp snooping router-port-expire-time ..............................................................................274
IP Interface Commands......................................................................................... 275
ip default-gateway ..................................................................................................................276
ip host .....................................................................................................................................278
ip domain-lookup ....................................................................................................................280
show dns .................................................................................................................................280
show dns cache .......................................................................................................................281
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Introduction
Introduction
The NXA-ENET24 Fast Ethernet switch is specifically designed to protect the video streams coming from
AMX’s MAX units to the Audio Video Modules (AVM). Standard switches will reduce bandwidth from all
applications when there is heavy data traffic passing through the switch. For streaming audio and video
applications this will cause skipping and jitter in the audio and video feeds. This is unacceptable for AMX’s
applications. As a result, AMX has designed the NXA-ENET24 to protect the A/V streams when heavy data
traffic occurs. Bandwidth is reduced from other applications such as file transfer, e-mail and web surfing only
when during heavy data traffic events.
The NXA-ENET24 also provides a full range of features for Layer 2 switching. It includes a management
agent that allows you to configure the features listed in this manual. The default configuration can be used for
most of the features provided by this switch. However, there are many options that you should configure to
maximize the switch’s performance for your particular network environment.
The NXA-ENET24 PoE’s 24 10/100 Mbps ports support the IEEE 802.3af Power-over-Ethernet (PoE)
standard that enables DC power to be supplied to attached devices over the unused pairs of wires in the
connecting Ethernet cable.
Key Features
Key Features
Feature
Description
Power over Ethernet
Powers attached devices using IEEE 802.3af Power over Ethernet (PoE)
Backup to TFTP server
Configuration Backup and
Restore
Authentication
Console, Telnet – User name / password, RADIUS, TACACS+
Telnet – SSH
SNMP – Community strings, IP address filtering
Port – IEEE 802.1x, MAC address filtering
Access Control Lists
Access Control Lists
DHCP Client, Relay
DNS Server
Supports up to 32 IP or MAC ACLs
Supports up to 32 IP or MAC ACLs
Supported
Supported
Port Configuration
Rate Limiting
Speed, duplex mode and flow control
Input and output rate limiting per port
One or more ports mirrored to single analysis port
Supports port trunking using either static or dynamic trunking (LACP)
Supported
Port Mirroring
Port Trunking
Broadcast Storm Control
Static Address
Up to 8K MAC addresses in the forwarding table, 128 static entries in ARP
cache
IEEE 802.1D Bridge
Supports dynamic data switching and address learning
Store-and-Forward Switching Supported to ensure wire-speed switching while eliminating bad frames
Spanning Tree Protocol
Virtual LANs
Supports standard STP and Rapid Spanning Tree Protocol (RSTP)
Up to 255 using IEEE 802.1Q, port-based, or private VLANs
Traffic Prioritization
Default port priority, traffic class map, queue scheduling,
IP Precedence, or Differentiated Services Code Point (DSCP), and TCP/UDP
Port
IP Routing
Routing Information Protocol (RIP), Open Shortest Path First (OSPF), static
routes
ARP
Static and dynamic address configuration, proxy ARP
Supports IGMP snooping and query for Layer 2, and IGMP for Layer 3
Supports DVMRP and PIM-DM
Multicast Filtering
Multicast Routing
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Description of Software Features
The switch provides a wide range of advanced performance enhancing features. Flow control eliminates the
loss of packets due to bottlenecks caused by port saturation. Broadcast storm suppression prevents broadcast
traffic storms from engulfing the network. Port-based VLANs provide traffic security and efficient use of
network bandwidth. CoS priority queueing ensures the minimum delay for moving real-time multimedia data
across the network. While multicast filtering and routing provides support for real-time network applications.
Some of the management features are briefly described below.
Configuration Backup and Restore – You can save the current configuration settings to a file on a TFTP server,
and later download this file to restore the switch configuration settings.
ꢀ
Authentication – This switch authenticates management access via the console port or Telnet. User
names and passwords can be configured locally or can be verified via a remote authentication
server (i.e., RADIUS or TACACS+). Port-based authentication is also supported via the IEEE
802.1x protocol. This protocol uses the Extensible Authentication Protocol over LANs (EAPOL) to
request user credentials from the 802.1x client, and then verifies the client’s right to access the
network via an authentication server.
ꢀ
ꢀ
Other authentication options include SSH for secure management access over a Telnet-equivalent
connection, IP address filtering for SNMP/Telnet management access, and MAC address filtering
for port access.
Access Control Lists – ACLs provide packet filtering for IP frames (based on address, protocol,
TCP/UDP port number or TCP control code) or any frames (based on MAC address or Ethernet
type). ACLs can by used to improve performance by blocking unnecessary network traffic or to
implement security controls by restricting access to specific network resources or protocols.
ꢀ
ꢀ
ꢀ
Access Control Lists – ACLs provide packet filtering for IP frames (based on address, protocol,
TCP/UDP port number or TCP control code) or any frames (based on MAC address or Ethernet
type). ACLs can by used to improve performance by blocking unnecessary network traffic or to
implement security controls by restricting access to specific network resources or protocols.
DHCP Server and DHCP Relay – Since DHCP uses a broadcast mechanism, a DHCP server and
its client must physically reside on the same subnet. Since it is not practical to have a DHCP server
on every subnet, DHCP Relay is also supported to allow dynamic configuration of local clients
from a DHCP server located in a different network.
Port Configuration – You can manually configure the speed, duplex mode, and flow control used
on specific ports, or use auto-negotiation to detect the connection settings used by the attached
device. Use the full-duplex mode on ports whenever possible to double the throughput of switch
connections. Flow control should also be enabled to control network traffic during periods of
congestion and prevent the loss of packets when port buffer thresholds are exceeded. The switch
supports flow control based on the IEEE 802.3x standard.
ꢀ
Rate Limiting – This feature controls the maximum rate for traffic transmitted or received on an
interface. Rate limiting is configured on interfaces at the edge of a network to limit traffic into or
out of the network. Traffic that falls within the rate limit is transmitted, while packets that exceed
the acceptable amount of traffic are dropped.
ꢀ
ꢀ
Port Mirroring – The switch can unobtrusively mirror traffic from any port to a monitor port. You
can then attach a protocol analyzer or RMON probe to this port to perform traffic analysis and
verify connection integrity.
Port Trunking – Ports can be combined into an aggregate connection. Trunks can be manually set
up or dynamically configured using IEEE 802.3ad Link Aggregation Control Protocol (LACP).
The additional ports dramatically increase the throughput across any connection, and provide
redundancy by taking over the load if a port in the trunk should fail. The switch supports one trunk
with two Gigabit optional module ports.
ꢀ
ꢀ
Broadcast Storm Control – Broadcast suppression prevents broadcast traffic from overwhelming
the network. When enabled on a port, the level of broadcast traffic passing through the port is
restricted. If broadcast traffic rises above a pre-defined threshold, it will be throttled until the level
falls back beneath the threshold.
Static Addresses – A static address can be assigned to a specific interface on this switch. Static
addresses are bound to the assigned interface and will not be moved. When a static address is seen
on another interface, the address will be ignored and will not be written to the address table. Static
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Introduction
addresses can be used to provide network security by restricting access for a known host to a
specific port.
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ꢀ
IEEE 802.1D Bridge – The switch supports IEEE 802.1D transparent bridging. The address table
facilitates data switching by learning addresses, and then filtering or forwarding traffic based on
this information. The address table supports up to 8K addresses.
Store-and-Forward Switching – The switch copies each frame into its memory before forwarding
them to another port. This ensures that all frames are a standard Ethernet size and have been
verified for accuracy with the cyclic redundancy check (CRC). This prevents bad frames from
entering the network and wasting bandwidth.
To avoid dropping frames on congested ports, the switch provides 8 MB for frame buffering. This
buffer can queue packets awaiting transmission on congested networks.
ꢀ
Spanning Tree Protocol – The switch supports these spanning tree protocols:
Spanning Tree Protocol (STP, IEEE 802.1D) – This protocol adds a level of fault tolerance by
allowing two or more redundant connections to be created between a pair of LAN segments. When
there are multiple physical paths between segments, this protocol will choose a single path and
disable all others to ensure that only one route exists between any two stations on the network. This
prevents the creation of network loops. However, if the chosen path should fail for any reason, an
alternate path will be activated to maintain the connection.
Rapid Spanning Tree Protocol (RSTP, IEEE 802.1w) – This protocol reduces the convergence time
for network topology changes to about 10% of that required by the older IEEE 802.1D STP
standard. It is intended as a complete replacement for STP, but can still inter-operate with switches
running the older standard by automatically reconfiguring ports to STP-compliant mode if they
detect STP protocol messages from attached devices.
ꢀ
Virtual LANs – The switch supports up to 255 VLANs. A Virtual LAN is a collection of network
nodes that share the same collision domain regardless of their physical location or connection point
in the network. The switch supports tagged VLANs based on the IEEE 802.1Q standard. Members
of VLAN groups can be manually assigned to a specific set of VLANs. This allows the switch to
restrict traffic to the VLAN groups to which a user has been assigned. By segmenting your network
into VLANs, you can:
ꢀ
Eliminate broadcast storms which severely degrade performance in a flat network.
ꢀ
ꢀ
ꢀ
Simplify network management for node changes/moves by remotely configuring VLAN
membership for any port, rather than having to manually change the network connection.
Provide data security by restricting all traffic to the originating VLAN, except where a connection
is explicitly defined via the switch’s routing service.
Use private VLANs to restrict traffic to pass only between data ports and the uplink ports, thereby
isolating adjacent ports within the same VLAN, and allowing you to limit the total number of
VLANs that need to be configured.
ꢀ
Traffic Prioritization – This switch prioritizes each packet based on the required level of service,
using four priority queues with strict or Weighted Round Robin Queuing. It uses IEEE 802.1p and
802.1Q tags to prioritize incoming traffic based on input from the end-station application. These
functions can be used to provide independent priorities for delay-sensitive data (video) and best-
effort data (e-mail).
This switch also supports several common methods of prioritizing layer 3/4 traffic to meet
application requirements. Traffic can be prioritized based on the priority bits in the IP frame’s Type
of Service (ToS) octet or the number of the TCP/UDP port. When these services are enabled, the
priorities are mapped to a Class of Service value by the switch, and the traffic then sent to the
corresponding output queue.
ꢀ
IP Routing – The switch provides Layer 3 IP routing. To maintain a high rate of throughput, the
switch forwards all traffic passing within the same segment, and routes only traffic that passes
between different subnetworks. The wire-speed routing provided by this switch lets you easily link
network segments or VLANs together without having to deal with the bottlenecks or configuration
hassles normally associated with conventional routers.
Routing for unicast traffic is supported with the Routing Information Protocol (RIP) and the Open
Shortest Path First (OSPF) protocol.
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ꢀ
ꢀ
RIP – This protocol uses a distance-vector approach to routing. Routes are determined on the
basis of minimizing the distance vector, or hop count, which serves as a rough estimate of
transmission cost.
OSPF – This approach uses a link state routing protocol to generate a shortest-path tree, then
builds up its routing table based on this tree. OSPF produces a more stable network because the
participating routers act on network changes predictably and simultaneously, converging on the
best route more quickly than RIP.
ꢀ
Address Resolution Protocol – The switch uses ARP and Proxy ARP to convert between IP
addresses and MAC (i.e., hardware) addresses. This switch supports conventional ARP, which
locates the MAC address corresponding to a given IP address. This allows the switch to use IP
addresses for routing decisions and the corresponding MAC addresses to forward packets from one
hop to the next. You can configure either static or dynamic entries in the ARP cache.
Proxy ARP allows hosts that do not support routing to determine the MAC address of a device on
another network or subnet. When a host sends an ARP request for a remote network, the switch
checks to see if it has the best route. If it does, it sends its own MAC address to the host. The host
then sends traffic for the remote destination via the switch, which uses its own routing table to
reach the destination on the other network.
ꢀ
ꢀ
Multicast Filtering – Specific multicast traffic can be assigned to its own VLAN to ensure that it
does not interfere with normal network traffic and to guarantee real-time delivery by setting the
required priority level for the designated VLAN. The switch uses IGMP Snooping and Query at
Layer 2 and IGMP at Layer 3 to manage multicast group registration.
Multicast Routing – Routing for multicast packets is supported by the Distance Vector Multicast
Routing Protocol (DVMRP) and Protocol-Independent Multicasting - Dense Mode (PIM-DM).
These protocols work in conjunction with IGMP to filter and route multicast traffic. DVMRP is a
more comprehensive implementation that maintains its own routing table, but is gradually being
replacing by most network managers with PIM, Dense Mode and Sparse Mode. PIM is a very
simple protocol that uses the routing table of the unicast routing protocol enabled on an interface.
Dense Mode is designed for areas where the probability of multicast clients is relatively high, and
the overhead of frequent flooding is justified. While Sparse mode is designed for network areas,
such as the Wide Area Network, where the probability of multicast clients is low. This switch
currently supports DVMRP and PIM-DM.
Software Specifications
Software Specifications
Software Features
Authentication:
Access Control Lists:
POE:
Local, RADIUS, TACACS, Port (802.1x), HTTPS, SSH, Port Security
IP, MAC (up to 32 lists)
Power Over Ethernet
SNMPv3:
• Management access via MIB database
• Trap management to specified hosts
DHCP:
Client, Relay
Port Configuration:
• 100BASE-TX: 10/100 Mbps, half/full duplex
• 1000BASE-T: 10/100/1000 Mbps, half/full duplex
• 1000BASE-X: 1000 Mbps, full duplex
Flow Control:
• Full Duplex: IEEE 802.3x
• Half Duplex: Back pressure
Broadcast Storm Control:
Port Mirroring:
Traffic throttled above a critical threshold
Multiple source ports, one destination port
Rate Limits:
• Input limit
• Output limit
• Range (configured per port)
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Introduction
Software Specifications (Cont.)
Software Features (Cont.)
Port Trunking:
• Static trunks (Cisco EtherChannel compliant)
• Dynamic trunks (Link Aggregation Control Protocol)
Spanning Tree Protocol:
VLAN Support:
• Spanning Tree Protocol (STP, IEEE 802.1D)
• Rapid Spanning Tree Protocol (RSTP, IEEE 802.1w)
• Up to 255 groups; port-based, protocol-based, or tagged (802.1Q),
• GVRP for automatic VLAN learning, private VLANs
Class of Service:
Supports four levels of priority and Weighted Round Robin Queueing (which
can be configured by VLAN tag or port),
Layer 3/4 priority mapping:
• IP Port
• IP Precedence
• IP DSCP
Multicast Filtering:
Multicast Routing:
IP Routing:
• IGMP Snooping (Layer 2)
• IGMP (Layer 3)
• DVMRP
• PIM-DM
ARP, Proxy ARP
Static routes:
• RIP
• RIPv2
• OSPFv2 dynamic routing
Additional Features:
• BOOTP client
• CIDR (Classless Inter-Domain Routing)
• SNTP (Simple Network Time Protocol)
• SNMP (Simple Network Management Protocol)
• RMON (Remote Monitoring, groups 1,2,3,9)
• SMTP Email Alerts
Management Features
In-Band Management:
• Telnet
• Web-based HTTP or HTTPS
• SNMP manager
• Secure Shell
Out-of-Band Management:
Software Loading:
SNMP:
RS-232 DB-9 console port
TFTP in-band or XModem out-of-band
• Management access via MIB database
• Trap management to specified hosts
RMON:
Groups 1, 2, 3, 9 (Statistics, History, Alarm, Event)
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Introduction
Software Specifications (Cont.)
Standards:
• IEEE 802.3 Ethernet,
• IEEE 802.3u Fast Ethernet
• IEEE 802.3x full-duplex flow control (ISO/IEC 8802-3)
• IEEE 802.3z Gigabit Ethernet,
• IEEE 802.3ab 1000BASE-T
• IEEE 802.3ac VLAN tagging
• IEEE 802.1Q VLAN
• IEEE 802.3ad Link Aggregation Control Protocol
• IEEE 802.1D Spanning Tree Protocol and traffic priorities
• IEEE 802.1p priority tags
• IEEE 802.1w Rapid Spanning Tree Protocol
• IEEE 802.1x Port Authentication
• RIP (RFC 1058)
• DHCP (RFC 1541)
• DVMRP (RFC 1075)
• ICMP (RFC 792)
• IGMP (RFC 1112)
• IGMPv2 (RFC 2236)
• PIM-DM (draft-ietf-idmr-pim-dm-06)
• RADIUS (RFC 2618)
• RMON (RFC 1757 groups 1,2,3,9)
• RIPv2 (RFC 2453)
• OSPF (RFC 2328, 1587)
• SNTP (RFC 2030)
• SNMP (RFC 1157)
• HTTPS
• SNTP (RFC 2030)
• SSH (Version 2.0)
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Software Specifications (Cont.)
Management Information
Bases:
• Bridge MIB (RFC 1493)
• Entity MIB (RFC 2737)
• Ethernet MIB (RFC 2665)
• Ether-like MIB (RFC 1643)
• Extended Bridge MIB (RFC 2674)
• Extensible SNMP Agents MIB (RFC 2742)
• Forwarding Table MIB (RFC 2096)
• IGMP MIB (RFC 2933)
• Interface Group MIB (RFC 2233)
• Interfaces Evolution MIB (RFC 2863)
• IP Multicasting related MIBs
• MIB II (RFC 1213)
• PIM MIB (RFC 2934)
• Port Access Entity MIB (IEEE 802.1x)
• RIP1 MIB (RFC 1058)
• RIP2 MIB (RFC 2453)
• OSPF MIB (RFC 1850)
• RADIUS Authentication Client MIB (RFC 2618)
• TACACS+ Authentication Client MIB
• RMON MIB (RFC 2819)
• RMON II Probe Configuration Group (RFC 2021, partial implementation)
• Trap (RFC 1215)
• Private MIB
• SNMP framework MIB (RFC 2571)
• SNMP-MPD MIB (RFC 2572)
• SNMP Target MIB, SNMP Notification MIB (RFC 2573)
• SNMP User-Based SM MIB (RFC 2574)
• SNMP View Based ACM MIB (RFC 2575)
• SNMP Community MIB (RFC 2576)
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Introduction
System Defaults
The switch’s system defaults are provided in the configuration file “Factory_Default_Config.cfg.” To reset the
switch defaults, this file should be set as the startup configuration file (See Downloading System Software
from a Server section on page 34.) The following table lists some of the basic system defaults.
System Defaults
Function
Parameter
Baud Rate
Default
Console Port Connection
9600
Data bits
8
Stop bits
1
Parity
none
Local Console Timeout
Privileged Exec Level
0 (disabled)
Authentication
• Username “Admin”
• Password “1988”
Normal Exec Level
• Username “guest”
• Password “guest”
Enable Privileged Exec from Nor- Password “super”
mal Exec Level
RADIUS Authentication
TACACS Authentication
802.1x Port Authentication
HTTPS
Disabled
Disabled
Disabled
Enabled
Enabled
Disabled
Disabled
Enabled
80
SSH
Port Security
IP Filtering
Web Management
HTTP Server
HTTP Port Number
HTTP Secure Server
HTTP Secure Port Number
SNMP Agent
Enabled
443
SNMP
Enabled
Community Strings
“public” (read only)
“private” (read/write)
Traps
Authentication traps: enabled
Link-up-down events: enabled
SNMP V3
View: defaultview
Group: public (read only)
private (read/write)
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System Defaults (Cont.)
Port Configuration
Admin Status
Auto-negotiation
Flow Control
Enabled
Enabled
Disabled
Port Capability
100BASE-TX/FX –
• 10 Mbps half duplex
• 10 Mbps full duplex
• 100 Mbps half duplex
• 100 Mbps full duplex
• Full-duplex flow control disabled
1000BASE-T –
• 10 Mbps half duplex
• 10 Mbps full duplex
• 100 Mbps half duplex
• 100 Mbps full duplex
• 1000 Mbps full duplex
• Full-duplex flow control disabled
• Symmetric flow control disabled
1000BASE-X –
• 1000 Mbps full duplex
• Full-duplex flow control disabled
• Symmetric flow control disabled
Power over Ethernet
Rate Limiting
Status
Enabled (all ports)
Disabled
Input and output limits
Static Trunks
LACP
Port Trunking
None
Disabled
Broadcast Storm Protection
Spanning Tree Protocol
Status
Enabled (all ports)
500 packets per second
Enabled, RSTP
Broadcast Limit Rate
Status
(Defaults: All values based on
IEEE 802.1w)
Fast Forwarding (Edge Port)
Aging Time
Disabled
Address Table
Virtual LANs
300 seconds
Default VLAN
1
PVID
1
Acceptable Frame Type
Ingress Filtering
All
Disabled
Switchport Mode (Egress Mode)
GVRP (global)
Hybrid: tagged/untagged frames
Disabled
Disabled
0
GVRP (port interface)
Ingress Port Priority
Weighted Round Robin
Traffic Prioritization
• Class 0: 1
• Class 1: 4
• Class 2: 16
• Class 3: 64
IP Precedence Priority
IP DSCP Priority
IP Port Priority
Enabled
Disabled
Disabled
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System Defaults (Cont.)
IP Settings
Management VLAN
IP Address
1
0.0.0.0
Subnet Mask
Default Gateway
DHCP
255.0.0.0
0.0.0.0
Enabled
Disabled
Learning is enabled
BOOTP
Port Security
IGMP Snooping (Layer 2)
Multicast Filtering
System Log
• Snooping: Enabled
• Querier: Disabled
Status
Enabled
Messages Logged
Messages Logged to Flash
Clock Synchronization
Levels 0-7 (all)
Levels 0-3
Disabled
SNTP
Additional Documentation
For detailed installation, refer to the NXA-ENET24 Hardware Installation Guide available on-line at
www.amx.com.
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Initial Configuration
Initial Configuration
Connecting to the Switch
Configuration Options
This 24-Port Fast Ethernet PoE Switch switch includes a built-in network management agent. The agent offers
a variety of management options, including SNMP, RMON and a Web-based interface. A PC may also be
connected directly to the switch for configuration and monitoring via a command line interface (CLI).
The IP address for this switch is assigned via DHCP by default. To change this
The switch’s HTTP Web agent allows you to configure switch parameters, monitor port connections, and
display statistics graphically using a standard Web browser such as Netscape Navigator version 6.2 and higher
or Microsoft IE version 5.0 and higher. The switch’s Web management interface can be accessed from any
computer attached to the network.
The CLI program can be accessed by a direct connection to the RS-232 serial console port on the switch, or
remotely by a Telnet connection over the network.
The switch’s management agent is based on SNMP (Simple Network Management Protocol) versions 1, 2 and
3. This SNMP agent permits the switch to be managed from any system in the network using management
software.
The switch’s CLI configuration program, Web interface, and SNMP agent allow you to perform the following
management functions:
ꢀ
ꢀ
ꢀ
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ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
Set user names and passwords
Control port access through IEEE 802.1x security or static address filtering
Set an IP interface for a management VLAN
Configure SNMP parameters
Enable/disable any port
Set the speed/duplex mode for any port
Power attached devices using IEEE 802.3af Power over Ethernet (PoE)
Configure the bandwidth of any port by rate limiting
Configure up to 255 IEEE 802.1Q VLANs
Enable GVRP automatic VLAN registration
Configure IGMP multicast filtering
Upload and download system firmware via TFTP
Upload and download switch configuration files via TFTP
Configure Spanning Tree parameters
Configure Class of Service (CoS) priority queuing
Configure up to six static or LACP trunks
Filter packets using Access Control Lists (ACLs)
Enable port mirroring
Set broadcast storm control on any port
Display system information and statistics
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Initial Configuration
Required Connections
The switch provides an RS-232 serial port that enables a connection to a PC or terminal for monitoring and
configuring the switch. A null-modem console cable is provided with the switch.
When switches are stacked together, you must connect to the RS-232 port on the
Master unit to be able to access the CLI.
Attach a VT100-compatible terminal, or a PC running a terminal emulation program to the switch. You can
use the console cable provided with this package, or use a null-modem cable that complies with the wiring
assignments shown in the Hardware Configuration Guide.
To connect a terminal to the console port, complete the following steps:
1. Connect the console cable to the serial port on a terminal, or a PC running terminal emulation software,
and tighten the captive retaining screws on the DB-9 connector.
2. Connect the other end of the cable’s to the RS-232 serial port on the switch.
3. Make sure the terminal emulation software is set as follows:
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
Select the appropriate serial port (COM port 1 or COM port 2).
Set the data rate to 9600 baud.
Set the data format to 8 data bits, 1 stop bit, and no parity.
Set flow control to none.
Set the emulation mode to VT100.
When using HyperTerminal, select Terminal keys, not Windows keys.
1. When using HyperTerminal with Microsoft® Windows® 2000, make sure that
you have Windows 2000 Service Pack 2 or later installed. Windows 2000
Service Pack 2 fixes the problem of arrow keys not functioning in
HyperTerminal’s VT100 emulation. See www.microsoft.com for information on
Windows 2000 service packs.
2. Refer to Line Commands section on page 9 for a complete description of
console configuration options.
3. Once you have set up the terminal correctly, the console login screen will be
displayed.
For a description of how to use the CLI, see Using the Command Line Interface section on page 171. For a list
of all the CLI commands and detailed information on using the CLI, refer to Command Groups section on
Remote Connections
Prior to accessing the switch’s onboard agent via a network connection, you must first configure it with a valid
IP address, subnet mask, and default gateway using a console connection, DHCP or BOOTP protocol.
The IP address for this switch is assigned via DHCP by default. To manually configure this address or enable
This switch supports four concurrent Telnet sessions.
After configuring the switch’s IP parameters, you can access the onboard configuration program from
anywhere within the attached network. The onboard configuration program can be accessed using Telnet from
any computer attached to the network.
The switch can also be managed by any computer using a Web browser (Internet Explorer 5.0 or above, or
Netscape Navigator 6.2 or above), or from a network computer using network management software.
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Initial Configuration
The onboard program only provides access to basic configuration functions. To
access the full range of SNMP management functions, you must use SNMP-based
network management software.
Basic Configuration
Console Connection
The CLI program provides two different command levels — normal access level (Normal Exec) and privileged
access level (Privileged Exec). The commands available at the Normal Exec level are a limited subset of those
available at the Privileged Exec level and allow you to only display information and use basic utilities.
To fully configure switch parameters, you must access the CLI at the Privileged Exec level.
Access to both CLI levels are controlled by user names and passwords. The switch has a default user name and
password for each level. To log into the CLI at the Privileged Exec level using the default user name and
password, perform these steps:
1. To initiate your console connection, press <Enter>. The “User Access Verification” procedure starts.
2. At the Username prompt, enter “admin” (case-sensitive).
3. At the Password prompt, enter “1988” (password characters are not displayed on the console screen).
4. The session is opened and the CLI displays the “Console#” prompt indicating you have access at the
Privileged Exec level.
Setting Passwords
Passwords can consist of up to 8 alphanumeric characters and are case sensitive. To prevent unauthorized
access to the switch, set the passwords as follows:
If this is your first time to log into the CLI program, you should define new passwords
for both default user names using the “username” command, record them and put
them in a safe place.
1. Open the console interface with the default user name and password “admin” to access the Privileged
Exec level.
2. Type “configure” and press <Enter>.
3. Type “username guest password 0 password,” for the Normal Exec level, where password is your new
password. Press <Enter>.
4. Type “username admin password 0 password,” for the Privileged Exec level, where password is your
new password. Press <Enter>.
Username: admin
Password:
CLI session with the Intelligent Fast Ethernet PoE Switch is opened.
To end the CLI session, enter [Exit].
Console#configure
Console(config)#username guest password 0 [password]
Console(config)#username admin password 0 [password]
Console(config)#
Setting an IP Address
You must establish IP address information for the switch to obtain management access through the network.
This can be done in either of the following ways:
ꢀ
Manual: You have to input the information, including IP address and subnet mask. If your
management station is not in the same IP subnet as the switch, you will also need to specify the
default gateway router.
ꢀ
Dynamic: The switch sends IP configuration requests to BOOTP or DHCP address allocation
servers on the network.
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Initial Configuration
Only one VLAN interface can be assigned an IP address (the default is VLAN 1). This
defines the management VLAN, the only VLAN through which you can gain
management access to the switch. If you assign an IP address to any other VLAN,
the new IP address overrides the original IP address and this becomes the new
management VLAN.
Manual Configuration
You can manually assign an IP address to the switch. You may also need to specify a default gateway that
resides between this device and management stations that exist on another network segment.
Valid IP addresses consist of four decimal numbers, 0 to 255, separated by periods. Anything outside this
format will not be accepted by the CLI program.
The IP address for this switch is assigned via DHCP by default.
Before you can assign an IP address to the switch, you must obtain the following information from your
network administrator:
ꢀ
ꢀ
ꢀ
IP address for the switch
Default gateway for the network
Network mask for this network
To assign an IP address to the switch, complete the following steps:
1. From the Privileged Exec level global configuration mode prompt, type “interface vlan 1” to access the
interface-configuration mode. Press <Enter>.
2. Type “ip address ip-address netmask”, where “ip-address” is the switch IP address and “netmask” is the
network mask for the network. Press <Enter>.
3. Type “exit” to return to the global configuration mode prompt. Press <Enter>.
4. To set the IP address of the default gateway for the network to which the switch belongs, type
“ip default-gateway gateway”, where “gateway” is the IP address of the default gateway. Press <Enter>.
Console(config)#interface vlan 1
Console(config-if)#ip address 192.168.1.5 255.255.255.0
Console(config-if)#exit
Console(config)#ip default-gateway 192.168.1.254
Console(config)#
Dynamic Configuration
If you select the “bootp” or “dhcp” option, IP will be enabled but will not function until a BOOTP or DHCP
reply has been received. You therefore need to use the “ip dhcp restart” command to start broadcasting service
requests.
ꢀ
Requests will be sent periodically in an effort to obtain IP configuration information. (BOOTP and
DHCP values can include the IP address, subnet mask, and default gateway.)
ꢀ
If the “bootp” or “dhcp” option is saved to the startup-config file, then the switch will start
broadcasting service requests as soon as it is powered on.
To automatically configure the switch by communicating with BOOTP or DHCP address allocation servers on
the network, complete the following steps:
1. From the Privileged Exec level global configuration mode prompt, type “interface vlan 1” to access the
interface-configuration mode. Press <Enter>.
2. At the interface-configuration mode prompt, use one of the following commands:
ꢀ
To obtain IP settings through DHCP, type “ip address dhcp” and press <Enter>.
ꢀ
To obtain IP settings through BOOTP, type “ip address bootp” and press <Enter>.
3. Type “exit” to return to the global configuration mode. Press <Enter>.
4. Type “ip dhcp restart” to begin broadcasting service requests. Press <Enter>.
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Initial Configuration
5. Wait a few minutes, and then check the IP configuration settings by typing the “show ip interface”
command. Press <Enter>.
6. Then save your configuration changes by typing “copy running-config startup-config”. Enter the
startup file name and press <Enter>.
Console(config)#interface vlan 1
Console(config-if)#ip address dhcp
Console(config-if)#exit
Console#ip dhcp restart
Console#show ip interface
IP interface vlan
IP address and netmask: 10.1.0.54 255.255.255.0 on VLAN 1,
and address mode: User specified.
Console#copy running-config startup-config
Startup configuration file name []: startup
Console#
Enabling SNMP Management Access
The switch can be configured to accept management commands from Simple Network Management Protocol
(SNMP) applications. You can configure the switch to (1) respond to SNMP requests or (2) generate SNMP
traps.
When SNMP management stations send requests to the switch (either to return information or to set a
parameter), the switch provides the requested data or sets the specified parameter. The switch can also be
configured to send information to SNMP managers (without being requested by the managers) through trap
messages, which inform the manager that certain events have occurred.
Community Strings
Community strings are used to control management access to SNMP stations, as well as to authorize SNMP
stations to receive trap messages from the switch. You therefore need to assign community strings to specified
users or user groups, and set the access level.
The default strings are:
ꢀ
ꢀ
public - Specifies read-only access. Authorized management stations are only able to retrieve MIB
objects.
private - Specifies read-write access. Authorized management stations are able to both retrieve and
modify MIB objects.
If you do not intend to utilize SNMP, it is recommended that you delete both of the
default community strings. If there are no community strings, then SNMP
management access to the switch is disabled.
To prevent unauthorized access to the switch via SNMP, it is recommended that you change the default
community strings.
To configure a community string, complete the following steps:
1. From the Privileged Exec level global configuration mode prompt, type “snmp-server community string
mode”, where “string” is the community access string and “mode” is rw (read/write) or ro (read only).
Press <Enter>.
2. To remove an existing string, simply type “no snmp-server community string”, where “string” is the
community access string to remove. Press <Enter>.
Console(config)#snmp-server community abc rw
Console(config)#snmp-server community private
Console(config)#
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Initial Configuration
Trap Receivers
You can also specify SNMP stations that are to receive traps from the switch.
To configure a trap receiver, complete the following steps:
1. From the Privileged Exec level global configuration mode prompt, type “snmp-server host host-address
community-string”, where “host-address” is the IP address for the trap receiver and “community-string”
is the string associated with that host. Press <Enter>.
2. In order to configure the switch to send SNMP notifications, you must enter at least one snmp-server
enable traps command. Type “snmp-server enable traps type”, where “type” is either authentication or
link-up-down. Press <Enter>.
Console(config)#snmp-server enable traps link-up-down
Console(config)#
Saving Configuration Settings
Configuration commands only modify the running configuration file and are not saved when the switch is
rebooted. To save all your configuration changes in nonvolatile storage, you must copy the running
configuration file to the start-up configuration file using the “copy” command.
To save the current configuration settings, enter the following command:
1. From the Privileged Exec mode prompt, type “copy running-config startup-config” and press <Enter>.
2. Enter the name of the start-up file. Press <Enter>.
Console#copy running-config startup-config
Startup configuration file name []: startup
\Write to FLASH Programming.
\Write to FLASH finish.
Success.
Console#
Managing System Files
The switch’s flash memory supports three types of system files that can be managed by the CLI program, Web
interface, or SNMP. The switch’s file system allows files to be uploaded and downloaded, copied, deleted, and
set as a start-up file.
The three types of files are:
ꢀ
Configuration: These files store system configuration information and are created when
configuration settings are saved. Saved configuration files can be selected as a system start-up file
or can be uploaded via TFTP to a server for backup. A file named “Factory_Default_Config.cfg”
contains all the system default settings and cannot be deleted from the system. See the Saving
ꢀ
ꢀ
Operation Code: System software that is executed after boot-up, also known as run-time code.
This code runs the switch operations and provides the CLI, Web and SNMP management
Diagnostic Code: Software that is run during system boot-up, also known as POST (Power On
Self-Test).
Due to the size limit of the flash memory, the switch supports only two operation code files, and two diagnostic
code files. However, you can have as many configuration files as available flash memory space allows.
In the system flash memory, one file of each type must be set as the start-up file. During a system boot, the
diagnostic and operation code files set as the start-up file are run, and then the start-up configuration file is
loaded.
Note that configuration files should be downloaded using a file name that reflects the contents or usage of the
file settings. If you download directly to the running-config, the system will reboot, and the settings will have
to be copied from the running-config to a permanent file.
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Initial Configuration
Configuring Power over Ethernet
The 24-Port Fast Ethernet PoE Switch’s 24 10/100 Mbps ports support the IEEE 802.3af Power-over-Ethernet
(PoE) standard that enables DC power to be supplied to attached devices over the unused pairs of wires in the
connecting Ethernet cable.
Any 802.3af compliant device attached to a port can directly draw power from the switch over the Ethernet
cable without requiring its own separate power source. This capability gives network administrators
centralized power control for devices such as IP phones and wireless access points, which translates into
greater network availability.
A maximum PoE power budget for the switch (power available to all switch ports) can be defined so that
power can be centrally managed, preventing overload conditions at the power source. If the power demand
from devices connected to the switch exceeds the power budget setting, the switch uses port power priority
settings to limit the supplied power.
In the example below, the power mainpower maximum allocation CLI command is used to set the PoE
power budget for the switch. (Range: 37 - 375 watts).
If devices connected to the switch require more power than the switch budget, the port power priority settings
are used to control the supplied power. See the Setting a Switch Power Budget section on page 106 for details.
Console(config)#power mainpower maximum allocation 200
PoE is enabled for all ports by default.
Power can be disabled for a port by using the no form of the power inline CLI command, as shown in the
example below.
Console(config)#interface ethernet 1/2
Console(config-if)#no power inline
Console(config-if)#
DHCP Relay
Since DHCP uses a broadcast mechanism, a DHCP server and its client must physically reside on the same
subnet. Since it is not practical to have a DHCP server on every subnet, DHCP Relay is also supported to allow
dynamic configuration of network interface blades on data network subnets/VLANs from a DHCP server
located in the management network.
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Initial Configuration
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Web Interface
Web Interface
Overview
This switch provides an embedded HTTP Web agent. Using a Web browser you can configure the switch and
view statistics to monitor network activity. The Web agent can be accessed by any computer on the network
using a standard Web browser (Internet Explorer 5.0 or above, or Netscape Navigator 6.2 or above).
You can also use the Command Line Interface (CLI) to manage the switch over a
serial connection to the console port or via Telnet. For more information on using the
CLI, refer to Chapter 4: “Command Line Interface.”
Prior to accessing the switch from a Web browser, be sure you have first performed the following tasks:
1. Configure the switch with a valid IP address, subnet mask, and default gateway using an out-of-band
2. Set user names and passwords using an out-of-band serial connection. Access to the Web agent is
controlled by the same user names and passwords as the onboard configuration program. (See the
3. After you enter a user name and password, you will have access to the system configuration program.
• You are allowed three attempts to enter the correct password; on the third failed attempt the
current connection is terminated.
• If you log into the web interface as guest (Normal Exec level), you can view the configuration
settings or change the guest password. If you log in as “Admin” (Privileged Exec level), you
can change the settings on any page.
• If the path between your management station and this switch does not pass through any
device that uses the Spanning Tree Algorithm, then you can set the switch port attached to
your management station to fast forwarding (i.e., enable Admin Edge Port) to improve the
switch’s response time to management commands issued through the web interface. See the
Navigating the Web Browser Interface
To access the Web-browser interface you must first enter a user name and password. The administrator has
Read/Write access to all configuration parameters and statistics.
The default user name and password for the administrator is “Admin” and 1988 respectively.
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Web Interface
Home Page
When your Web browser connects with the switch’s Web agent, the home page is displayed as shown in
FIG. 1. The home page displays the Main Menu on the left side of the screen and System Information on the
right side. The Main Menu links are used to navigate to other menus, and display configuration parameters and
statistics.
FIG. 1 Homepage
The examples in this chapter are based on the ES3526YA. Other than the number of
fixed ports, there are no major differences between the ES3526YA and ES3550YA.
Configuration Options
Configurable parameters have a dialog box or a drop-down list. Once a configuration change has been made on
a page, be sure to click on the Apply button to confirm the new setting. The following table summarizes the
Web page configuration buttons.
Configuration Options
Button Action
• Apply: Sets specified values to the system.
• Revert: Cancels specified values and restores current values prior to pressing Apply.
• Help:
Links directly to web help.
ꢀ
To ensure proper screen refresh, be sure that Internet Explorer is configured as follows:
Under the menu “Tools / Internet Options / General / Temporary Internet Files / Settings,” the
setting for item “Check for newer versions of stored pages” should be “Every visit to the page.”
ꢀ
When using Internet Explorer, you may have to manually refresh the screen after making
configuration changes by pressing the browser’s refresh button.
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Web Interface
Panel Display
The web agent displays an image of the switch’s ports (FIG. 2). The Mode can be set to display different
information for the ports, including Active (i.e., up or down), Duplex (i.e., half or full duplex), or Flow Control
(i.e., with or without flow control). Clicking on the image of a port opens the Port Configuration page (see the
FIG. 2 Front Panel Indicators
Main Menu
Using the onboard Web agent, you can define system parameters, manage and control the switch, and all its
ports, or monitor network conditions. The following table briefly describes the selections available from this
program.
Switch Main Menu
Menu
Description
System
• System Information
• Switch Information
Provides basic system description, including contact information
Shows the number of ports, hardware/firmware version numbers, and power
status
• Bridge Extension
• IP Configuration
• File
Shows the bridge extension parameters
Sets the IP address for management access
• Copy
Enables the transfer and copying files
Enables the deletion of files from flash memory
Sets the startup files
• Delete
• Set Startup
Line
• Console
• Telnet
Sets console port connection parameters
Sets Telnet connection parameters
Log
• Logs
Stores and displays error messages
• System Logs
• Remote Logs
• SMTP
Sends error messages to a logging process
Configures the logging of messages to a remote logging process
Sends an SMTP client message to a participating server
Restarts the switch
• Reset
SNTP
• SNTP Configuration
Configures SNTP client settings, including broadcast mode or a specified list of
servers
• Clock Time Zone
SNMP
Sets the local time zone for the system clock
• Configuration
• Agent Status
• SNMPv3
• Engine ID
• Users
Configures community strings and related trap functions
Allows SNMP to be enabled or disabled
Sets the SNMP v3 engine ID
Configures SNMP v3 users
Configures SNMP v3 groups
Configures SNMP v3 views
• Groups
• Views
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Web Interface
Switch Main Menu (Cont.)
Menu
Description
Security
• User Accounts
• Authentication Settings
• HTTPS Settings
• SSH
Configures user names and passwords
Configures authentication sequence, RADIUS and TACACS
Configures secure HTTP settings
• Settings
Configures Secure Shell server settings
• Host-Key Settings
• Port Security
Generates the host key pair (public and private)
Configures per port security, including status, response for security breach,
and maximum allowed MAC addresses
• 802.1x
Port authentication
• Information
• Configuration
• Port Configuration
• Statistics
Displays the global configuration setting
Configures the global configuration setting
Sets parameters for individual ports
Displays protocol statistics for the selected port
• ACL
• Configuration
• Mask Configuration
• Port Binding
• IP Filter
Configures packet filtering based on IP or MAC addresses
Controls the order in which ACL rules are checked
Binds a port to the specified ACL
Sets IP addresses of clients allowed management access via the Web, SNMP,
and Telnet
Port
• Port Information
• Trunk Information
• Port Configuration
• Trunk Configuration
• Trunk Membership
• LACP
Displays port connection status
Displays trunk connection status
Configures port connection settings
Configures trunk connection settings
Specifies ports to group into static trunks
• Configuration
Allows ports to dynamically join trunks
• Aggregation Port
• Port Counters Information
• Port Internal Information
Configures system priority, admin key, and port priority
Displays statistics for LACP protocol messages
Displays settings and operational state for local side
• Port Neighbors Information Displays settings and operational state for remote side
• Broadcast Control
Sets the broadcast storm threshold for each port
Sets the source and target ports for mirroring
• Mirror Port Configuration
• Rate Limit
• Input Port Configuration
• Input Trunk Configuration
• Output Port Configuration
Sets the input rate limit for each port
Sets the input rate limit for each trunk
Sets the output rate limit for each port
• Output Trunk Configuration Sets the output rate limit for each trunk
• Port Statistics Lists Ethernet and RMON port statistics
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Web Interface
Switch Main Menu (Cont.)
Menu
Description
PoE
• Power Status
• Power Config
• Power Port Status
• Power Port Config
Address Table
• Static Addresses
• Dynamic Addresses
• Address Aging
Spanning Tree
• STA
Displays the status of global power parameters
Configures the power budget for the switch
Displays the status of port power parameters
Configures port power parameters
Displays entries for interface, address or VLAN
Displays or edits static entries in the Address Table
Sets timeout for dynamically learned entries
• Information
Displays STA values used for the bridge
Configures global bridge settings for STA
Displays individual port settings for STA
Displays individual trunk settings for STA
Configures individual port settings for STA
Configures individual trunk settings for STA
• Configuration
• Port Information
• Trunk Information
• Port Configuration
• Trunk Configuration
VLAN
• 802.1Q VLAN
• GVRP Status
• Basic Information
• Current Table
Enables GVRP VLAN registration protocol
Displays basic information on the VLAN type supported by this switch
Shows the current port members of each VLAN and whether or not the port
supports VLAN tagging
• Static List
Used to create or remove VLAN groups
Modifies the settings for an existing VLAN
• Static Table
• Static Membership by Port Configures membership type for interfaces, including tagged, untagged or for-
bidden
• Port Configuration
• Trunk Configuration
Private VLAN
Specifies default PVID and VLAN attributes
Specifies default trunk VID and VLAN attributes
• Private VLAN Information
Displays Private VLAN feature information
• Private VLAN Configuration This page is used to create/remove primary or community VLANs
• Private VLAN Association
Each community VLAN must be associated with a primary VLAN
Displays the interfaces associated with private VLANs
• Private VLAN Port/Trunk
Information
• Private VLAN Port/Trunk
Configuration
Sets the private VLAN interface type, and associates the interfaces with a pri-
vate VLAN
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Web Interface
Switch Main Menu (Cont.)
Menu
Description
Priority
• Default Port Priority
• Default Trunk Priority
• Traffic Classes
Sets the default priority for each port
Sets the default priority for each trunk
Maps IEEE 802.1p priority tags to output queues
Enables/disables traffic class priorities (not implemented)
Sets queue mode to strict priority or Weighted Round-Robin
Configures Weighted Round Robin queueing
• Traffic Classes Status
• Queue Mode
• Queue Scheduling
• IP Precedence/DSCP
Priority Status
Globally selects IP Precedence or DSCP Priority, or disables both
• IP Precedence Priority
Sets IP Type of Service priority, mapping the precedence tag to a class-of-ser-
vice value
• IP DSCP Priority
Sets IP Differentiated Services Code Point priority, mapping a DSCP tag to a
class-of-service value
• IP Port Priority Status
• IP Port Priority
Globally enables or disables IP Port Priority
Sets TCP/UDP port priority, defining the socket number and associated class-
of-service value
• Copy Settings
Enables mapping IP Precedence and DSCP Priority settings to ports, or
trunks.
• ACL CoS Priority
Sets the CoS value and corresponding output queue for packets matching an
ACL rule
• ACL Marker
Change traffic priorities for frames matching an ACL rule
IGMP Snooping
• IGMP Configuration
Enables multicast filtering; configures parameters for multicast query
• Multicast Router
Port Information
Displays the ports that are attached to a neighboring multicast router/switch for
each VLAN ID
• Static Multicast Router Port Assigns ports that are attached to a neighboring multicast router/switch
Configuration
• IP Multicast Registration
Table
Displays all multicast groups active on this switch, including multicast IP
addresses and VLAN ID
• IGMP Member Port Table
DNS
Indicates multicast addresses associated with the selected VLAN
• General Configuration
Enables DNS; configures domain name and domain list; and specifies IP
address of name servers for dynamic lookup
• Static Host Table
• Cache
Configures static entries for domain name to address mapping
Displays cache entries discovered by designated name servers
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Basic Configuration
Basic Configuration
Displaying System Information
You can easily identify the system by providing a descriptive name, location and contact information.
Field Attributes
• Model Number:
• S/W Version #:
• System Name:
• Object ID:
The switch model number.
The current software version number.
Name assigned to the switch system.
MIB II object ID for switch’s network management subsystem.
Specifies the system location.
• Location:
• Contact:
Administrator responsible for the system.
Length of time the management agent has been up.
• System Up Time:
These additional parameters are displayed for the CLI.
• MAC Address:
• Web server:
The physical layer address for this switch.
Shows if management access via HTTP is enabled.
Shows the TCP port number used by the web interface.
Shows if management access via HTTPS is enabled.
• Web server port:
• Web secure server:
• Web secure server port: Shows the TCP port used by the HTTPS interface.
• Telnet server:
Shows if management access via Telnet is enabled.
Shows the TCP port number used by Telnet.
• Telnet server port:
• Authentication login:
Defines the login authentication method and precedence.
• Authentication enable: Defines the authentication method and precedence to use when changing from
Exec command mode to Privileged Exec command mode
• POST result:
Shows results of the power-on self-test.
Displaying System Information - Web
Click System, System Information. Specify the system name, location, and contact information for the system
administrator, then click Apply.
This page also includes a Telnet button that access the Command Line Interface via Telnet (FIG. 3).
FIG. 3 Web - Displaying System Information
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Basic Configuration
Displaying System Information - CLI
Specify the hostname, location and contact information.
FIG. 4 CLI - Displaying System Information
Displaying Switch Hardware/Software Versions
Use the Switch Information page to display hardware/firmware version numbers for the main board and
management software, as well as the power status of the system.
Field Attributes
Field Attributes
Main Board
• Serial Number:
The serial number of the switch.
• Number of Ports:
• Hardware Version:
• Internal Power Status:
Number of built-in RJ-45 ports and expansion ports.
Hardware version of the main board.
Displays the status of the internal power supply.
• Redundant Power Status: Displays the status of the redundant power supply.
CLI only
Management Software
• Loader Version
• Boot-ROM Version
• Operation Code Version
• Role
Version number of loader code.
Version of Power-On Self-Test (POST) and boot code.
Version number of runtime code.
Shows that this switch is operating as Master (i.e., operating stand-alone).
Expansion Slot
• Expansion Slot 1/2
Slots for extender transceivers.
These additional parameters are displayed for the CLI:
• Unit ID: Unit number in stack.
• Redundant Power Status: Displays the status of the redundant power supply.
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Basic Configuration
Displaying Switch Hardware/Software Versions - Web
Click System, Switch Information.
FIG. 5 CLI - Display Switch Information
Displaying Switch Hardware/Software Versions - CLI
Use the Console#show version command to display version information.
FIG. 6 Web - Displaying Switch Information
Displaying Bridge Extension Capabilities
The Bridge MIB includes extensions for managed devices that support Multicast Filtering, Traffic Classes, and
Virtual LANs. You can access these extensions to display default settings for the key variables, or to configure
the global setting for GARP VLAN Registration Protocol (GVRP).
Field Attributes
Field Attributes
• Extended Multicast
Filtering Services:
This switch does not support the filtering of individual multicast addresses based on
GMRP (GARP Multicast Registration Protocol).
• Traffic Classes
This switch provides mapping of user priorities to multiple traffic classes. (Refer to
• Static Entry
This switch allows static filtering for unicast and multicast addresses. (Refer to the
Individual Port:
• VLAN Learning:
This switch uses Independent VLAN Learning (IVL), where each port maintains its
own filtering database.
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Basic Configuration
Field Attributes (Cont.)
• Configurable PVID
Tagging:
This switch allows you to override the default Port VLAN ID (PVID used in frame
tags) and egress status (VLAN-Tagged or Untagged) on each port.
• Local VLAN Capable: This switch does not support multiple local bridges (i.e., multiple Spanning Trees).
• GMRP:
GARP Multicast Registration Protocol (GMRP) allows network devices to register
endstations with multicast groups. This switch does not support GMRP; it uses the
Internet Group Management Protocol (IGMP) to provide automatic multicast filtering.
Displaying Bridge Extension Capabilities - Web
Click System, Bridge Extension.
FIG. 7 Web - Displaying Bridge Extension Configuration
Displaying Bridge Extension Capabilities - CLI
Enter the Console#show bridge-ext command (FIG. 8).
FIG. 8 CLI - Displaying Bridge Extension Configuration
Setting the IP Address
The IP address for this switch is obtained via DHCP by default.
To manually configure an address, you need to change the switch’s default settings (IP address 0.0.0.0 and
netmask 255.0.0.0) to values that are compatible with your network. You may also need to a establish a default
gateway between the switch and management stations that exist on another network segment (if routing is not
enabled on this switch).
You can manually configure a specific IP address, or direct the device to obtain an address from a BOOTP or
DHCP server. Valid IP addresses consist of four decimal numbers, 0 to 255, separated by periods. Anything
outside this format will not be accepted by the CLI program.
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Basic Configuration
Command Attributes
Command Attributes
• Management VLAN: This is the only VLAN through which you can gain management access to the
switch.
By default, all ports on the switch are members of VLAN 1, so a management station
can be connected to any port on the switch. However, if other VLANs are configured
and you change the Management VLAN, you may lose management access to the
switch. In this case, you should reconnect the management station to a port that is a
member of the Management VLAN.
• IP Address Mode:
Specifies whether IP functionality is enabled via manual configuration (Static),
Dynamic Host Configuration Protocol (DHCP), or Boot Protocol (BOOTP).
If DHCP/BOOTP is enabled, IP will not function until a reply has been received from
the server. Requests will be broadcast periodically by the switch for an IP address.
(DHCP/BOOTP values can include the IP address, subnet mask, and default gate-
way.)
• IP Address:
Address of the VLAN interface that is allowed management access.
Valid IP addresses consist of four numbers, 0 to 255, separated by periods.
• Subnet Mask:
This mask identifies the host address bits used for routing to specific subnets.
• Gateway IP Address: IP address of the gateway router between this device and management stations that
exist on other network segments.
• MAC Address:
• Restart DHCP:
The MAC address of this switch.
Releases the current IP address and requests a new IP address from the DHCP
server.
Manual Configuration - Web
Click System, IP. Specify the management interface, IP address and default gateway, then click Apply.
FIG. 9 Web - Manual Web IP Configuration
Manual Configuration - CLI
Specify the management interface, IP address and default gateway:
FIG. 10 CLI - Manual Web IP Configuration
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Basic Configuration
Using DHCP/BOOTP - Web
If your network provides DHCP/BOOTP services, you can configure the switch to be dynamically configured
by these services. Click System, IP. Specify the Management VLAN, set the IP Address Mode to DHCP or
BOOTP, and click Apply to save your changes.
The switch will broadcast a request for IP configuration settings on the next power reset. Otherwise, you can
click Restart DHCP to immediately request a new address.
FIG. 11 Web - IP Configuration using DHCP
If you lose your management connection, use a console connection and enter “show
ip interface” to determine the new switch address.
Using DHCP/BOOTP - CLI
Specify the management interface, and set the IP address mode to DHCP or BOOTP, and then enter the
“ip dhcp restart” command:
FIG. 12 CLI - IP Configuration using DHCP
Renewing DCHP
DHCP may lease addresses to clients indefinitely or for a specific period of time. If the address expires or the
switch is moved to another network segment, you will lose management access to the switch. In this case, you
can reboot the switch or submit a client request to restart DHCP service.
ꢀ
Web – If the address assigned by DHCP is no longer functioning, you will not be able to renew the
IP settings via the Web interface. You can only restart DHCP service via the Web interface if the
current address is still available.
ꢀ
CLI – Enter the Console#ip dhcp restart command to restart DHCP service:
FIG. 13 CLI - Renewing DHCP
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Basic Configuration
Managing Firmware
You can upload/download firmware to or from a TFTP server. By saving runtime code to a file on a TFTP
server, that file can later be downloaded to the switch to restore operation. You can set the switch to use new
firmware without overwriting the previous version.
The switch also allows a runtime code file to be copied to or from another switch unit in the stack.
Command Attributes
Command Attributes
• File Transfer Method:
The firmware copy operation includes these options:
• file to file - Copies a file within the switch directory, assigning it a new name.
• file to tftp - Copies a file from the switch to a TFTP server.
• ftp to file - Copies a file from a TFTP server to the switch.
• file to unit - Copies a file from this switch to another unit in the stack.
• unit to file - Copies a file from another unit in the stack to this switch.
• TFTP Server IP Address: The IP address of a TFTP server.
• File Name: The file name should not contain slashes (\ or /), the leading letter of the file
name should not be a period (.), and the maximum length for file names on the
TFTP server is 127 characters or 31 characters for files on the switch.
Valid characters: A-Z, a-z, 0-9, “.”, “-”, “_”
• Source/Destination Unit: Specifies the switch stack unit number.
• File Type: Allows you to specify either an operational code file (opcode), or a
configuration file (config).
Up to two copies of the system software (i.e., the runtime firmware) can be stored in
the file directory on the switch. The currently designated startup version of this file
cannot be deleted.
Downloading System Software from a Server - Web
When downloading runtime code, you can specify the Destination File Name to replace the current image, or
first download the file using a different name from the current runtime code file, and then set the new file as the
startup file.
Click System, File, Copy. Select “tftp to file” from the drop-down menu. Select “opcode” as the file type, then
enter the IP address of the TFTP server and the source and destination file names. Click Apply.
FIG. 14 Operation Code Image File Transfer
If you download to a new destination file, select the file from the drop-down box for the operation code
used at startup, and click Apply. To start the new firmware, reboot the system via the System/Reset menu.
FIG. 15 Select Start-Up Operation File
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Basic Configuration
To delete a file, select System, File, Delete. Select the file name from the given list by checking the tick
box and then click Apply.
Note that the file currently designated as the startup code cannot be deleted.
FIG. 16 Deleting Files
Downloading System Software from a Server - CLI
To download new firmware form a TFTP server, enter the IP address of the TFTP server, select “opcode” as
the file type, then enter the source and destination file names. When the file has completed the download, set
the new file to start up the system and then restart the switch.
FIG. 17 CLI - Downloading System Software from a Server
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Basic Configuration
Saving or Restoring Configuration Settings
You can upload/download configuration setting files to/from a TFTP server or copy files to and from switch
units in a stack. The configuration files can be later downloaded to restore the switch’s settings.
Command Usage
ꢀ
When updating the PoE controller, first copy the PD controller file from a TFTP server to the
switch's file system (tftp to file), and then copy this file to the controller (file to file).
ꢀ
When specifying the file type “PD_Controller” or “PoE” for copy operations via the web or CLI,
file types other than PoE controller may be downloaded, but will not adversely affect the system.
Command Attributes
Command Attributes
• File Transfer Method:
The configuration copy operation includes these options:
• file to file - Copies a file within the switch directory, assigning it a new name.
• file to running-config - Copies a file in the switch to the running configuration.
• file to startup-config - Copies a file in the switch to the startup configuration.
• file to tftp - Copies a file from the switch to a TFTP server.
• running-config to file - Copies the running configuration to a file.
• running-config to startup-config - Copies the running config to the startup
config.
• running-config to tftp - Copies the running configuration to a TFTP server.
• startup-config to file - Copies the startup configuration to a file on the switch.
• startup-config to running-config - Copies the startup config to the running
config.
• startup-config to tftp - Copies the startup configuration to a TFTP server.
• tftp to file - Copies a file from a TFTP server to the switch.
• tftp to running-config - Copies a file from a TFTP server to the running config.
• tftp to startup-config - Copies a file from a TFTP server to the startup config.
• file to unit - Copies a file from this switch to another unit in the stack.
• unit to file - Copies a file from another unit in the stack to this switch.
• TFTP Server IP Address: The IP address of a TFTP server.
• File Name: The file name should not contain slashes (\ or /), the leading letter of the file
name should not be a period (.), and the maximum length for file names on the
TFTP server is 127 characters or 31 characters for files on the switch.
Valid characters: A-Z, a-z, 0-9, “.”, “-”, “_”
• Source/Destination Unit: Specifies the switch stack unit number.
• File Type: Allows you to specify an operational code (opcode), a configuration (config), or a
PoE controller (PD_Controller) file.
The maximum number of user-defined configuration files is limited only by available
flash memory space.
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Basic Configuration
Downloading Configuration Settings from a Server - Web
You can download the configuration file under a new file name and then set it as the startup file, or you can
specify the current startup configuration file as the destination file to directly replace it. Note that the file
“Factory_Default_Config.cfg” can be copied to the TFTP server, but cannot be used as the destination on the
switch.
Click System, File, Copy. Select “tftp to startup-config” or “tftp to file” and enter the IP address of the TFTP
server.
Specify the name of the file to download and select a file on the switch to overwrite or specify a new file name,
then click Apply.
FIG. 18 Copy Configuration Settings
If you download to a new file name using “tftp to startup-config” or “tftp to file”, the file is automatically set
as the start-up configuration file. To use the new settings, reboot the system via the System/Reset menu.
Note that you can also select any configuration file as the start-up configuration by using the System/File/Set
Start-Up page.
FIG. 19 Setting the Startup Configuration Settings
Downloading Configuration Settings from a Server - CLI
Enter the IP address of the TFTP server, specify the source file on the server, set the startup file name on the
switch, and then restart the switch (FIG. 20).
FIG. 20 CLI - Downloading Configuration Settings from a Server
To select another configuration file as the start-up configuration, use the boot system command and then
restart the switch (FIG. 21).
FIG. 21 CLI - Boot System
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Basic Configuration
This example shows how to download a PoE controller file from a TFTP server.
Console#copy tftp file
233
TFTP server IP address: 10.3.4.50
Choose file type:
1. config: 2. opcode 3. PD_Controller: <1-3>: 3
Source file name: 7012_007.s19
Destination file name: PoE-test
Write to FLASH Programming.
Write to FLASH finish.
Success.
Console#
This example shows how to copy a PoE controller file from another unit in the stack.
Console#copy file controller
Unit <1-2>: 2
233
Choose controller type:
1. PoE: 2. VDSL: 3. TBD <1-3>: 1
Source file name: PoE-test
Software downloading in progress, please wait...
Unit 1 done
Console#
Console Port Settings
You can access the onboard configuration program by attaching a VT100 compatible device to the switch’s
serial console port. Management access through the console port is controlled by various parameters,
including a password, timeouts, and basic communication settings. These parameters can be configured via the
Web or CLI interface.
Command Attributes
Command Attributes
• Login Timeout: Sets the interval that the system waits for a user to log into the CLI. If a login attempt is not
detected within the timeout interval, the connection is terminated for the session.
• Range: 0 - 300 seconds
• Default: 0
• Exec Timeout: Sets the interval that the system waits until user input is detected. If user input is not
detected within the timeout interval, the current session is terminated.
• Range: 0 - 65535 seconds
• Default: 600 seconds
• Password
Threshold:
Sets the password intrusion threshold, which limits the number of failed logon attempts.
When the logon attempt threshold is reached, the system interface becomes silent for a
specified amount of time (set by the Silent Time parameter) before allowing the next logon
attempt.
• Range: 0-120
• Default: 3 attempts
• Silent Time:
• Data Bits:
Sets the amount of time the management console is inaccessible after the number of
unsuccessful logon attempts has been exceeded.
• Range: 0-65535
• Default: 0
Sets the number of data bits per character that are interpreted and generated by the con-
sole port.
• If parity is being generated, specify 7 data bits per character.
• If no parity is required, specify 8 data bits per character.
• Default: 8 bits
• Parity:
Defines the generation of a parity bit. Communication protocols provided by some
terminals can require a specific parity bit setting.
• Specify Even, Odd, or None.
• Default: None
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Basic Configuration
Command Attributes (Cont.)
• Speed:
Sets the terminal line’s baud rate for transmit (to terminal) and receive (from terminal). Set
the speed to match the baud rate of the device connected to the serial port or specify
“Auto.”
• Default: 9600 bps
• Stop Bits:
• Password:
Sets the number of the stop bits transmitted per byte.
• Default: 1 stop bit
Specifies a password for the line connection. When a connection is started on a line with
password protection, the system prompts for the password. If you enter the correct
password, the system shows a prompt.
• Default: No password.
• CLI only.
• Login:
Enables password checking at login. You can select authentication by a single global pass-
word as configured for the Password parameter, or by passwords set up for specific user-
name accounts (the default).
• CLI only.
Console Port Settings - Web
Click System, Line, Console. Specify the console port connection parameters as required, then click Apply.
FIG. 22 Console Port Settings
Console Port Settings - CLI
Enter Line Configuration mode for the console, then specify the connection parameters as required. To display
FIG. 23 CLI - Console Port Settings
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Basic Configuration
Telnet Settings
You can access the onboard configuration program over the network using Telnet (i.e., a virtual terminal).
Management access via Telnet can be enabled/disabled and other various parameters set, including the TCP
port number, timeouts, and a password. These parameters can be configured via the Web or CLI interface.
Command Attributes
Command Attributes
• Telnet Status:
Enables or disables Telnet access to the switch.
Default: Enabled
• Telnet Port Number: Sets the TCP port number for Telnet on the switch.
• Default: 23
• Login Timeout:
• Exec Timeout:
Sets the interval that the system waits for a user to log into the CLI. If a login attempt
is not detected within the timeout interval, the connection is terminated for the
session.
• Range: 0 - 300 seconds
• Default: 300 seconds
Sets the interval that the system waits until user input is detected. If user input is not
detected within the timeout interval, the current session is terminated.
• Range: 0 - 65535 seconds
• Default: 600 seconds
• Password Threshold: Sets the password intrusion threshold, which limits the number of failed logon
attempts. When the logon attempt threshold is reached, the system interface
becomes silent for a specified amount of time (set by the Silent Time parameter)
before allowing the next logon attempt.
• Range: 0-120
• Default: 3 attempts
• Password:
Specifies a password for the line connection. When a connection is started on a line
with password protection, the system prompts for the password. If you enter the cor-
rect password, the system shows a prompt.
• Default: No password
• CLI only.
• Login:
Enables password checking at login. You can select authentication by a single
global password as configured for the Password parameter, or by passwords set up
for specific user-name accounts (the default).
• CLI only.
Telnet Settings - Web
Click System, Line, Telnet. Specify the connection parameters for Telnet access, then click Apply.
FIG. 24 Web - Enabling Telnet
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Basic Configuration
Telnet Settings - CLI
Enter Line Configuration mode for a virtual terminal, then specify the connection parameters as required. To
display the current virtual terminal settings, use the show line command from the Normal Exec level.
FIG. 25 Enabling Telnet - CLI
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Configuring Event Logging
Configuring Event Logging
Overview
The switch allows you to control the logging of error messages, including the type of events that are recorded
in switch memory, logging to a remote System Log (syslog) server, and displays a list of recent event
messages.
System Log Configuration
The system allows you to enable or disable event logging, and specify which levels are logged to RAM or flash
memory.
Severe error messages that are logged to flash memory are permanently stored in the switch to assist in
troubleshooting network problems.
ꢀ
Up to 4096 log entries can be stored in the flash memory, with the oldest entries being overwritten
first when the available log memory (256 kilobytes) has been exceeded.
ꢀ
The System Logs page allows you to configure and limit system messages that are logged to flash
or RAM memory.
ꢀ
ꢀ
ꢀ
The default is for event levels 0 to 3 to be logged to flash and levels 0 to 7 to be logged to RAM.
The System Logs page allows you to scroll through the logged system and event messages.
The switch can store up to 2048 log entries in temporary random access memory (RAM; i.e.,
memory flushed on power reset) and up to 4096 entries in permanent flash memory.
Command Attributes
Command Attributes
• System Log Status: Enables/disables the logging of debug or error messages to the logging process.
• Flash Level:
Limits log messages saved to the switch’s permanent flash memory for all levels up to
the specified level. For example, if level 3 is specified, all messages from level 0 to
level 3 will be logged to flash.
Range: 0-7
Default: 3
• RAM Level:
Limits log messages saved to the switch’s temporary RAM memory for all levels up to
the specified level. For example, if level 7 is specified, all messages from level 0 to
level 7 will be logged to RAM. (Range: 0-7, Default: 6)
Note: The Flash Level must be equal to or less than the RAM Level.
Logging Levels
Logging Levels
Level Severity Name
Description
7
6
5
4
3
2
Debug
Debugging messages
Informational
Notice
Informational messages only
Normal but significant condition, such as cold start
Warning conditions (e.g., return false, unexpected return)
Error conditions (e.g., invalid input, default used)
Warning
Error
Critical
Critical conditions (e.g., memory allocation, or free memory error - resource
exhausted)
1
0
Alert
Immediate action needed
System unusable
Emergency
* There are only Level 2, 5 and 6 error messages for the current firmware release.
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Configuring Event Logging
System Log Configuration - Web
Click System, Log, System Logs. Specify System Log Status, then change the level of messages to be logged to
RAM and flash memory, then click Apply.
FIG. 26 Web - System Logs
System Log Configuration - CLI
Enable system logging and then specify the level of messages to be logged to RAM and flash memory. Use the
show logging command to display the current settings. Type “show log ram” to display log messages in the
RAM buffer.
FIG. 27 CLI - System Logs
Remote Logs Configuration
The Remote Logs page allows you to configure the logging of messages that are sent to syslog servers. You can
also limit the error messages sent to only those messages below a specified level.
Command Attributes
Command Attributes
• Remote Log Status: Enables/disables the logging of debug or error messages to the remote logging
process.
• Default: Enabled
• Logging Facility:
• Logging Trap:
Sets the facility type for remote logging of syslog messages. There are eight facility
types specified by values of 16 to 23.
The facility type is used by the syslog server to dispatch log messages to an
appropriate service.
• Default: 23
Limits log messages that are sent to the remote syslog server for all levels up to the
specified level. For example, if level 3 is specified, all messages from level 0 to level 3
will be sent to the remote server.
• Default: 3
• Host IP List:
Displays the list of remote server IP addresses that receive the syslog messages.
The maximum number of host IP addresses allowed is five.
• Host IP Address:
Specifies a new server IP address to add to the Host IP List.
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Configuring Event Logging
Remote Logs Configuration - Web
Click System, Log, Remote Logs. To add an IP address to the Host IP List, type the new IP address in the Host
IP Address box, and then click Add.
To delete an IP address, click the entry in the Host IP List, and then click Remove.
FIG. 28 Remote Logs
Remote Logs Configuration - CLI
Enter the syslog server host IP address, choose the facility type and set the logging trap.
FIG. 29 Remote Logs
Displaying Log Messages
The Logs page allows you to scroll through the logged system and event messages.
The switch can store up to 2048 log entries in temporary random access memory
(RAM; i.e., memory flushed on power reset) and up to 4096 entries in permanent
flash memory.
Displaying Log Messages - Web
Click System, Log, Logs.
FIG. 30 Displaying Logs
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Configuring Event Logging
Displaying Log Messages - CLI
This example shows the event message stored in RAM.
FIG. 31 Displaying Logs
Sending SMTP Alerts
To alert system administrators of problems, the switch can use SMTP (Simple Mail Transfer Protocol) to send
email messages when triggered by logging events of a specified level. The messages are sent to specified
SMTP servers on the network and can be retrieved using POP or IMAP clients.
Command Attributes
Command Attributes
• Admin Status:
Enables/disables the SMTP function.
• Default: Disabled
• Email Source
Address:
Sets the email address used for the “From” field in alert messages.
You may use a symbolic email address that identifies the switch, or the address of an
administrator responsible for the switch.
• Severity:
Sets the syslog severity threshold level used to trigger alert messages (see the Logging
All events at this level or higher will be sent to the configured email recipients. For
example, using Level 7 will report all events from level 7 to level 0.
• Default: Level 7
• SMTP Server List: Specifies a list of up to three recipient SMTP servers. The switch attempts to connect to
the other listed servers if the first fails.
Use the New SMTP Server text field and the Add/Remove buttons to configure the list.
• Email Destination Specifies the email recipients of alert messages. You can specify up to five recipients.
Address List:
Use the New Email Destination Address text field and the Add/Remove buttons to con-
figure the list.
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Configuring Event Logging
Sending SMPT Alerts - Web
Click System, Log, SMTP. Enable SMTP, specify a source email address, and select the minimum severity
level.
ꢀ
ꢀ
To add an IP address to the SMTP Server List, type the new IP address in the SMTP Server text box
and then click Add.
To delete an IP address, click the entry in the SMTP Server List and then click Remove. Specify up
to five email addresses to receive the alert messages, and then click Apply.
FIG. 32 Web - Enabling and Configuring SMTP Alerts
Sending SMPT Alerts - CLI
Enter the IP address of at least one SMTP server, set the syslog severity level to trigger an email message, and
specify the switch (source) and up to five recipient (destination) email addresses. Enable SMTP with the
logging sendmail command to complete the configuration.
Use the show logging sendmail command to display the current SMTP configuration.
FIG. 33 CLI - Enabling and Configuring SMTP Alerts
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Configuring Event Logging
Resetting the System
Resetting the System - Web
Select System, Reset to reboot the switch. When prompted, confirm that you want reset the switch.
FIG. 34 Web - Resetting the Switch
Resetting the System - CLI
Use the reload command to reboot the system.
FIG. 35 CLI - Resetting the Switch
When restarting the system, it always runs the Power-On Self-Test.
Setting the System Clock
Simple Network Time Protocol (SNTP) allows the switch to set its internal clock based on periodic updates
from a time server (SNTP or NTP). Maintaining an accurate time on the switch enables the system log to
record meaningful dates and times for event entries.
You can also manually set the clock using the CLI. (See “calendar set” on page 225.) If the clock is not set, the
switch will only record the time from the factory default set at the last bootup.
SNTP Configuration - This switch acts as an SNTP client in a unicast mode. The switch periodically sends a
request for a time update to a configured time server. You can configure up to three time server IP addresses.
The switch attempts to poll each server in the configured sequence.
Command Attributes
Command Attributes
• SNTP Client:
Configures the switch to operate as an SNTP unicast client.
This requires at least one time server to be specified in the SNTP Server field.
• SNTP Poll Interval: Sets the interval between sending requests for a time update from a time server.
• Range: 16-16284 seconds
• Default: 16 seconds
• SNTP Server:
Sets the IP address for up to three time servers.
The switch attempts to update the time from the first server, if this fails it attempts an
update from the next server in the sequence.
Setting the System Clock - Web
Select SNTP, Configuration. Modify any of the required parameters and click Apply.
FIG. 36 Web - Configuring SNTP
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Configuring Event Logging
Setting the System Clock - CLI
This example configures the switch to operate as an SNTP unicast client and then displays the current time and
settings:
FIG. 37 CLI - Configuring SNTP
Setting the Time Zone
SNTP uses Coordinated Universal Time (or UTC, formerly Greenwich Mean Time, or GMT) based on the
time at the Earth’s prime meridian, zero degrees longitude. To display a time corresponding to your local time,
you must indicate the number of hours and minutes your time zone is east (after) or west (before) of UTC.
Command Attributes
Command Attributes
• Current Time: Displays the current time.
• Name:
Assigns a name to the time zone. (Range: 1-29 characters)
• Hours (0-12):
The number of hours before/after UTC.
• Minutes (0-59): The number of minutes before/after UTC.
• Direction:
Configures the time zone to be before (west) or after (east) UTC.
Setting the Time Zone - Web
Select SNTP, Clock Time Zone. Set the offset for your time zone relative to the UTC, and click Apply.
FIG. 38 Web - Setting the System Clock
Setting the Time Zone - CLI
This example shows how to set the time zone for the system clock.
FIG. 39 CLI - Setting the System Clock
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Configuring Event Logging
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SNMP Protocol
SNMP Protocol
Overview
Simple Network Management Protocol (SNMP) is a communication protocol designed specifically for
managing devices on a network. Equipment commonly managed with SNMP includes switches, routers and
host computers. SNMP is typically used to configure these devices for proper operation in a network
environment, as well as to monitor them to evaluate performance or detect potential problems.
Managed devices supporting SNMP contain software, which runs locally on the device and is referred to as an
agent. A defined set of variables, known as managed objects, is maintained by the SNMP agent and used to
manage the device. These objects are defined in a Management Information Base (MIB) that provides a
standard presentation of the information controlled by the agent. SNMP defines both the format of the MIB
specifications and the protocol used to access this information over the network.
The switch includes an onboard agent that supports SNMP versions 1, 2c, and 3. This agent continuously
monitors the status of the switch hardware, as well as the traffic passing through its ports. A network
management station can access this information using software such as HP OpenView.
Access to the onboard agent using SNMP v1 and v2c is controlled by community strings. To communicate
with the switch, the management station must first submit a valid community string for authentication.
Access to the switch using SNMPv3 provides additional security features that cover message integrity,
authentication, and encryption; as well as controlling user access to specific areas of the MIB tree.
The SNMPv3 security structure consists of security models, with each model having it’s own security levels.
There are three security models defined, SNMPv1, SNMPv2c, and SNMPv3. Users are assigned to “groups”
that are defined by a security model and specified security levels.
Each group also has a defined security access to set of MIB objects for reading and writing, which are known
as “views.” The switch has a default view (all MIB objects) and default groups defined for security models v1
and v2c.
SNMPv3 Security Models and Levels
The following table shows the security models and levels available and the system default settings.
SNMPv3 Security Models and Levels
Model Level
Group
Read View
Write View
none
Security
v1
v1
noAuthNoPriv
public (read only)
defaultview
Community string only
Community string only
Community string only
Community string only
Community string only
Community string only
A user name match only
noAuthNoPriv
noAuthNoPriv
noAuthNoPriv
noAuthNoPriv
noAuthNoPriv
noAuthNoPriv
AuthNoPriv
private (read/write) defaultview
defaultview
user defined
none
v1
user defined
user defined
defaultview
v2c
v2c
v2c
v3
public (read only)
private (read/write) defaultview
defaultview
user defined
user defined
user defined
user defined
user defined
user defined
user defined
user defined
user defined
v3
Provides user authentica-
tion via MD5 or SHA algo-
rithms
v3
AuthPriv
user defined
user defined
user defined
Provides user authent-
ication via MD5 or SHA
algorithms and data
privacy using DES 56-bit
encryption
The predefined default groups and view can be deleted from the system.
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SNMP Protocol
Enabling SNMP
Enables SNMPv3 service for all management clients (i.e., versions 1, 2c, 3).
Command Attributes
Command Attributes
• SNMP Agent Status:
Enables SNMP on the switch.
Enabling SNMP - Web
Select SNMP, Agent Status.
FIG. 40 Web - Enabling the SNMP Agent
Enabling SNMP - CLI
The following example enables SNMP on the switch.
Console(config)#snmp-server
Console(config)#
293
Setting Community Access Strings
You may configure up to five community strings authorized for management access using SNMP v1 and v2c.
All community strings used for IP Trap Managers should be listed in this table.
For security reasons, you should consider removing the default strings.
Command Attributes
Command Attributes
• SNMP Community Indicates that the switch supports up to five community strings.
Capability:
• Current:
Displays a list of the community strings currently configured.
• Community String: A community string that acts like a password and permits access to the SNMP proto-
col.
• Default strings: “public” (read-only access), “private” (read/write access)
• Range: 1-32 characters, case sensitive
• Access Mode:
Specifies the access rights for the community string:
• Read-Only – Authorized management stations are only able to retrieve MIB objects.
• Read/Write – Authorized management stations are able to both retrieve and modify
MIB objects.
Setting Community Access Strings - Web
Click SNMP, SNMP Configuration. Add new community strings as required, select the access rights from the
Access Mode drop-down list, then click Add.
FIG. 41 Web - Configuring SNMP Community Strings
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SNMP Protocol
Setting Community Access Strings - CLI
The following example adds the string “spiderman” with read/write access.
FIG. 42 CLI - Configuring SNMP Community Strings
Specifying Trap Managers and Trap Types
Traps indicating status changes are issued by the switch to specified trap managers. You must specify trap
managers so that key events are reported by this switch to your management station (using network
management platforms such as HP OpenView). You can specify up to five management stations that will
receive authentication failure messages and other trap messages from the switch.
Command Attributes
Command Attributes
• Trap Manager Capability: Indicates that the switch supports up to five trap managers.
• Current:
Displays a list of the trap managers currently configured.
• Trap Manager IP Address: IP address of a new management station to receive trap messages.
• Trap Manager Community Specifies a valid community string for the new trap manager entry. Though you
String:
can set this string in the Trap Managers table, we recommend that you define
this string in the SNMP Protocol table as well.
• Range: 1-32 characters, case sensitive
• Trap UDP Port:
• Trap Version:
Specifies the UDP port number used by the trap manager.
Indicates if the user is running SNMP v1, v2c, or v3.
• Enable Authentication
Traps:
Issues a trap message to specified IP trap managers whenever authentication
of an SNMP request fails. (Default: Enabled)
• Enable Link-up and
Link-down Traps:
Issues a trap message whenever a port link is established or broken.
• Default: Enabled
Specifying Trap Managers and Trap Types - Web
Click SNMP, Configuration. Enter the IP address and community string for each management station that will
receive trap messages, specify the UDP port and SNMP version, and then click Add.
Select the trap types required using the check boxes for Authentication and Link-up/down traps, and then click
Apply.
FIG. 43 Web - Configuring IP Trap Managers
Specifying Trap Managers and Trap Types - CLI
This example adds a trap manager and enables authentication traps.
FIG. 44 CLI - Configuring IP Trap Managers
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SNMP Protocol
Configuring SNMPv3 Management Access
To configure SNMPv3 management access to the switch, follow these steps:
1. If you want to change the default engine ID, it must be changed first before configuring other parameters.
2. Specify read and write access views for the switch MIB tree.
3. Configure SNMP user groups with the required security model (i.e., SNMP v1, v2c or v3) and security
level (i.e., authentication and privacy).
4. Assign SNMP users to groups, along with their specific authentication and privacy passwords.
Setting an Engine ID
An SNMPv3 engine is an independent SNMP agent that resides on the switch. This engine protects against
message replay, delay, and redirection. The engine ID is also used in combination with user passwords to
generate the security keys for authenticating and encrypting SNMPv3 packets.
A local engine ID is automatically generated that is unique to the switch. This is referred to as the default
engine ID. If the local engine ID is deleted or changed, all SNMP users will be cleared. You will need to
reconfigure all existing users.
A new engine ID can be specified by entering 1 to 26 hexadecimal characters. If less than 26 characters are
specified, trailing zeroes are added to the value. For example, the value “1234” is equivalent to “1234”
followed by 22 zeroes.
Setting an Engine ID - Web
Click SNMP, SNMPv3, Engine ID. Enter an ID of up to 26 hexadecimal characters and then click Save.
FIG. 45 Setting an Engine ID
Setting an Engine ID - CLI
This example sets an SNMPv3 engine ID.
Console(config)#snmp-server engine-id local 12345abcdef
Console(config)#exit
Console#show snmp engine-id294
Local SNMP engineID: 12345abcdef000000000000000
Local SNMP engineBoots: 1
Console#
Configuring SNMPv3 Users
Each SNMPv3 user is defined by a unique name. Users must be configured with a specific security level and
assigned to a group. The SNMPv3 group restricts users to a specific read and a write view.
Command Attributes
Command Attributes
• User Name:
• Group Name:
• Model:
The name of user connecting to the SNMP agent. (Range: 1-32 characters)
The name of the SNMP group to which the user is assigned. (Range: 1-32 characters)
The user security model; SNMP v1, v2c or v3.
• Level:
The security level used for the user:
• noAuthNoPriv – There is no authentication or encryption used in SNMP
communications.
• AuthNoPriv – SNMP communications use authentication, but the data is not encrypted
(only available for the SNMPv3 security model).
• AuthPriv – SNMP communications use both authentication and encryption (only
available for the SNMPv3 security model).
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SNMP Protocol
Command Attributes (Cont.)
• Authentication: The method used for user authentication; MD5 or SHA
• Privacy:
• Actions:
The encryption algorithm use for data privacy; only 56-bit DES is currently available
Enables the user to be assigned to another SNMPv3 group.
Configuring SNMPv3 Users - Web
Click SNMP, SNMPv3, Users. Click New to configure a user name. In the New User page, define a name and
assign it to a group, then click Add to save the configuration and return to the User Name list.
ꢀ
ꢀ
To delete a user, check the box next to the user name, then click Delete.
To change the assigned group of a user, click Change Group in the Actions column of the users
table and select the new group.
FIG. 46 Configuring SNMPv3 Users
Configuring SNMPv3 Users - CLI
Use the snmp-server user command to configure a new user name and assign it to a group.
Console(config)#snmp-server user chris group r&d v3 auth md5 greenpeace priv des56 einstien
Console(config)#exit
Console#show snmp user299
EngineId: 80000034030001f488f5200000
User Name: chris
Authentication Protocol: md5
Privacy Protocol: des56
Storage Type: nonvolatile
Row Status: active
Console#
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SNMP Protocol
Configuring SNMPv3 Groups
An SNMPv3 group sets the access policy for its assigned users, restricting them to specific read and write
views. You can use the pre-defined default groups or create new groups to map a set of SNMP users to SNMP
views.
Command Attributes
Command Attributes
• Group Name: The name of the SNMP group. (Range: 1-32 characters)
• Model:
• Level:
The group security model; SNMP v1, v2c or v3.
The security level used for the group:
• noAuthNoPriv – There is no authentication or encryption used in SNMP communications.
• AuthNoPriv – SNMP communications use authentication, but the data is not encrypted
(only available for the SNMPv3 security model).
• AuthPriv – SNMP communications use both authentication and encryption (only available
for the SNMPv3 security model).
• Read View:
• Write View:
The configured view for read access. (Range: 1-64 characters)
The configured view for write access. (Range: 1-64 characters)
Configuring SNMPv3 Groups - Web
Click SNMP, SNMPv3, Groups. Click New to configure a new group. In the New Group page, define a name,
assign a security model and level, and then select read and write views.
ꢀ
ꢀ
Click Add to save the new group and return to the Groups list.
To delete a group, check the box next to the group name, then click Delete.
FIG. 47 Configuring SNMPv3 Groups
Configuring SNMPv3 Groups - CLI
Use the snmp-server group command to configure a new group, specifying the security model and level, and
restricting MIB access to defined read and write views.
Console(config)#snmp-server group v3secure v3 priv read defaultview write defaultview 296
Console(config)#exit
Console#show snmp group297
Group Name: v3secure
Security Model: v3
Read View: defaultview
Write View: defaultview
Notify View: none
Storage Type: nonvolatile
Row Status: active
Console#
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SNMP Protocol
Setting SNMPv3 Views
SNMPv3 views are used to restrict user access to specified portions of the MIB tree. The predefined view
“defaultview” includes access to the entire MIB tree.
Command Attributes
Command Attributes
• View Name:
The name of the SNMP view. (Range: 1-64 characters)
• View OID Subtrees: Shows the currently configured object identifiers of branches within the MIB tree that
define the SNMP view.
• Edit OID Subtrees: Allows you to configure the object identifiers of branches within the MIB tree.
Wildcards can be used to mask a specific portion of the OID string.
• Type:
Indicates if the object identifier of a branch within the MIB tree is included or excluded
from the SNMP view.
Setting SNMPv3 Views - Web
Click SNMP, SNMPv3, Views. Click New to configure a new view. In the New View page, define a name and
specify OID subtrees in the switch MIB to be included or excluded in the view.
ꢀ
ꢀ
Click Back to save the new view and return to the SNMPv3 Views list.
For a specific view, click on View OID Subtrees to display the current configuration, or click on
Edit OID Subtrees to make changes to the view settings.
ꢀ
To delete a view, check the box next to the view name, then click Delete.
FIG. 48 Web - Configuring SNMPv3 Views
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SNMP Protocol
Setting SNMPv3 Views - CLI
Use the snmp-server view command to configure a new view.
This example view includes the MIB-2 interfaces table, and the wildcard mask selects all index entries.
Console(config)#snmp-server view ifEntry.a 1.3.6.1.2.1.2.2.1.1.* included
Console(config)#exit
295
Console#show snmp view296
View Name: ifEntry.a
Subtree OID: 1.3.6.1.2.1.2.2.1.1.*
View Type: included
Storage Type: nonvolatile
Row Status: active
View Name: readaccess
Subtree OID: 1.3.6.1.2
View Type: included
Storage Type: nonvolatile
Row Status: active
View Name: defaultview
Subtree OID: 1
View Type: included
Storage Type: nonvolatile
Row Status: active
Console#
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User Authentication
User Authentication
Overview
You can restrict management access to this switch and provide secure network access using the following
options:
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
User Accounts – Manually configure access rights on the switch for specified users.
Authentication Settings – Use remote authentication to configure access rights.
HTTPS Settings – Provide a secure web connection.
SSH Settings – Provide a secure shell (for secure Telnet access).
Port Security – Configure secure addresses for individual ports.
802.1x – Use IEEE 802.1x port authentication to control access to specific ports.
Configuring User Accounts
The guest only has read access for most configuration parameters. However, the administrator has write access
for all parameters governing the onboard agent. You should therefore assign a new administrator password as
soon as possible, and store it in a safe place.
ꢀ
ꢀ
The default guest name is “guest” with the password “guest.”
The default administrator name is “admin” with the password “admin.”
Command Attributes
Command Attributes
• Account List:
Displays the current list of user accounts and associated access levels.
• Defaults: admin and guest
• New Account:
• Add/Remove:
• User Name:
Allows configuration of a new account with Normal or Privileged access.
Adds or removes an account from the list.
The name of the user. Maximum length: 8 characters)
• Access Level:
Specifies the user level.
• Options: Normal and Privileged
• Password:
Specifies the user password.
• Range: 0-8 characters plain text
• case sensitive
• Change Password: Sets a new password to overwrite an old password for the specified user name.
Configuring User Accounts - Web
Click Security, User Accounts. To configure a new user account, specify a user name, select the user’s access
level, then enter a password and confirm it. Click Add to save the new user account and add it to the Account
List. To change the password for a specific user, enter the user name and new password, confirm the password
by entering it again, then click Apply.
FIG. 49 Web - Access Levels
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User Authentication
Configuring User Accounts - CLI
Assign a user name to access-level 15 (i.e., administrator), then specify the password.
FIG. 50 CLI - Access Levels
Configuring Local/Remote Logon Authentication
Use the Authentication Settings menu to restrict management access based on specified user names and
passwords. You can manually configure access rights on the switch, or you can use a remote access
authentication server based on RADIUS or TACACS+ protocols.
Web
Telnet
console
1. Client attempts management access.
2. Switch contacts authentication server.
3. Authentication server challenges client.
4. Client responds with proper password or key.
5. Authentication server approves access.
6. Switch grants management access.
RADIUS/
TACACS+
server
FIG. 51 Local/Remote Logon Authentication
Remote Authentication Dial-in User Service (RADIUS) and Terminal Access Controller Access Control
System Plus (TACACS+) are logon authentication protocols that use software running on a central server to
control access to RADIUS-aware or TACACS -aware devices on the network. An authentication server
contains a database of multiple user name/password pairs with associated privilege levels for each user that
requires management access to the switch.
RADIUS uses UDP while TACACS+ uses TCP. UDP only offers best effort delivery, while TCP offers a
connection-oriented transport. Also, note that RADIUS encrypts only the password in the access-request
packet from the client to the server, while TACACS+ encrypts the entire body of the packet.
Command Usage
ꢀ
By default, management access is always checked against the authentication database stored on the
local switch. If a remote authentication server is used, you must specify the authentication sequence
and the corresponding parameters for the remote authentication protocol. Local and remote logon
authentication control management access via the console port, web browser, or Telnet.
ꢀ
ꢀ
RADIUS and TACACS+ logon authentication assign a specific privilege level for each user name/
password pair. The user name, password, and privilege level must be configured on the
authentication server.
You can specify up to three authentication methods for any user to indicate the authentication
sequence. For example, if you select (1) RADIUS, (2) TACACS and (3) Local, the user name and
password on the RADIUS server is verified first. If the RADIUS server is not available, then
authentication is attempted using the TACACS+ server, and finally the local user name and
password is checked.
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User Authentication
Command Attributes
Command Attributes
• Authentication:
Select the authentication, or authentication sequence required:
• Local – User authentication is performed only locally by the switch.
• Radius – User authentication is performed using a RADIUS server only.
• TACACS – User authentication is performed using a TACACS+ server only.
• [authentication sequence] – User authentication is performed by up to three
authentication methods in the indicated sequence.
• RADIUS Settings: • Global – Provides globally applicable RADIUS settings.
• Server Index – Specifies one of five RADIUS servers that may be configured. The
switch attempts authentication using the listed sequence of servers. The process
ends when a server either approves or denies access to a user.
• Server IP Address – Address of authentication server. (Default: 10.1.0.1)
• Server Port Number – Network (UDP) port of authentication server used for
authentication messages.
Range: 1-65535
Default: 1812
• Secret Text String – Encryption key used to authenticate logon access for client. Do
not use blank spaces in the string.
Maximum length: 20 characters
• Number of Server Transmits – Number of times the switch tries to authenticate logon
access via the authentication server.
Range: 0-2147483647
Default: 2
• Timeout for a reply – The number of seconds the switch waits for a reply from the
RADIUS server before it resends the request.
Range: 0-2147483647
Default: 5
• TACACS Settings: • Server IP Address – Address of the TACACS+ server.
Default: 10.11.12.13
• Server Port Number – Network (TCP) port of TACACS+ server used for
authentication messages.
Range: 1-65535
Default: 49
• Secret Text String – Encryption key used to authenticate logon access for client. Do
not use blank spaces in the string.
Maximum length: 20 characters
The local switch user database has to be set up by manually entering user names
and passwords using the CLI. (See "username" on page 196.)
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User Authentication
Authentication Settings - Web
Click Security, Authentication Settings. To configure local or remote authentication preferences, specify the
authentication sequence (i.e., one to three methods), fill in the parameters for RADIUS or TACACS+
authentication if selected, and click Apply.
FIG. 52 Web - Authentication Settings
Authentication Settings - CLI
Specify all the required parameters to enable logon authentication.
FIG. 53 CLI - Authentication Settings
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User Authentication
Configuring HTTPS
You can configure the switch to enable the Secure Hypertext Transfer Protocol (HTTPS) over the Secure
Socket Layer (SSL), providing secure access (i.e., an encrypted connection) to the switch’s web interface.
Command Usage
ꢀ
ꢀ
ꢀ
Both the HTTP and HTTPS service can be enabled independently on the switch. However, you
cannot configure both services to use the same UDP port.
If you enable HTTPS, you must indicate this in the URL that you specify in your browser:
https://device[:port_number]
When you start HTTPS, the connection is established in this way:
ꢀ
The client authenticates the server using the server’s digital certificate.
ꢀ
ꢀ
The client and server negotiate a set of security protocols to use for the connection.
The client and server generate session keys for encrypting and decrypting data.
ꢀ
ꢀ
The client and server establish a secure encrypted connection.
A padlock icon should appear in the status bar for Internet Explorer 5.x or above and Netscape
Navigator 4.x or above.
HTTPS Support
The following web browsers and operating systems currently support HTTPS:
HTTPS Support
• Internet Explorer 5.0 or later:
• Windows 98
• Windows NT (with service pack 6a)
• Windows 2000
• Windows XP
• Netscape Navigator 4.76 or later: • Windows 98
• Windows NT (with service pack 6a)
• Windows 2000
• Windows XP
• Solaris 2.6
Command Attributes
To specify a secure-site certificate, see Replacing the Default Secure-Site Certificate section on page 60.
Command Attributes
• Internet Explorer 5.0 or later:
• Windows 98
• Windows NT (with service pack 6a)
• Windows 2000
• Windows XP
• Netscape Navigator 4.76 or later: • Windows 98
• Windows NT (with service pack 6a)
• Windows 2000
• Windows XP
• Solaris 2.6
ꢀ
ꢀ
HTTPS Status - Allows you to enable/disable the HTTPS server feature on the switch.
Enabled)
(Default:
Change HTTPS Port Number - Specifies the UDP port number used for HTTPS/SSL connection
to the switch’s web interface (default: Port 443).
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Configuring HTTPS - Web
Click Security, HTTPS Settings. Enable HTTPS and specify the port number, then click Apply.
FIG. 54 Web - HTTPS Settings
Configuring HTTPS - CLI
CLI – This example enables the HTTP secure server and modifies the port number.
FIG. 55 CLI - HTTPS Settings
Replacing the Default Secure-Site Certificate
When you log onto the web interface using HTTPS (for secure access), a Secure Sockets Layer (SSL)
certificate appears for the switch. By default, the certificate that Netscape and Internet Explorer display will be
associated with a warning that the site is not recognized as a secure site. This is because the certificate has not
been signed by an approved certification authority.
If you want this warning to be replaced by a message confirming that the connection to the switch is secure,
you must obtain a unique certificate and a private key and password from a recognized certification authority.
For maximum security, we recommend you obtain a unique Secure Sockets Layer
certificate at the earliest opportunity. This is because the default certificate for the
switch is not unique to the hardware you have purchased.
When you have obtained these, place them on your TFTP server, and use the following command at the
switch's command-line interface to replace the default (unrecognized) certificate with an authorized one:
FIG. 56 CLI - Replacing the default Secure-Site Certificate
The switch must be reset for the new certificate to be activated. To reset the switch,
type: Console#reload
Configuring the Secure Shell
The Berkley-standard includes remote access tools originally designed for Unix systems. Some of these tools
have also been implemented for Microsoft Windows and other environments. These tools, including
commands such as rlogin (remote login), rsh (remote shell), and rcp (remote copy), are not secure from hostile
attacks.
The Secure Shell (SSH) includes server/client applications intended as a secure replacement for the older
Berkley remote access tools. SSH can also provide remote management access to this switch as a secure
replacement for Telnet. When the client contacts the switch via the SSH protocol, the switch generates a
public-key that the client uses along with a local user name and password for access authentication. SSH also
encrypts all data transfers passing between the switch and SSH-enabled management station clients, and
ensures that data traveling over the network arrives unaltered.
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User Authentication
Note that you need to install an SSH client on the management station to access the switch for management via
the SSH protocol.
The switch supports both SSH Version 1.5 and 2.0.
Command Usage
The SSH server on this switch supports both password and public key authentication. If password
authentication is specified by the SSH client, then the password can be authenticated either locally or via a
RADIUS or TACACS+ remote authentication server, as specified on the Authentication Settings page
If public key authentication is specified by the client, then you must configure authentication keys on both the
client and the switch as described in the following section. Note that regardless of whether you use public key
or password authentication, you still have to generate authentication keys on the switch (SSH Host Key
Settings) and enable the SSH server (Authentication Settings).
To use the SSH server, complete these steps:
1. Generate a Host Key Pair – On the SSH Host Key Settings page, create a host public/private key pair.
2. Provide Host Public Key to Clients – Many SSH client programs automatically import the host public key
during the initial connection setup with the switch. Otherwise, you need to manually create a known hosts
file on the management station and place the host public key in it. An entry for a public key in the known
hosts file would appear similar to the following example:
10.1.0.54 1024 35 15684995401867669259333946775054617325313674890836547254
15020245593199868544358361651999923329781766065830956 10825913212890233
76546801726272571413428762941301196195566782 59566410486957427888146206
519417467729848654686157177393901647793559423035774130980227370877945452408397
1752646358058176716709574804776117
3. Import Client’s Public Key to the Switch – Use the copy tftp public-key command (page 233) to copy a
file containing the public key for all the SSH client’s granted management access to the switch. (Note that
these clients must be configured locally on the switch via the User Accounts page as described on page
55.) The clients are subsequently authenticated using these keys. The current firmware only accepts
public key files based on standard UNIX format as shown in the following example for an RSA Version 1
key:
1024 35 1341081685609893921040944920155425347631641921872958921143173880
055536161631051775940838686311092912322268285192543746031009371877211996963178
136627741416898513204911720483033925432410163799759237144901193800609025394840
848271781943722884025331159521348610229029789827213532671316294325328189150453
06393916643 [email protected]
4. Set the Optional Parameters – On the SSH Settings page, configure the optional parameters, including the
authentication timeout, the number of retries, and the server key size.
5. Enable SSH Service – On the SSH Settings page, enable the SSH server on the switch.
6. Challenge-Response Authentication – When an SSH client attempts to contact the switch, the SSH server
uses the host key pair to negotiate a session key and encryption method. Only clients that have a private
key corresponding to the public keys stored on the switch can access. The following exchanges take place
during this process:
a. The client sends its public key to the switch.
b. The switch compares the client's public key to those stored in memory.
c. If a match is found, the switch uses the public key to encrypt a random sequence of bytes, and sends
this string to the client.
d. The client uses its private key to decrypt the bytes, and sends the decrypted bytes back to the switch.
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User Authentication
e. The switch compares the decrypted bytes to the original bytes it sent. If the two sets match, this
means that the client's private key corresponds to an authorized public key, and the client is
authenticated.
1. To use SSH with only password authentication, the host public key must still be
given to the client, either during initial connection or manually entered into the
known host file. However, you do not need to configure the client’s keys.
2. The SSH server supports up to four client sessions. The maximum number of
client sessions includes both current Telnet sessions and SSH sessions.
Generating the Host Key Pair
A host public/private key pair is used to provide secure communications between an SSH client and the switch.
After generating this key pair, you must provide the host public key to SSH clients and import the client’s
public key to the switch as described in the proceeding section (Command Usage).
Field Attributes
Field Attributes
• Public-Key of
Host-Key:
The public key for the host.
• RSA (Version 1): The first field indicates the size of the host key (e.g., 1024), the
second field is the encoded public exponent (e.g., 65537), and the last string is the
encoded modulus.
• DSA (Version2): The first field indicates that the encryption method used by SSH is
based on the Digital Signature Standard (DSS). The last string is the encoded
modulus.
• Host-Key Type:
The key type used to generate the host key pair (i.e., public and private keys).
(Range: RSA (Version 1), DSA (Version 2), Both: Default: RSA)
The SSH server uses RSA or DSA for key exchange when the client first establishes
a connection with the switch, and then negotiates with the client to select either DES
(56-bit) or 3DES (168-bit) for data encryption.
• Save Host-Key from Saves the host key from RAM (i.e., volatile memory to flash memory. Otherwise, the
Memory to Flash:
host key pair is stored to RAM by default. Note that you must select this item prior to
generating the host-key pair.
• Generate:
This button is used to generate the host key pair. Note that you must first generate the
host key pair before you can enable the SSH server on the SSH Server Settings
page.
Configuring the Secure Shell - Web
Click Security, SSH, Host-Key Settings. Select the host-key type from the drop-down box, select the option to
save the host key from memory to flash (if required) prior to generating the key, and then click Generate.
FIG. 57 Web - SSH Host-Key Settings
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User Authentication
Configuring the Secure Shell - CLI
This example generates a host-key pair using both the RSA and DSA algorithms, stores the keys to flash
memory, and then displays the host’s public keys.
FIG. 58 CLI - SSH Host-Key Settings
Configuring the SSH Server
The SSH server includes basic settings for authentication.
Field Attributes
Field Attributes
• SSH Server Status:
• Version:
Allows you to enable/disable the SSH server feature on the switch.
•
Default: Disabled
The Secure Shell version number. Version 2.0 is displayed, but the switch supports
management access via either SSH Version 1.5 or 2.0 clients.
• SSH Authentication
Timeout:
• Specifies the time interval in seconds that the SSH server waits for a response
from a client during an authentication attempt.
Range: 1 to 120 seconds
• Default: 120 seconds
• SSH Authentication
Retries:
Specifies the number of authentication attempts that a client is allowed before
authentication fails and the client has to restart the authentication process.
• Range: 1-5 times
• Default: 3
• SSH Server-Key Size: Specifies the SSH server key size. (Range: 512-896 bits)
• The server key is a private key that is never shared outside the switch.
• The host key is shared with the SSH client, and is fixed at 1024 bits.
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User Authentication
Configuring the SSH Server - Web
Click Security, SSH, Settings. Enable SSH and adjust the authentication parameters as required, then click
Apply. Note that you must first generate the host key pair on the SSH Host-Key Settings page before you can
enable the SSH server.
FIG. 59 Web - SSH Server Settings
Configuring the SSH Server - CLI
This example enables SSH, sets the authentication parameters, and displays the current configuration. It shows
that the administrator has made a connection via SHH, and then disables this connection.
FIG. 60 CLI - SSH Server Settings
Configuring Port Security
Port security is a feature that allows you to configure a switch port with one or more device MAC addresses
that are authorized to access the network through that port.
When port security is enabled on a port, the switch stops learning new MAC addresses on the specified port.
Only incoming traffic with source addresses already stored in the dynamic or static address table will be
accepted as authorized to access the network through that port. If a device with an unauthorized MAC address
attempts to use the switch port, the intrusion will be detected and the switch can automatically take action by
disabling the port and sending a trap message.
To use port security, first allow the switch to dynamically learn the <source MAC address, VLAN> pair for
frames received on a port for an initial training period, and then enable port security to stop address learning.
Be sure you enable the learning function long enough to ensure that all valid VLAN members have been
registered on the selected port. Note that you can also restrict the maximum number of addresses that can be
learned by a port.
To add new VLAN members at a later time, you can manually add secure addresses with the Static Address
Table (see the Address Table Settings section on page 109), or turn off port security to re-enable the learning
function long enough for new VLAN members to be registered. Learning may then be disabled again, if
desired, for security.
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User Authentication
Command Usage
A secure port has the following restrictions:
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
Cannot use port monitoring.
Cannot be a multi-VLAN port.
It cannot be used as a member of a static or dynamic trunk.
It should not be connected to a network interconnection device.
If a port is disabled (shut down) due to a security violation, it must be manually re-enabled from the
Command Attributes
Command Attributes
• Port:
Port number.
• Name:
• Action:
Descriptive text.
Indicates the action to be taken when a port security violation is detected:
• None: No action should be taken. (This is the default.)
• Trap: Send an SNMP trap message.
• Shutdown: Disable the port.
• Trap and Shutdown: Send an SNMP trap message and disable the port.
• Security Status: Enables or disables port security on the port. (Default: Disabled)
• Max MAC Count: The maximum number of MAC addresses that can be learned on a port.
(Range: 0 -1024)
• Trunk:
Configuring Port Security - Web
Click Security, Port Security. Set the action to take when an invalid address is detected on a port, mark the
checkbox in the Status column to enable security for a port, set the maximum number of MAC addresses
allowed on a port, and click Apply.
FIG. 61 Web - Configuring Port Security
Configuring Port Security - CLI
This example enables port security for Port 5 with the intrusion action to send a trap and disable the port, and
then sets the maximum addresses to learn on the port to 20.
FIG. 62 Web - Configuring Port Security
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User Authentication
Configuring 802.1x Port Authentication
Network switches can provide open and easy access to network resources by simply attaching a client PC.
Although this automatic configuration and access is a desirable feature, it also allows unauthorized personnel
to easily intrude and possibly gain access to sensitive network data.
The IEEE 802.1x (dot1x) standard defines a port-based access control procedure that prevents unauthorized
access to a network by requiring users to first submit credentials for authentication. Access to all switch ports
in a network can be centrally controlled from a server, which means that authorized users can use the same
credentials for authentication from any point within the network.
802.1x
client
1. Client attempts to access a switch port.
2. Switch sends client an identity request.
3. Client sends back identity information.
RADIUS
4. Switch forwards this to authentication server.
server
5. Authentication server challenges client.
6. Client responds with proper credentials.
7. Authentication server approves access.
8. Switch grants client access to this port.
FIG. 63 802.1x Port Authentication
This switch uses the Extensible Authentication Protocol over LANs (EAPOL) to exchange authentication
protocol messages with the client, and a remote RADIUS authentication server to verify user identity and
access rights. When a client (i.e., Supplicant) connects to a switch port, the switch (i.e., Authenticator)
responds with an EAPOL identity request. The client provides its identity (such as a user name) in an EAPOL
response to the switch, which it forwards to the RADIUS server. The RADIUS server verifies the client
identity and sends an access challenge back to the client. The EAP packet from the RADIUS server contains
not only the challenge, but the authentication method to be used. The client can reject the authentication
method and request another, depending on the configuration of the client software and the RADIUS server.
The authentication method must be MD5. The client responds to the appropriate method with its credentials,
such as a password or certificate. The RADIUS server verifies the client credentials and responds with an
accept or reject packet. If authentication is successful, the switch allows the client to access the network.
Otherwise, network access is denied and the port remains blocked.
Requirements
The operation of 802.1x on the switch requires the following:
ꢀ
ꢀ
The switch must have an IP address assigned.
RADIUS authentication must be enabled on the switch and the IP address of the RADIUS server
specified.
ꢀ
ꢀ
ꢀ
Dot1x must be enabled globally for the switch.
Each switch port that will be used must be set to dot1x “Auto” mode.
Each client that needs to be authenticated must have dot1x client software installed and properly
configured.
ꢀ
ꢀ
The RADIUS server and 802.1x client support EAP. (The switch only supports EAPOL in order to
pass the EAP packets from the server to the client.)
The RADIUS server and client also have to support the same EAP authentication type – MD5.
(Some clients have native support in Windows, otherwise the dot1x client must support it).
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User Authentication
Displaying and Configuring the 802.1x Global Setting
The 802.1x protocol must be enabled globally for the switch system before port settings are active.
Command Attributes
Command Attributes
• 802.1x System
Authentication Control:
The global setting for 802.1x.
• Default: Disabled
Displaying and Configuring the 802.1x Global Setting - Web
To display the current global setting for 802.1x, click Security, 802.1X, Information.
FIG. 64 Web - 802.1X Information
Displaying and Configuring the 802.1x Global Setting - CLI
This example enables 802.1x globally for the switch and shows the current setting.
FIG. 65 CLI - 802.1X Information
Configuring Port Settings for 802.1x
When 802.1x is enabled, you need to configure the parameters for the authentication process that runs between
the client and the switch (i.e., authenticator), as well as the client identity lookup process that runs between the
switch and authentication server. These parameters are described in this section.
Command Attributes
Command Attributes
• Status:
Indicates if authentication is enabled or disabled on the port.
• Operation Mode:
Allows single or multiple hosts (clients) to connect to an 802.1X-authorized port.
• Range: Single-Host, Multi-Host
• Default: Single-Host
• Max Count:
The maximum number of hosts that can connect to a port when the Multi-Host
operation mode is selected.
• Range: 1-1024
• Default: 5
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User Authentication
Command Attributes (Cont.)
• Mode:
Sets the authentication mode to one of the following options:
• Auto – Requires a dot1x-aware client to be authorized by the authentication server.
Clients that are not dot1x-aware will be denied access.
• Force-Authorized – Forces the port to grant access to all clients, either dot1x-aware
or otherwise. (This is the default setting.)
• Force-Unauthorized – Forces the port to deny access to all clients, either dot1x-
aware or otherwise.
• Re-authentication: Sets the client to be re-authenticated after the interval specified by the Re-authentica-
tion Period.
• Re-authentication can be used to detect if a new device is plugged into a switch port.
• Default: Disabled
• Max Request:
• Quiet Period:
Sets the maximum number of times the switch port will retransmit an EAP request
packet to the client before it times out the authentication session.
• Range: 1-10
• Default 2
Sets the time that a switch port waits after the Max Request count has been exceeded
before attempting to acquire a new client.
• Range: 1-65535 seconds
• Default: 60 seconds
• Re-authentication Sets the time period after which a connected client must be re-authenticated.
Period:
• Range: 1-65535 seconds
• Default: 3600 seconds
• TX Period:
Sets the time period during an authentication session that the switch waits before re-
transmitting an EAP packet.
• Range: 1-65535
• Default: 30 seconds
• Authorized:
• Yes – Connected client is authorized.
• No – Connected client is not authorized.
• Blank – Displays nothing when dot1x is disabled on a port.
• Supplicant:
• Trunk:
Indicates the MAC address of a connected client.
Indicates if the port is configured as a trunk port.
Configuring Port Settings for 802.1x - Web
Click Security, 802.1x, Port Configuration. Modify the parameters required, and click Apply.
FIG. 66 Web - 802.1x Port Configuration
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User Authentication
Configuring Port Settings for 802.1x - CLI
This example sets the 802.1x parameters on port 2. For a description of the additional fields displayed in this
example, see show dot1x section on page 259.
FIG. 67 CLI - 802.1x Port Configuration
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User Authentication
Displaying 802.1x Statistics
This switch can display statistics for dot1x protocol exchanges for any port.
802.1x Statistics
Parameter
Description
Rx EXPOL Start
Rx EAPOL Logoff
The number of EAPOL Start frames that have been received by this Authenticator.
The number of EAPOL Logoff frames that have been received by this Authenticator.
Rx EAPOL Invalid The number of EAPOL frames that have been received by this Authenticator in which the
frame type is not recognized.
Rx EAPOL Total
The number of valid EAPOL frames of any type that have been received by this Authenti-
cator.
Rx EAP Resp/Id
The number of EAP Resp/Id frames that have been received by this Authenticator.
Rx EAP Resp/Oth The number of valid EAP Response frames (other than Resp/Id frames) that have been
received by this Authenticator.
Rx EAP LenError
The number of EAPOL frames that have been received by this Authenticator in which the
Packet Body Length field is invalid.
Rx Last EAPOLVer The protocol version number carried in the most recently received EAPOL frame.
Rx Last EAPOLSrc The source MAC address carried in the most recently received EAPOL frame.
Tx EAPOL Total
The number of EAPOL frames of any type that have been transmitted by this Authentica-
tor.
Tx EAP Req/Id
The number of EAP Req/Id frames that have been transmitted by this Authenticator.
Tx EAP Req/Oth
The number of EAP Request frames (other than Rq/Id frames) that have been
transmitted by this Authenticator.
Displaying 802.1x Statistics - Web
Select Security, 802.1x, Statistics. Select the required port and then click Query.
Click Refresh to update the statistics.
FIG. 68 Web - Displaying 802.1x Statistics
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User Authentication
Displaying 802.1x Statistics - CLI
This example displays the 802.1x statistics for port 4.
FIG. 69 CLI - Displaying 802.1x Statistics
Filtering Addresses for SNMP Client Access
The switch allows you to create a list of up to 16 IP addresses or IP address groups that are allowed access to
the switch via SNMP management software.
Command Usage
ꢀ
To specify the clients allowed SNMP access, enter an IP address along with a subnet mask to
identify a specific host or a range of valid addresses. For example:
ꢀ
IP address 192.168.1.1 and mask 255.255.255.255 – Specifies a valid IP address of 192.168.1.1
for a single client.
ꢀ
IP address 192.168.1.1 and mask 255.255.255.0 – Specifies a valid IP address group from
192.168.1.0 to 192.168.1.254.
ꢀ
ꢀ
IP filtering only restricts management access for clients running SNMP management software such
as HP OpenView. It does not affect management access to the switch using the web interface or
Telnet.
The default setting is null, which allows all IP groups SNMP access to the switch. If one or more IP
addresses are configured, IP filtering is enabled and only addresses listed in this table will have
SNMP access.
Command Attributes
Command Attributes
• IP Filter List: Displays a list of the IP address/subnet mask entries currently configured for SNMP access.
• IP address:
Specifies a new IP address to add to the IP Filter List.
• Subnet Mask: Specifies a single IP address or group of addresses. If the IP is the address of a single man-
agement station, set the mask to 255.255.255.255. Otherwise, an IP address group will be
specified by any other mask.
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Filtering Addresses for SNMP Client Access - Web
Click SNMP, SNMP IP Filtering. To add a client, enter the new address, the subnet mask for a node or an
address range, and then click “Add IP Filtering Entry.”
FIG. 70 Filtering Addresses for SNMP Access
Filtering Addresses for SNMP Client Access - CLI
This example allows SNMP access for a specific client.
Console(config)#snmp ip filter 10.1.2.3 255.255.255.255
Console(config)#
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Configuring ACLs
Configuring ACLs
Overview
Access Control Lists (ACL) provide packet filtering for IP frames (based on address, protocol, Layer 4
protocol port number or TCP control code) or any frames (based on MAC address or Ethernet type). To filter
incoming packets, first create an access list, add the required rules, specify a mask to modify the precedence in
which the rules are checked, and then bind the list to a specific port.
Configuring Access Control Lists
An ACL is a sequential list of permit or deny conditions that apply to IP addresses, MAC addresses, or other
more specific criteria. This switch tests ingress or egress packets against the conditions in an ACL one by one.
A packet will be accepted as soon as it matches a permit rule, or dropped as soon as it matches a deny rule. If
no rules match for a list of all permit rules, the packet is dropped; and if no rules match for a list of all deny
rules, the packet is accepted.
Command Usage
The following restrictions apply to ACLs:
ꢀ
ꢀ
ꢀ
Each ACL can have up to 32 rules.
The maximum number of ACLs is also 32.
However, due to resource restrictions, the average number of rules bound to the ports should not
exceed 20.
ꢀ
ꢀ
ꢀ
You must configure a mask for an ACL rule before you can bind it to a port or set the queue or
frame priorities associated with the rule.
When an ACL is bound to an interface as an egress filter, all entries in the ACL must be deny rules.
Otherwise, the bind operation will fail.
The switch does not support the explicit “deny any” rule for the egress IP ACL or the egress MAC
ACLs. If these rules are included in ACL, and you attempt to bind the ACL to an interface for
egress checking, the bind operation will fail.
The order in which active ACLs are checked is as follows:
1. User-defined rules in the Egress MAC ACL for egress ports.
2. User-defined rules in the Egress IP ACL for egress ports.
3. User-defined rules in the Ingress MAC ACL for ingress ports.
4. User-defined rules in the Ingress IP ACL for ingress ports.
5. Explicit default rule (permit any) in the ingress IP ACL for ingress ports.
6. Explicit default rule (permit any) in the ingress MAC ACL for ingress ports.
7. If no explicit rule is matched, the implicit default is permit all.
Setting the ACL Name and Type
Use the ACL Configuration page to designate the name and type of an ACL.
Command Attributes
Command Attributes
• Name:
• Type:
Name of the ACL. (Maximum length: 16 characters)
There are three filtering modes:
• Standard: IP ACL mode that filters packets based on the source IP address.
• Extended: IP ACL mode that filters packets based on source or destination IP
address, as well as protocol type and protocol port number. If the “TCP”
protocol is specified, then you can also filter packets based on the TCP
control code.
• MAC: MAC ACL mode that filters packets based on the source or destination
MAC address and the Ethernet frame type (RFC 1060).
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Configuring ACLs
Setting the ACL Name and Type - Web
Click Security, ACL, ACL Configuration. Enter an ACL name in the Name field, select the list type (IP
Standard, IP Extended, or MAC), and click Add to open the configuration page for the new list.
FIG. 71 Web - Selecting ACL Type
Setting the ACL Name and Type - CLI
This example creates a standard IP ACL named bill.
FIG. 72 CLI - Selecting ACL Type
Configuring a Standard IP ACL
Command Attributes
Command Attributes
• Action:
An ACL can contain permit rules, deny rules, or a combination of both.
• Default: Permit rules
• Address Type: Specifies the filter type - Any, Host, or IP.
• Default: Any
• IP Address:
Specifies the source IP address.
Use “Any” to include all possible addresses, “Host” to specify a specific host address in the
Address field, or “IP” to specify a range of addresses with the Address and SubMask fields.
• Options: Any, Host, IP
• Default: Any
• Subnet Mask: A subnet mask containing four integers from 0 to 255, each separated by a period. The
mask uses 1 bits to indicate “match” and 0 bits to indicate “ignore.”
The mask is bitwise ANDed with the specified source IP address, and compared with the
address for each IP packet entering the port(s) to which this ACL has been assigned.
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Configuring ACLs
Configuring a Standard IP ACL - Web
Specify the action (i.e., Permit or Deny). Select the address type (Any, Host, or IP).
ꢀ
ꢀ
If you select “Host,” enter a specific address. I
If you select “IP,” enter a subnet address and the mask for an address range. Then click Add.
FIG. 73 Web - Configuring Standard ACLs
Configuring a Standard IP ACL - CLI
This example configures one permit rule for the specific address 10.1.1.21 and another rule for the address
range 168.92.16.x – 168.92.31.x using a bitmask.
FIG. 74 CLI - Configuring Standard ACLs
Configuring an Extended IP ACL
Command Attributes
Command Attributes
• Action:
An ACL can contain permit rules, deny rules or a combination of both.
• Default: Permit rules
• Source/Destination
Address Type:
Specifies the source or destination IP address.
Use “Any” to include all possible addresses, “Host” to specify a specific host
address in the Address field, or “IP” to specify a range of addresses with the
Address and SubMask fields.
• Options: Any, Host, IP
• Default: Any
• Source/Destination
IP Address:
Source or destination IP address.
• Source/Destination
Subnet Mask:
Subnet mask for source or destination address. (See the description for Sub-
• Service Type:
Packet priority settings based on the following criteria:
• Precedence – IP precedence level. (Range: 0-7)
• TOS – Type of Service level. (Range: 0-15)
• DSCP – DSCP priority level. (Range: 0-64)
• Protocol:
Specifies the protocol type to match as TCP, UDP or Others, where others indi-
cates a specific protocol number (0-255).
• Options: TCP, UDP, Others
• Default: TCP
• Source/Destination Port: Source/destination port number for the specified protocol type.
• Range: 0-65535
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Configuring ACLs
Command Attributes (Cont.)
• Source/Destination
Port Bitmask:
Decimal number representing the port bits to match.
• Range: 0-65535
• Control Code:
Decimal number (representing a bit string) that specifies flag bits in byte 14 of
the TCP header.
• Range: 0-63
• Control Code Bitmask:
Decimal number representing the code bits to match.
The control bitmask is a decimal number (for an equivalent binary bit mask) that
is applied to the control code. Enter a decimal number, where the equivalent
binary bit “1” means to match a bit and “0” means to ignore a bit. The following
bits may be specified:
• 1 (fin) – Finish
• 2 (syn) – Synchronize
• 4 (rst) – Reset
• 8 (psh) – Push
• 16 (ack) – Acknowledgement
• 32 (urg) – Urgent pointer
For example, use the code value and mask below to catch packets with the
following flags set:
• SYN flag valid, use control-code 2, control bitmask 2
• Both SYN and ACK valid, use control-code 18, control bitmask 18
SYN valid and ACK invalid, use control-code 2, control bitmask 18
Configuring an Extended IP ACL - Web
Specify the action (i.e., Permit or Deny). Specify the source and/or destination addresses. Select the address
type (Any, Host, or IP).
ꢀ
ꢀ
If you select “Host,” enter a specific address.
If you select “IP,” enter a subnet address and the mask for an address range.
Set any other required criteria, such as service type, protocol type, or TCP control code. Then click Add.
FIG. 75 Configuring Extended ACLs
Configuring an Extended IP ACL - CLI
This example adds three rules:
1. Accept any incoming packets if the source address is in subnet 10.7.1.x. For example, if the rule is
matched; i.e., the rule (10.7.1.0 & 255.255.255.0) equals the masked address (10.7.1.2 & 255.255.255.0),
the packet passes through.
2. Allow TCP packets from class C addresses 192.168.1.0 to any destination address when set for
destination TCP port 80 (i.e., HTTP).
3. Permit all TCP packets from class C addresses 192.168.1.0 with the TCP control code set to “SYN.”
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Configuring ACLs
FIG. 76 Configuring Extended ACLs
Configuring a MAC ACL
Command Attributes
Command Attributes
• Action:
An ACL can contain permit rules, deny rules, or a combination of both.
(Default: Permit rules)
• Source/Destination Use “Any” to include all possible addresses, “Host” to indicate a specific MAC
Address Type:
address, or “MAC” to specify an address range with the Address and Bitmask fields.
• Options: Any, Host, MAC
• Default: Any
• Source/Destination Source or destination MAC address.
MAC Address:
• Source/Destination Hexadecimal mask for source or destination MAC address.
Bitmask:
• VID:
VLAN ID. (Range: 1-4095)
• VID Mask:
• Ethernet Type:
VLAN bitmask. (Range: 1-4095)
This option can only be used to filter Ethernet II formatted packets.
• Range: 600-fff hex.
• A detailed listing of Ethernet protocol types can be found in RFC 1060. A few of the
more common types include 0800 (IP), 0806 (ARP), 8137 (IPX).
• Ethernet Type
Bitmask:
Protocol bitmask. (Range: 600-fff hex.)
• Packet Format:
This attribute includes the following packet types:
• Any – Any Ethernet packet type.
• Untagged-eth2 – Untagged Ethernet II packets.
• Untagged-802.3 – Untagged Ethernet 802.3 packets.
• Tagged-eth2 – Tagged Ethernet II packets.
• Tagged-802.3 – Tagged Ethernet 802.3 packets.
• Packet Format
Bitmask:
This attribute includes the following packet types:
• Any – Any Ethernet packet type.
• Untagged-eth2 – Untagged Ethernet II packets.
• Untagged-802.3 – Untagged Ethernet 802.3 packets.
• Tagged-eth2 – Tagged Ethernet II packets.
• Tagged-802.3 – Tagged Ethernet 802.3 packets.
Command Usage
Egress MAC ACLs only work for destination-mac-known packets, not for multicast, broadcast, or destination-
mac-unknown packets.
Configuring a MAC ACL - Web
Specify the action (i.e., Permit or Deny). Specify the source and/or destination addresses. Select the address
type (Any, Host, or MAC).
ꢀ
ꢀ
If you select “Host,” enter a specific address (e.g., 11-22-33-44-55-66).
If you select “MAC,” enter a base address and a hexadecimal bitmask for an address range.
Set any other required criteria, such as VID, Ethernet type, or packet format. Then click Add.
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Configuring ACLs
FIG. 77 Web - Configuring MAC ACLs
Configuring a MAC ACL - CLI
This rule permits packets from any source MAC address to the destination address 00-e0-29-94-34-de where
the Ethernet type is 0800.
FIG. 78 CLI - Configuring MAC ACLs
Configuring ACL Masks
You can specify optional masks that control the order in which ACL rules are checked. The switch includes
two system default masks that pass/filter packets matching the permit/deny rules specified in an ingress ACL.
You can also configure up to seven user-defined masks for an ingress or egress ACL. A mask must be bound
exclusively to one of the basic ACL types (i.e., Ingress IP ACL, Egress IP ACL, Ingress MAC ACL or Egress
MAC ACL), but a mask can be bound to up to four ACLs of the same type.
Command Usage
ꢀ
Up to seven entries can be assigned to an ACL mask.
ꢀ
Packets crossing a port are checked against all the rules in the ACL until a match is found. The
order in which these packets are checked is determined by the mask, and not the order in which the
ACL rules are entered.
ꢀ
ꢀ
First create the required ACLs and the ingress or egress masks before mapping an ACL to an
interface.
You must configure a mask for an ACL rule before you can bind it to a port or set the queue or
frame priorities associated with the rule.
Specifying the Mask Type
Use the ACL Mask Configuration page to edit the mask for the Ingress IP ACL (Egress IP ACL, Ingress MAC
ACL or Egress MAC ACL).
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Configuring ACLs
Configuring ACL Masks - Web
Click Security, ACL, ACL Mask Configuration. Click Edit for one of the basic mask types to open the
configuration page.
FIG. 79 Web - ACL Mask Configuration
Configuring ACL Masks - CLI
This example creates an IP ingress mask, and then adds two rules. Each rule is checked in order of precedence
to look for a match in the ACL entries. The first entry matching a mask is applied to the inbound packet.
Console(config)#access-list ip mask-precedence in 269
Console(config-ip-mask-acl)#mask host any 269
Console(config-ip-mask-acl)#mask 255.255.255.0 any
Console(config-ip-mask-acl)#
Configuring an IP ACL Mask
This mask defines the fields to check in the IP header.
Command Usage
Masks that include an entry for a Layer 4 protocol source port or destination port can only be applied to
packets with a header length of exactly five bytes.
Command Attributes
Command Attributes
• Source/Destination Use “Any” to include all possible addresses, “Host” to indicate a specific MAC
Address Type:
address, or “MAC” to specify an address range with the Address and Bitmask fields.
• Options: Any, Host, MAC
• Default: Any
• Source/Destination Subnet mask for source or destination address.
Subnet Mask:
See the description for SubMask on page 74.
Check the protocol field.
• Protocol Bitmask:
• Service Type Mask: Check the rule for the specified priority type.
• Options: Precedence, TOS, DSCP
• Default: TOS
• Source/Destination Protocol port of rule must match this bitmask.
Port Bitmask:
• Range: 0-65535
• Control Code
Bitmask:
Control flags of rule must match this bitmask.
• Range: 0-63
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Configuring ACLs
Configuring an IP ACL Mask - Web
Configure the mask to match the required rules in the IP ingress or egress ACLs. Set the mask to check for any
source or destination address, a specific host address, or an address range.
ꢀ
ꢀ
Include other criteria to search for in the rules, such as a protocol type or one of the service types.
Or use a bitmask to search for specific protocol port(s) or TCP control code(s). Then click Add.
FIG. 80 Web - Configuring an IP based ACL
Configuring an IP ACL Mask - CLI
This shows that the entries in the mask override the precedence in which the rules are entered into the ACL. In
the following example, packets with the source address 10.1.1.1 are dropped because the “deny 10.1.1.1
255.255.255.255” rule has the higher precedence according the “mask host any” entry.
Console(config)#access-list ip standard A2
Console(config-std-acl)#permit 10.1.1.0 255.255.255.0
Console(config-std-acl)#deny 10.1.1.1 255.255.255.255
Console(config-std-acl)#exit
264
265
Console(config)#access-list ip mask-precedence in
Console(config-ip-mask-acl)#mask host any
Console(config-ip-mask-acl)#mask 255.255.255.0 any
Console(config-ip-mask-acl)#
269
269
Configuring a MAC ACL Mask
This mask defines the fields to check in the packet header.
Command Usage
You must configure a mask for an ACL rule before you can bind it to a port.
Command Attributes
Command Attributes
• Source/Destination
Address Type:
Use “Any” to match any address, “Host” to specify the host address for a single
node, or “MAC” to specify a range of addresses.
• Options: Any, Host, MAC
• Default: Any
• Source/Destination
Bitmask:
Address of rule must match this bitmask.
• VID Bitmask:
VLAN ID of rule must match this bitmask.
• Ethernet Type Bitmask: Ethernet type of rule must match this bitmask.
• Packet Format Mask: A packet format must be specified in the rule.
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Configuring ACLs
Configuring a MAC ACL Mask - Web
Configure the mask to match the required rules in the MAC ingress or egress ACLs. Set the mask to check for
any source or destination address, a host address, or an address range.
Use a bitmask to search for specific VLAN ID(s) or Ethernet type(s). Or check for rules where a packet format
was specified. Then click Add.
FIG. 81 Configuring a MAC based ACL
Configuring a MAC ACL Mask - CLI
This example shows how to create an Ingress MAC ACL and bind it to a port. You can then see that the order
of the rules have been changed by the mask.
Console(config)#access-list mac M4
Console(config-mac-acl)#permit any any
Console(config-mac-acl)#denytagged-eth200-11-11-11-11-11ff-ff-ff-ff-ff-ffanyvid3
278
Console(config-mac-acl)#end
Console#show access-list
MAC access-list M4:
permit any any
deny tagged-eth2 host 00-11-11-11-11-11 any vid 3
Console(config)#access-list mac mask-precedence in
Console(config-mac-mask-acl)#mask pktformat ff-ff-ff-ff-ff-ff any vid
Console(config-mac-mask-acl)#exit
Console(config)#interface ethernet 1/12
Console(config-if)#mac access-group M4 in
Console(config-if)#end
Console#show access-list
MAC access-list M4:
deny tagged-eth2 host 00-11-11-11-11-11 any vid 3
permit any any
MAC ingress mask ACL:
mask pktformat host any vid
Console#
Binding a Port to an Access Control List - Web
After configuring the Access Control Lists (ACL), you can bind the ports that need to filter traffic to the
appropriate ACLs. You can only bind a port to one ACL for each basic type – IP ingress, IP egress, MAC
ingress and MAC egress.
Command Usage
ꢀ
This switch supports ACLs for both ingress and egress filtering. However, you can only bind one IP
ACL and one MAC ACL to any port for ingress filtering, and one IP ACL and one MAC ACL to
any port for egress filtering. In other words, only four ACLs can be bound to an interface – Ingress
IP ACL, Egress IP ACL, Ingress MAC ACL and Egress MAC ACL.
ꢀ
When an ACL is bound to an interface as an egress filter, all entries in the ACL must be deny rules.
Otherwise, the bind operation will fail.
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Configuring ACLs
ꢀ
The switch does not support the explicit “deny any” rule for the egress IP ACL or the egress MAC
ACLs. If these rules are included in the ACL, and you attempt to bind the ACL to an interface for
egress checking, the bind operation will fail.
Command Attributes
Command Attributes
• Port:
• IP:
Fixed port or SFP module. (Range: 1-24)
Specifies the IP ACL to bind to a port.
Specifies the MAC ACL to bind to a port.
ACL for ingress packets.
• MAC:
• IN:
• OUT:
ACL for egress packets.
• ACL Name: Name of the ACL.
Binding a Port to an Access Control List - Web
Click ACL, ACL Port Binding. Mark the Enable field for the port you want to bind to an ACL for ingress or
egress traffic, select the required ACL from the drop-down list, then click Apply.
FIG. 82 Mapping ACLs to Port Ingress/Egress Queues
Binding a Port to an Access Control List - CLI
This example assigns an IP and MAC ingress ACL to port 1, and an IP ingress ACL to port 2.
Console(config)#interface ethernet 1/1300
Console(config-if)#ip access-group david in273
Console(config-if)#mac access-group jerry in284
Console(config-if)#exit
Console(config)#interface ethernet 1/2
Console(config-if)#ip access-group david in
Console(config-if)#
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Filtering IPs for Management Access
Filtering IPs for Management Access
Overview
You can specify the client IP addresses that are allowed management access to the switch through the web
interface, SNMP, or Telnet.
Command Usage
ꢀ
The management interfaces are open to all IP addresses by default. Once you add an entry to a filter
list, access to that interface is restricted to the specified addresses.
ꢀ
If anyone tries to access a management interface on the switch from an invalid address, the switch
will reject the connection, enter an event message in the system log, and send a trap message to the
trap manager.
ꢀ
ꢀ
IP addresses can be configured for SNMP, web and Telnet access respectively. Each of these groups
can include up to five different sets of addresses, either individual addresses or address ranges.
When entering addresses for the same group (i.e., SNMP, web or Telnet), the switch will not accept
overlapping address ranges. When entering addresses for different groups, the switch will accept
overlapping address ranges.
ꢀ
ꢀ
You cannot delete an individual address from a specified range. You must delete the entire range,
and reenter the addresses.
You can delete an address range just by specifying the start address, or by specifying both the start
address and end address.
Command Attributes
Command Attributes
• Web IP Filter:
• SNMP IP Filter:
• Telnet IP Filter:
• IP Filter List:
Configures IP address(es) for the web group.
Configures IP address(es) for the SNMP group.
Configures IP address(es) for the Telnet group.
IP addresses that are allowed management access to this interface.
• Start IP Address: A single IP address, or the starting address of a range.
• End IP Address: The end address of a range.
Filtering IP Addresses for Management Access - Web
Click Security, IP Filter. Enter the addresses that are allowed management access to an interface, and click
Add IP Filtering Entry.
FIG. 83 Entering IP Addresses to be Filtered
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Filtering IPs for Management Access
Filtering IP Addresses for Management Access - CLI
This example restricts management access for Telnet and SNMP clients.
Console(config)#management telnet-client 192.168.1.19
Console(config)#management telnet-client 192.168.1.25 192.168.1.30
Console(config)#management snmp-client 10.1.2.3 255.255.255.255
Console(config)#end
198
198
199
Console#sh management telnet-client
Management IP Filter
TELNET-Client:
Start IP address
End IP address
-----------------------------------------------
1. 192.168.1.19
2. 192.168.1.25
192.168.1.19
192.168.1.30
Console#sh management snmp-client199
Management IP Filter
SNMP-Client:
Start IP address
End IP address
-----------------------------------------------
1. 10.1.2.3
Console#
255.255.255.255
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Port Configuration
Port Configuration
Overview
You can use the Port Information or Trunk Information pages to display the current connection status,
including link state, speed/duplex mode, flow control, and auto-negotiation.
Field Attributes (Web)
• Name:
• Type:
Interface label.
Indicates the port type (10BASE-T, 100BASE-TX, 100BASE-FX, 1000BASE-LX,
1000BASE-GBIC).
• Admin Status:
• Oper Status:
Shows if the interface is enabled or disabled.
Indicates if the link is Up or Down.
• Speed Duplex
Status:
Shows the current speed and duplex mode. (Auto, or fixed choice)
• Flow Control
Status:
Indicates the type of flow control currently in use. (IEEE 802.3x, Back-Pressure or None)
• Autonegotiation: Shows if auto-negotiation is enabled or disabled.
• Trunk Member:
• Creation:
Shows if port is a trunk member. (Port Information only.)
Shows if a trunk is manually configured. (Trunk Information only.) or dynamically set via
LACP.
Displaying Connection Status - Web
Click Port, Port Information or Trunk Information.
FIG. 84 Web - Displaying Port/Trunk Information
Field Attributes (CLI)
Field Attributes (CLI)
Basic information:
• Port type:
Indicates the port type. (10BASE-T, 100BASE-TX, 1000BASE-T, 1000BASE-SFP)
• MAC address:
The physical layer address for this port. To access this item on the web, see the
Configuration:
• Name:
Interface label.
• Port admin:
• Speed-duplex:
Shows if the interface is enabled or disabled (i.e., up or down).
Shows the current speed and duplex mode. (Auto, or fixed choice)
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Port Configuration
Field Attributes (CLI - Cont.)
• Capabilities:
Specifies the capabilities to be advertised for a port during auto-negotiation. To
The following capabilities are supported.
• 10half - Supports 10 Mbps half-duplex operation
• 10full - Supports 10 Mbps full-duplex operation
• 100half - Supports 100 Mbps half-duplex operation
• 100full - Supports 100 Mbps full-duplex operation
• 1000full - Supports 1000 Mbps full-duplex operation
• Sym - Transmits and receives pause frames for flow control
• FC - Supports flow control
• Broadcast storm:
Shows if broadcast storm control is enabled or disabled.
• Broadcast storm limit: Shows the broadcast storm threshold. (500 - 262143 packets per second)
• Flow control:
• LACP:
Shows if flow control is enabled or disabled.
Shows if LACP is enabled or disabled.
• Port Security:
• Max MAC count:
Shows if port security is enabled or disabled.
Shows the maximum number of MAC address that can be learned by a port. (0 -
1024 addresses)
• Port security action:
Shows the response to take when a security violation is detected. (shutdown, trap,
trap-and-shutdown)
Current status:
• Link Status:
Indicates if the link is up or down.
• Operation speed-
duplex:
Shows the current speed and duplex mode.
• Flow control type:
Indicates the type of flow control currently in use (IEEE 802.3x, Back-Pressure or
none)
Displaying Connection Status - CLI
This example shows the connection status for Port 13.
FIG. 85 CLI - Displaying Port/Trunk Information
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Port Configuration
Configuring Interface Connections
You can use the Port Configuration or Trunk Configuration page to enable/disable an interface, set auto-
negotiation and the interface capabilities to advertise, or manually fix the speed, duplex mode, and flow
control.
Command Attributes
Command Attributes
• Name
Allows you to label an interface. (Range: 1-64 characters)
• Admin
Allows you to manually disable an interface. You can disable an interface due to abnor-
mal behavior (e.g., excessive collisions), and then re-enable it after the problem has
been resolved. You may also disable an interface for security reasons.
• Speed/Duplex
Allows manual selection of port speed and duplex mode (i.e., with auto-negotiation dis-
abled).
• Flow Control
Allows automatic or manual selection of flow control.
• Autonegotiation
Allows auto-negotiation to be enabled/disabled. When auto-negotiation is enabled, you
(Port Capabilities) need to specify the capabilities to be advertised. When auto-negotiation is disabled,
you can force the settings for speed, mode, and flow control.The following capabilities
are supported.
• 10half - Supports 10 Mbps half-duplex operation
• 10full - Supports 10 Mbps full-duplex operation
• 100half - Supports 100 Mbps half-duplex operation
• 100full - Supports 100 Mbps full-duplex operation
• 1000full - Supports 1000 Mbps full-duplex operation
• Sym (Gigabit only) - When specified, the port transmits and receives pause frames;
when not specified, the port will auto-negotiate to determine the sender and receiver
for asymmetric pause frames. (The current switch chip only supports symmetric
pause frames.)
• FC - Supports flow control
Flow control can eliminate frame loss by “blocking” traffic from end stations or
segments connected directly to the switch when its buffers fill. When enabled, back
pressure is used for half-duplex operation and IEEE 802.3x for full-duplex operation.
(Avoid using flow control on a port connected to a hub unless it is actually required to
solve a problem. Otherwise back pressure jamming signals may degrade overall
performance for the segment attached to the hub.)
• Default: Autonegotiation enabled;
Advertised capabilities for
• 100BASE-TX – 10half, 10full, 100half, 100full;
• 1000BASE-T – 10half, 10full, 100half, 100full, 1000full;
• 1000BASE-LX – 1000full)
• Trunk
Indicates if a port is a member of a trunk.
Autonegotiation must be disabled before you can configure or force the interface to
use the Speed/Duplex Mode or Flow Control options.
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Port Configuration
Configuring Interface Connections - Web
Click Port, Port Configuration or Trunk Configuration. Modify the required interface settings, and click
Apply.
FIG. 86 Web - Port/Trunk Configuration
Configuring Interface Connections - CLI
Select the interface, and then enter the required settings.
FIG. 87 CLI - Port/Trunk Configuration
Creating Trunk Groups
You can create multiple links between devices that work as one virtual, aggregate link. A port trunk offers a
dramatic increase in bandwidth for network segments where bottlenecks exist, as well as providing a fault-
tolerant link between two devices. You can create up to six trunks at a time.
The switch supports both static trunking and dynamic Link Aggregation Control Protocol (LACP). Static
trunks have to be manually configured at both ends of the link, and the switches must comply with the Cisco
EtherChannel standard. On the other hand, LACP configured ports can automatically negotiate a trunked link
with LACP-configured ports on another device. You can configure any number of ports on the switch as LACP,
as long as they are not already configured as part of a static trunk. If ports on another device are also
configured as LACP, the switch and the other device will negotiate a trunk link between them. If an LACP
trunk consists of more than four ports, all other ports will be placed in a standby mode. Should one link in the
trunk fail, one of the standby ports will automatically be activated to replace it.
Command Usage
Besides balancing the load across each port in the trunk, the other ports provide redundancy by taking over the
load if a port in the trunk fails. However, before making any physical connections between devices, use the
web interface or CLI to specify the trunk on the devices at both ends. When using a port trunk, take note of the
following points:
ꢀ
Finish configuring port trunks before you connect the corresponding network cables between
switches to avoid creating a loop.
ꢀ
ꢀ
ꢀ
You can create up to six trunks on the switch, with up to eight ports per trunk.
The ports at both ends of a connection must be configured as trunk ports.
When configuring static trunks on switches of different types, they must be compatible with the
Cisco EtherChannel standard.
ꢀ
The ports at both ends of a trunk must be configured in an identical manner, including
communication mode (i.e., speed, duplex mode and flow control), VLAN assignments, and CoS
settings.
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Port Configuration
ꢀ
ꢀ
All the ports in a trunk have to be treated as a whole when moved from/to, added or deleted from a
VLAN.
STP, VLAN, and IGMP settings can only be made for the entire trunk.
Statically Configuring a Trunk
Command Usage
ꢀ
When configuring static trunks, you may not be able to link switches of different types, depending
on the manufacturer’s implementation. However, note that the static trunks on this switch are Cisco
EtherChannel compatible.
ꢀ
To avoid creating a loop in the network, be sure you add a static trunk via the configuration
interface before connecting the ports, and also disconnect the ports before removing a static trunk
via the configuration interface.
Command Attributes
Command Attributes
• Member List (Current):
• New:
Shows configured trunks (Trunk ID, Unit, Port).
Includes entry fields for creating new trunks.
Trunk identifier. (Range: 1-4)
• Trunk:
• Unit:
Stack unit. (Range: 1-8)
• Port:
Port identifier. (Range: 1-26)
Statically Configuring a Trunk - Web
Click Port, Trunk Membership. Enter a trunk ID of 1-6 in the Trunk field, select any of the switch ports from
the scroll-down port list, and click Add. After you have completed adding ports to the member list, click
Apply.
FIG. 88 Web - Configuring Port Trunks
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Port Configuration
Statically Configuring a Trunk - CLI
This example creates trunk 2 with ports 1 and 2. Just connect these ports to two static trunk ports on another
switch to form a trunk.
FIG. 89 CLI - Configuring Port Trunks
Enabling LACP on Selected Ports
Command Usage
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
To avoid creating a loop in the network, be sure you enable LACP before connecting the ports, and
also disconnect the ports before disabling LACP.
If the target switch has also enabled LACP on the connected ports, the trunk will be activated
automatically.
A trunk formed with another switch using LACP will automatically be assigned the next available
trunk ID.
If more than four ports attached to the same target switch have LACP enabled, the additional ports
will be placed in standby mode, and will only be enabled if one of the active links fails.
All ports on both ends of an LACP trunk must be configured for full duplex, either by forced mode
or auto-negotiation.
Command Attributes
Command Attributes
• Member List (Current):
• New:
Shows configured trunks (Unit, Port).
Includes entry fields for creating new trunks.
• Unit – Stack unit. (Range: 1-8)
• Port – Port identifier. (Range: 1-26)
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Port Configuration
Enabling LACP on Selected Ports - Web
Click Port, LACP, Configuration. Select any of the switch ports from the scroll-down port list and click Add.
After you have completed adding ports to the member list, click Apply.
FIG. 90 Web - LACP Configuration
Enabling LACP on Selected Ports - CLI
The following example enables LACP for ports 1 to 6. Just connect these ports to LACP-enabled trunk ports
on another switch to form a trunk.
FIG. 91 CLI - LACP Configuration
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Port Configuration
Dynamically Creating a Port Channel
Ports assigned to a common port channel must meet the following criteria:
ꢀ
ꢀ
ꢀ
Ports must have the same LACP System Priority.
Ports must have the same LACP port Admin Key.
However, if the “port channel” Admin Key is set (page 318), then the port Admin Key must be set to
the same value for a port to be allowed to join a channel group.
If the port channel admin key (LACP admin key, page 318) is not set (through the
CLI) when a channel group is formed (i.e., it has a null value of 0), this key is set to
the same value as the port admin key used by the interfaces that joined the group
(LACP admin key, as described in this section and on page 318).
ꢀ
ꢀ
Set Port Actor – This menu sets the local side of an aggregate link; i.e., the ports on this switch.
Set Port Partner – This menu sets the remote side of an aggregate link; i.e., the ports on the
attached device. The command attributes have the same meaning as those used for the port actor.
However, configuring LACP settings for the partner only applies to its administrative state, not its
operational state, and will only take effect the next time an aggregate link is established with the
partner.
Command Attributes
Command Attributes
• Port:
Port number. (Range: 1-24)
• System Priority: LACP system priority is used to determine link aggregation group (LAG) membership,
and to identify this device to other switches during LAG negotiations.
• Range: 0-65535
• Default: 32768
• Ports must be configured with the same system priority to join the same LAG.
• System priority is combined with the switch’s MAC address to form the LAG identifier.
This identifier is used to indicate a specific LAG during LACP negotiations with other
systems.
• Admin Key:
• Port Priority:
The LACP administration key must be set to the same value for ports that belong to the
same LAG.
• Range: 0-65535
• Default: 0
If a link goes down, LACP port priority is used to select a backup link.
• Range: 0-65535
• Default: 32768
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Port Configuration
Dynamically Creating a Port Channel - Web
Click Port, LACP, Aggregation Port. Set the System Priority, Admin Key, and Port Priority for the Port Actor.
You can optionally configure these settings for the Port Partner.
Be aware that these settings only affect the administrative state of the partner, and
will not take effect until the next time an aggregate link is formed with this device.
After you have completed setting the port LACP parameters, click Apply
.
FIG. 92 Web - LACP Port Configuration
Dynamically Creating a Port Channel - CLI
The following example configures LACP parameters for ports 1-6. Ports 1-4 are used as active members of the
LAG; ports 5 and 6 are set to backup mode.
FIG. 93 Web - LACP Port Configuration
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Port Configuration
Displaying LACP Port Counters
You can display statistics for LACP protocol messages. The following table describes the Counter Information
fields:
Counter Information Fields
Counter Information Fields
• LACPDUs Sent:
• LACPDUs Received:
• Marker Sent:
Number of valid LACPDUs transmitted from this channel group.
Number of valid LACPDUs received on this channel group.
Number of valid Marker PDUs transmitted from this channel group.
Number of valid Marker PDUs received by this channel group.
• Marker Received:
• LACPDUs Unknown Pkts: Number of frames received that either (1) Carry the Slow Protocols Ethernet
Type value, but contain an unknown PDU, or (2) are addressed to the Slow
Protocols group MAC Address, but do not carry the Slow Protocols Ethernet
Type.
• LACPDUs Illegal Pkts:
Number of frames that carry the Slow Protocols Ethernet Type value, but con-
tain a badly formed PDU or an illegal value of Protocol Subtype.
Displaying LACP Port Counters - Web
Click Port, LACP, Port Counters Information. Select a member port to display the corresponding information.
FIG. 94 Web - Displaying LACP Port Counters
Displaying LACP Port Counters - CLI
The following example displays LACP counters for port channel 1.
FIG. 95 CLI - Displaying LACP Port Counters
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Port Configuration
Displaying LACP Settings and Status for the Local Side
You can display configuration settings and the operational state for the local side of an link aggregation.
Displaying LACP Local Settings
• Oper Key:
Current operational value of the key for the aggregation port.
Current administrative value of the key for the aggregation port.
Number of seconds before invalidating received LACPDU information.
• Admin Key:
• LACPDUs Internal:
• LACP System Priority: LACP system priority assigned to this port channel.
• LACP Port Priority:
LACP port priority assigned to this interface within the channel group.
• Admin State,
• Oper State:
Administrative or operational values of the actor’s state parameters:
• Expired – The actor’s receive machine is in the expired state;
• Defaulted – The actor’s receive machine is using defaulted operational partner
information, administratively configured for the partner.
• Distributing – If false, distribution of outgoing frames on this link is disabled; i.e.,
distribution is currently disabled and is not expected to be enabled in the
absence of administrative changes or changes in received protocol information.
• Collecting – Collection of incoming frames on this link is enabled; i.e., collection
is currently enabled and is not expected to be disabled in the absence of
administrative changes or changes in received protocol information.
• Synchronization – The System considers this link to be IN_SYNC; i.e., it has
been allocated to the correct Link Aggregation Group, the group has been
associated with a compatible Aggregator, and the identity of the Link
Aggregation Group is consistent with the System ID and operational Key
information transmitted.
• Aggregation – The system considers this link to be aggregatable; i.e., a potential
candidate for aggregation.
• Long timeout – Periodic transmission of LACPDUs uses a slow transmission
rate.
• LACP-Activity – Activity control value with regard to this link.
(0: Passive; 1: Active)
Displaying LACP Settings and Status for the Local Side - Web
Click Port, LACP, Port Internal Information. Select a port channel to display the corresponding information.
FIG. 96 Web - Displaying LACP Port Information
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Port Configuration
Displaying LACP Settings and Status for the Local Side - CLI
The following example displays the LACP configuration settings and operational state for the local side of port
channel 1.
FIG. 97 CLI - Displaying LACP Port Information
Displaying LACP Settings and Status for the Remote Side
You can display configuration settings and the operational state for the remote side of an link aggregation.
Displaying LACP Remote Settings - Neighbor Configuration Information
• Partner Admin
System ID:
LAG partner’s system ID assigned by the user.
• Partner Oper
System ID:
LAG partner’s system ID assigned by the LACP protocol.
Current administrative value of the port number for the protocol Partner.
• Partner Admin
Port Number:
• Partner Oper
Port Number:
Operational port number assigned to this aggregation port by the port’s protocol
partner.
• Port Admin Priority: Current administrative value of the port priority for the protocol partner.
• Port Oper Priority:
• Admin Key:
• Oper Key:
Priority value assigned to this aggregation port by the partner.
Current administrative value of the Key for the protocol partner.
Current operational value of the Key for the protocol partner.
• Admin State:
• Oper State:
Administrative values of the partner’s state parameters. (See preceding table.)
Operational values of the partner’s state parameters. (See preceding table.)
Displaying LACP Settings and Status for the Remote Side - Web
Click Port, LACP, Port Neighbors Information. Select a port channel to display the corresponding information.
FIG. 98 Web - Displaying Remote LACP Port Information
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Port Configuration
Displaying LACP Settings and Status for the Remote Side - CLI
The following example displays the LACP configuration settings and operational state for the remote side of
port channel 1.
FIG. 99 CLI - Displaying Remote LACP Port Information
Setting Broadcast Storm Thresholds
Broadcast storms may occur when a device on your network is malfunctioning, or if application programs are
not well designed or properly configured. If there is too much broadcast traffic on your network, performance
can be severely degraded or everything can come to complete halt.
You can protect your network from broadcast storms by setting a threshold for broadcast traffic for all ports.
Any broadcast packets exceeding the specified threshold will then be dropped.
Command Usage
ꢀ
ꢀ
ꢀ
ꢀ
Broadcast Storm Control is enabled by default.
The default threshold is 500 packets per second.
Broadcast control does not effect IP multicast traffic.
The specified threshold applies to all ports on the switch.
Command Attributes
Command Attributes
• Threshold:
Threshold as percentage of port bandwidth.
• Options: 500-262143 packets per second
• Default: 500 packets per second
• Broadcast Control Status: Shows whether or not broadcast storm control has been enabled.
• Default: Enabled
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Port Configuration
Setting Broadcast Storm Thresholds - Web
Click Port, Broadcast Control. Set the threshold any port, click Apply.
FIG. 100 Web - Enabling Port Broadcast Control
Setting Broadcast Storm Thresholds - CLI
Specify any interface, and then enter the threshold. The following disables broadcast storm control for port 1,
and then sets broadcast suppression at 600 packets per second for port 2.
FIG. 101 CLI - Enabling Port Broadcast Control
Configuring Port Mirroring
You can mirror traffic from any source port to a target port for real-time analysis. You can then attach a logic
analyzer or RMON probe to the target port and study the traffic crossing the source port in a completely
unobtrusive manner.
Command Usage
ꢀ
Monitor port speed should match or exceed source port speed, otherwise traffic may be dropped
from the monitor port.
ꢀ
ꢀ
All mirror sessions have to share the same destination port.
When mirroring port traffic, the target port must be included in the same VLAN as the source port.
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Port Configuration
Command Attributes
Command Attributes
• Mirror Sessions: Displays a list of current mirror sessions.
• Source Unit:
• Source Port:
• Type:
The unit whose port traffic will be monitored.
The port whose traffic will be monitored.
Allows you to select which traffic to mirror to the target port, Rx (receive), Tx (transmit), or
Both.
• Target Unit:
• Target Port:
The unit whose port will “duplicate” or “mirror” the traffic on the source port.
The port that will “duplicate” or “mirror” the traffic on the source port.
Configuring Port Mirroring - Web
Click Port, Mirror Port Configuration. Specify the source port/unit, the traffic type to be mirrored, and the
monitor port/unit, then click Add.
FIG. 102 Web - Mirror Port Configuration
Configuring Port Mirroring - CLI
Use the interface command to select the monitor port, then use the port monitor command to specify the source
port. Note that default mirroring under the CLI is for both received and transmitted packets.
FIG. 103 Web - Mirror Port Configuration
Configuring Rate Limits
This function allows the network manager to control the maximum rate for traffic transmitted or received on an
interface. Rate limiting is configured on interfaces at the edge of a network to limit traffic coming out of the
switch. Traffic that falls within the rate limit is transmitted, while packets that exceed the acceptable amount of
traffic are dropped.
Rate limiting can be applied to individual ports or trunks. When an interface is configured with this feature, the
traffic rate will be monitored by the hardware to verify conformity. Non-conforming traffic is dropped,
conforming traffic is forwarded without any changes.
Command Attributes
Command Attributes
• Rate Limit:
Sets the output rate limit for an interface.
• Default Status – Disabled
• Default Rate – 100 Mbps
• Range – 1 - 1000 Mbps
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Port Configuration
Configuring Rate Limits - Web
Click Rate Limit, Input/Output Port/Trunk Configuration. Set the Input Rate Limit Status or Output Rate Limit
Status, then set the rate limit for the individual interfaces, and click Apply.
FIG. 104 Web - Output Rate Limit Port Configuration
Configuring Rate Limits - CLI
This example sets the rate limit for input and output traffic passing through port 3 to 600 Mbps.
FIG. 105 CLI - Output Rate Limit Port Configuration
Showing Port Statistics
You can display standard statistics on network traffic from the Interfaces Group and Ethernet-like MIBs, as
well as a detailed breakdown of traffic based on the RMON MIB. Interfaces and Ethernet-like statistics display
errors on the traffic passing through each port. This information can be used to identify potential problems
with the switch (such as a faulty port or unusually heavy loading).
RMON statistics provide access to a broad range of statistics, including a total count of different frame types
and sizes passing through each port. All values displayed have been accumulated since the last system reboot,
and are shown as counts per second. Statistics are refreshed every 60 seconds by default.
RMON groups 2, 3 and 9 can only be accessed using SNMP management software such as HP OpenView.
Port Statistics
Port Statistics
Interface Statistics
• Received Octets:
The total number of octets received on the interface, including framing
characters.
• Received Unicast
Packets:
The number of subnetwork-unicast packets delivered to a higher-layer protocol.
• Received Multicast
Packets:
The number of packets, delivered by this sub-layer to a higher (sub-)layer, which
were addressed to a multicast address at this sub-layer.
• Received Broadcast
Packets:
The number of packets, delivered by this sub-layer to a higher (sub-)layer, which
were addressed to a broadcast address at this sub-layer.
• Received Discarded
Packets:
The number of inbound packets which were chosen to be discarded even though
no errors had been detected to prevent their being deliverable to a higher-layer
protocol. One possible reason for discarding such a packet could be to free up
buffer space.
• Received Unknown
Packets:
The number of packets received via the interface which were discarded because
of an unknown or unsupported protocol.
• Received Errors:
The number of inbound packets that contained errors preventing them from
being deliverable to a higher-layer protocol.
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Port Configuration
Port Statistics (Cont.)
Interface Statistics (Cont.)
• Transmit Octets:
The total number of octets transmitted out of the interface, including framing
characters.
• Transmit Unicast
Packets:
The total number of packets that higher-level protocols requested be transmitted
to a subnetwork-unicast address, including those that were discarded or not
sent.
• Transmit Multicast
Packets:
The total number of packets that higher-level protocols requested be transmit-
ted, and which were addressed to a multicast address at this sub-layer, including
those that were discarded or not sent.
• Transmit Broadcast
Packets:
The total number of packets that higher-level protocols requested be transmit-
ted, and which were addressed to a broadcast address at this sub-layer, includ-
ing those that were discarded or not sent.
• Transmit Discarded
Packets:
The number of outbound packets which were chosen to be discarded even
though no errors had been detected to prevent their being transmitted. One pos-
sible reason for discarding such a packet could be to free up buffer space.
• Transmit Errors:
The number of outbound packets that could not be transmitted because of
errors.
Etherlike Statistics
• Alignment Errors:
• Late Collisions:
The number of alignment errors (missynchronized data packets).
The number of times that a collision is detected later than 512 bit-times into the
transmission of a packet.
• FCS Errors:
A count of frames received on a particular interface that are an integral number
of octets in length but do not pass the FCS check. This count does not include
frames received with frame-too-long or frame-too-short error.
• Excessive Collisions:
A count of frames for which transmission on a particular interface fails due to
excessive collisions. This counter does not increment when the interface is oper-
ating in full-duplex mode.
• Single Collision
Frames:
The number of successfully transmitted frames for which transmission is inhib-
ited by exactly one collision.
• Internal MAC
Transmit Errors:
A count of frames for which transmission on a particular interface fails due to an
internal MAC sublayer transmit error.
• Multiple Collision
Frames:
A count of successfully transmitted frames for which transmission is inhibited by
more than one collision.
• Carrier Sense Errors:
• SQE Test Errors:
• Frames Too Long:
The number of times that the carrier sense condition was lost or never asserted
when attempting to transmit a frame.
A count of times that the SQE TEST ERROR message is generated by the PLS
sublayer for a particular interface.
A count of frames received on a particular interface that exceed the maximum
permitted frame size.
• Deferred Transmissions: A count of frames for which the first transmission attempt on a particular inter-
face is delayed because the medium was busy.
• Internal MAC
Receive Errors:
A count of frames for which reception on a particular interface fails due to an
internal MAC sublayer receive error.
RMON Statistics
• Drop Events:
The total number of events in which packets were dropped due to lack of
resources.
• Jabbers:
The total number of frames received that were longer than 1518 octets (exclud-
ing framing bits, but including FCS octets), and had either an FCS or alignment
error.
• Received Bytes:
Total number of bytes of data received on the network. This statistic can be used
as a reasonable indication of Ethernet utilization.
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Port Configuration
Port Statistics (Cont.)
RMON Statistics (Cont.)
• Collisions:
The best estimate of the total number of collisions on this Ethernet segment.
The total number of frames (bad, broadcast and multicast) received.
• Received Frames:
• Broadcast Frames:
The total number of good frames received that were directed to the broadcast
address. Note that this does not include multicast packets.
• Multicast Frames:
The total number of good frames received that were directed to this multicast
address.
• CRC/Alignment Errors:
• Undersize Frames:
The number of CRC/alignment errors (FCS or alignment errors).
The total number of frames received that were less than 64 octets long (exclud-
ing framing bits, but including FCS octets) and were otherwise well formed.
• Oversize Frames:
• Fragments:
The total number of frames received that were longer than 1518 octets (exclud-
ing framing bits, but including FCS octets) and were otherwise well formed.
The total number of frames received that were less than 64 octets in length
(excluding framing bits, but including FCS octets) and had either an FCS or
alignment error.
• 64 Bytes Frames:
The total number of frames (including bad packets) received and transmitted that
were 64 octets in length (excluding framing bits but including FCS octets).
• 65-127 Byte Frames:
• 128-255 Byte Frames:
• 256-511 Byte Frames:
• 512-1023 Byte Frames:
• 1024-1518 Byte Frames:
• 1519-1536 Byte Frames:
The total number of frames (including bad packets) received and transmitted
where the number of octets fall within the specified range (excluding framing bits
but including FCS octets).
Showing Port Statistics - Web
Click Port, Port Statistics. Select the required interface, and click Query. You can also use the Refresh button
at the bottom of the page to update the screen.
FIG. 106 Web - Displaying Port Statistics
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Port Configuration
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Power Over Ethernet (PoE) Settings
Power Over Ethernet (PoE) Settings
Overview
This switch can provide DC power to a wide range of connected devices, eliminating the need for an additional
power source and cutting down on the amount of cables attached to each device. Once configured to supply
power, an automatic detection process is initialized by the switch that is authenticated by a PoE signature from
the connected device. Detection and authentication prevent damage to non-802.3af compliant devices.
The switch’s power management enables total switch power and individual port power to be controlled within
a configured power budget. Port power can be automatically turned on and off for connected devices, and a
per-port power priority can be set so that the switch never exceeds its allocated power budget. When a device is
connected to a switch port, its power requirements are detected by the switch before power is supplied. If the
power required by a device exceeds the power budget of the port or the whole switch, power is not supplied.
Ports can be set to one of three power priority levels, critical, high, or low. To control the power supply within
the switch’s budget, ports set at critical or high priority have power enabled in preference to those ports set at
low priority. For example, when a device is connected to a port set to critical priority, the switch supplies the
required power, if necessary by dropping power to ports set for a lower priority. If power is dropped to some
low-priority ports and later the power demands on the switch fall back within its budget, the dropped power is
automatically restored.
Switch Power Status
Displays the current status of power parameters for the switch.
Command Attributes
• Maximum Available Power: The current configured power budget for the switch. (Default 375 watts)
• System Operation Status: The current operating PoE power status for the switch.
• Mainpower Consumption: The current amount of power being consumed by PoE devices connected to
the switch.
• Thermal Temperature:
• Software Version:
The current internal temperature of the switch.
The version of software running on the PoE controller subsystem in the
switch.
Switch Power Status - Web
Click PoE, then Power Status.
FIG. 108 Displaying the Global PoE Status
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Power Over Ethernet (PoE) Settings
Switch Power Status - CLI
This example displays the current power status for the switch.
Console#show power mainpower243
Unit 1 Mainpower Status
Maximum Available Power : 375 watts
System Operation Status : on
Mainpower Consumption
Software Version
Console#
: 0 watts
: Version 0x1B64, Build 0x07
Setting a Switch Power Budget
A maximum PoE power budget for the switch (power available to all switch ports) can be defined so that
power can be centrally managed, preventing overload conditions at the power source.
If the power demand from devices connected to the switch exceeds the power budget setting, the switch uses
port power priority settings to limit the supplied power.
Command Attributes
• Power Allocation:
The power budget for the switch. If devices connected to the switch require
more power than the switch budget, the port power priority settings are used
to control the supplied power.
• Range: 37 - 375 watts
• Default:375 Watts
Setting a Switch Power Budget - Web
Click PoE, Power Config. Specify the desired power budget for the switch. Click Apply.
FIG. 109 Web - Power Configuration
Setting a Switch Power Budget - CLI
CLI – Use the power mainpower maximum allocation command to set the PoE power budget for the switch.
Console(config)#power mainpower maximum allocation 200
Displaying Port Power Status
Use the Power Port Status page to display the current PoE power status for all ports.
Command Attributes
• Port:
The port number.
• Admin Status:
The administrative status of PoE power on the port.
• Default: Enabled
• Mode:
The current operating status of PoE power on the port. (On or off.)
• Power Allocation:
The configured power budget for the port.
• Range: 3000-15400 milliwatts
• Default: 15400 milliwatts
• Power Consumption:
• Priority:
The current power consumption on the port.
The port’s configured power priority setting.
• Options: Low, High, or Critical
• Default: Low
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Power Over Ethernet (PoE) Settings
Displaying Port Power Status - Web
Click PoE, followed by Power Port Status.
FIG. 110 Web - Power Port Status
Displaying Port Power Status - CLI
This example displays the PoE status and the priority of port 1.
Console#show power inline status
242
Interface Admin
Oper Power(mWatt) Power(used) Priority
---------- ------- ---- ------------ ------------ --------
Eth
Eth
Eth
Eth
Eth
Eth
Eth
.
1/ 1 enable off
1/ 2 enable off
15400
15400
15400
15400
15400
15400
15400
0
0
low
low
low
low
low
low
low
1/ 3 enable
on
7505
0
1/ 4 enable off
1/ 5 enable off
1/ 6 enable off
0
0
1/ 7 enable
on
8597
.
.
Eth
Eth
1/23 enable off
1/24 enable off
15400
15400
0
0
low
low
Console#
Configuring Port PoE Power
If a device is connected to a switch port and the switch detects that it requires more than the power budget of
the port, no power is supplied to the device (the port power remains off).
Power is dropped from low-priority ports in sequence starting from port number 1.
If the power demand from devices connected to switch ports exceeds the power budget set for the switch, the
port power priority settings are used to control the supplied power. For example:
ꢀ
If a device is connected to a low-priority port and causes the switch to exceed its budget, port power
is not turned on.
ꢀ
If a device is connected to a critical or high-priority port and causes the switch to exceed its budget,
port power is turned on, but the switch drops power to one or more lower-priority ports.
Command Attributes
• Port:
The port number on the switch.
• Admin Status:
Enables PoE power on the port. Power is automatically supplied when a device is
detected on the port, providing that the power demanded does not exceed the switch or
port power budget.
• Default: Enabled
• Priority:
Sets the power priority for the port.
• Options: Low, High, or Critical
• Default: Low
• Power Allocation: Sets the power budget for the port.
• Range: 3000- 15400 milliwatts
• Default: 15400 milliwatts
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Power Over Ethernet (PoE) Settings
Configuring Port PoE Power - Web
Click PoE, Power Port Configuration. Enable PoE power on selected ports, set the priority and the power
budget, and then click Apply.
FIG. 111 Web - Port Power Configuration
Configuring Port PoE Power - CLI
This example sets the PoE power budget for port 1 to 8 watts, the priority to high (2), and then enables the
power.
Console(config)#interface ethernet 1/1300
Console(config-if)#power inline maximum allocation 8000241
Console(config-if)#power inline priority 2241
Console(config-if)#power inline auto240
Console(config-if)#
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Address Table Settings
Address Table Settings
Overview
Switches store the addresses for all known devices. This information is used to route traffic directly between
the inbound and outbound ports. All the addresses learned by monitoring traffic are stored in the dynamic
address table. You can also manually configure static addresses that are bound to a specific port.
Setting Static Addresses
A static address can be assigned to a specific interface on this switch. Static addresses are bound to the
assigned interface and will not be moved. When a static address is seen on another interface, the address will
be ignored and will not be written to the address table.
Command Attributes
• Static Address The number of manually configured addresses.
Counts:
Web Only
• Current Static
Address Table:
Lists all the static addresses.
• Interface:
Port or trunk associated with the device assigned a static address.
• MAC Address: Physical address of a device mapped to this interface.
• VLAN: ID of configured VLAN (1-4094).
Setting Static Addresses - Web
Click Address Table, Static Addresses. Specify the interface, the MAC address and VLAN, then click Add
Static Address.
FIG. 112 Web -Configuring a Static Address Table
Setting Static Addresses - CLI
This example adds an address to the static address table, but sets it to be deleted when the switch is reset.
FIG. 113 CLI - Configuring a Static Address Table
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Address Table Settings
Displaying the Address Table
The Dynamic Address Table contains the MAC addresses learned by monitoring the source address for traffic
entering the switch. When the destination address for inbound traffic is found in the database, the packets
intended for that address are forwarded directly to the associated port. Otherwise, the traffic is flooded to all
ports.
Command Attributes
• Interface:
• MAC Address:
• VLAN:
Indicates a port or trunk.
Physical address associated with this interface.
ID of configured VLAN (1-4094).
• Address Table
Sort Key:
You can sort the information displayed based on interface (port or trunk) or MAC
address.
• Dynamic Address The number of addresses dynamically learned.
Counts:
• Current Dynamic Lists all the dynamic addresses.
Address Table:
Displaying the Address Table - Web
Click Address Table, Dynamic Addresses. Specify the search type (i.e., Interface, MAC Address, or VLAN),
the method of sorting the displayed addresses, then click Query.
FIG. 114 Web - Configuring a Dynamic Address Table
Displaying the Address Table - CLI
This example also displays the address table entries for port 11.
FIG. 115 CLI - Configuring a Dynamic Address Table
Changing the Aging Time
You can change the aging time for entries in the dynamic address table.
Command Attributes
• Aging Status:
• Aging Time:
Enables or disables the aging time.
The time after which a learned entry is discarded.
• Range: 10-1000000 seconds
• Default: 300 seconds)
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Address Table Settings
Changing the Aging Time - Web
Click Address Table, Address Aging. Specify the new aging time, click Apply.
FIG. 116 Web - Setting the Address Aging Time
Changing the Aging Time - CLI
This example sets the aging time to 300 seconds.
FIG. 117 CLI - Setting the Address Aging Time
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Address Table Settings
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Spanning Tree Algorithm Configuration
Spanning Tree Algorithm Configuration
Overview
The Spanning Tree Algorithm (STA) can be used to detect and disable network loops, and to provide backup
links between switches, bridges or routers. This allows the switch to interact with other bridging devices (that
is, an STA-compliant switch, bridge or router) in your network to ensure that only one route exists between
any two stations on the network, and provide backup links which automatically take over when a primary link
goes down.
The spanning tree algorithms supported by this switch include these versions:
ꢀ
ꢀ
STP – Spanning Tree Protocol (IEEE 802.1D)
RSTP – Rapid Spanning Tree Protocol (IEEE 802.1w)
STA uses a distributed algorithm to select a bridging device (STA-compliant switch, bridge or router) that
serves as the root of the spanning tree network. It selects a root port on each bridging device (except for the
root device) which incurs the lowest path cost when forwarding a packet from that device to the root device.
Then it selects a designated bridging device from each LAN which incurs the lowest path cost when
forwarding a packet from that LAN to the root device. All ports connected to designated bridging devices are
assigned as designated ports. After determining the lowest cost spanning tree, it enables all root ports and
designated ports, and disables all other ports.
Network packets are therefore only forwarded between root ports and designated ports, eliminating any
possible network loops.
Designated
Root
Root
Port
x
x
Designated
Port
x
Designated
Bridge
x
x
FIG. 118 Spanning Tree Algorithm Configuration
Once a stable network topology has been established, all bridges listen for Hello BPDUs (Bridge Protocol
Data Units) transmitted from the Root Bridge. If a bridge does not get a Hello BPDU after a predefined
interval (Maximum Age), the bridge assumes that the link to the Root Bridge is down. This bridge will then
initiate negotiations with other bridges to reconfigure the network to reestablish a valid network topology.
RSTP is designed as a general replacement for the slower, legacy STP. RSTP achieves must faster
reconfiguration (i.e., around one tenth of the time required by STP) by reducing the number of state changes
before active ports start learning, predefining an alternate route that can be used when a node or port fails, and
retaining the forwarding database for ports insensitive to changes in the tree structure when reconfiguration
occurs.
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Spanning Tree Algorithm Configuration
Displaying Global Settings
Field Attributes
• Spanning Tree State: Shows if the switch is enabled to participate in an STA-compliant network.
• Bridge ID:
A unique identifier for this bridge, consisting of the bridge priority and MAC address
(where the address is taken from the switch system).
• Max Age:
The maximum time (in seconds) a device can wait without receiving a configuration
message before attempting to reconfigure.
All device ports (except for designated ports) should receive configuration messages
at regular intervals.
Any port that ages out STA information (provided in the last configuration message)
becomes the designated port for the attached LAN.
If it is a root port, a new root port is selected from among the device ports attached to
the network.
Note: References to “ports” in this section mean “interfaces,” which includes both
ports and trunks.
• Hello Time:
Interval (in seconds) at which the root device transmits a configuration message.
• Forward Delay:
The maximum time (in seconds) the root device will wait before changing states (i.e.,
discarding to learning to forwarding). This delay is required because every device
must receive information about topology changes before it starts to forward frames.
In addition, each port needs time to listen for conflicting information that would make
it return to a discarding state; otherwise, temporary data loops might result.
• Designated Root:
The priority and MAC address of the device in the Spanning Tree that this switch has
accepted as the root device.
• Root Port – The number of the port on this switch that is closest to the root. This
switch communicates with the root device through this port. If there is no root port,
then this switch has been accepted as the root device of the Spanning Tree
network.
• Root Path Cost – The path cost from the root port on this switch to the root device.
The number of times the Spanning Tree has been reconfigured.
• Configuration
Changes:
• Last Topology
Change:
Time since the Spanning Tree was last reconfigured.
These additional parameters are only displayed for the CLI:
• Spanning tree mode: Specifies the type of spanning tree used on this switch:
• STP: Spanning Tree Protocol (IEEE 802.1D)
• RSTP: Rapid Spanning Tree (IEEE 802.1w)
• Priority:
Bridge priority is used in selecting the root device, root port, and designated port.
The device with the highest priority becomes the STA root device. However, if all
devices have the same priority, the device with the lowest MAC address will then
become the root device.
• Root Hello Time:
Interval (in seconds) at which this device transmits a configuration message.
• Root Maximum Age: The maximum time (in seconds) this device can wait without receiving a configura-
tion message before attempting to reconfigure.
All device ports (except for designated ports) should receive configuration messages
at regular intervals.
If the root port ages out STA information (provided in the last configuration mes-
sage), a new root port is selected from among the device ports attached to the net-
work.
Note: References to “ports” in this section means “interfaces,” which includes both
ports and trunks.
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Spanning Tree Algorithm Configuration
Field Attributes (Cont.)
• Root Forward Delay: The maximum time (in seconds) this device will wait before changing states (i.e., dis-
carding to learning to forwarding). This delay is required because every device must
receive information about topology changes before it starts to forward frames.
In addition, each port needs time to listen for conflicting information that would make
it return to a discarding state; otherwise, temporary data loops might result.
• Transmission limit:
• Path Cost Method:
The minimum interval between the transmission of consecutive RSTP BPDUs.
The path cost is used to determine the best path between devices. The path cost
method is used to determine the range of values that can be assigned to each
interface.
Displaying Global Settings - Web
Click Spanning Tree, STA Information.
FIG. 119 Web - Displaying Spanning Tree Information
This command displays global STA settings, followed by settings for each port.
FIG. 120 CLI - Displaying Spanning Tree Information
The current root port and current root cost display as zero when this device is not
connected to the network.
Configuring Global Settings
Global settings apply to the entire switch.
Command Usage
ꢀ
ꢀ
ꢀ
Spanning Tree Protocol
Uses RSTP for the internal state machine, but sends only 802.1D BPDUs.
Rapid Spanning Tree Protocol
RSTP supports connections to either STP or RSTP nodes by monitoring the incoming protocol
messages and dynamically adjusting the type of protocol messages the RSTP node transmits, as
described below:
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Spanning Tree Algorithm Configuration
STP and RSTP BPDUs are transmitted as untagged frames, and will cross any VLAN
boundaries.
ꢀ
ꢀ
STP Mode – If the switch receives an 802.1D BPDU (i.e., STP BPDU) after a port’s migration
delay timer expires, the switch assumes it is connected to an 802.1D bridge and starts using only
802.1D BPDUs.
RSTP Mode – If RSTP is using 802.1D BPDUs on a port and receives an RSTP BPDU after the
migration delay expires, RSTP restarts the migration delay timer and begins using RSTP BPDUs
on that port.
Command Attributes - Basic Configuration of Global Settings
• Spanning Tree State Enables/disables STA on this switch. (Default: Enabled)
• Spanning Tree Type Specifies the type of spanning tree used on this switch:
• STP: Spanning Tree Protocol (IEEE 802.1D; i.e., when this option is selected, the
switch will use RSTP set to STP forced compatibility mode)
• RSTP: Rapid Spanning Tree (IEEE 802.1w) RSTP is the default.
• Priority
Bridge priority is used in selecting the root device, root port, and designated port. The
device with the highest priority becomes the STA root device. However, if all devices
have the same priority, the device with the lowest MAC address will then become the
root device.
• Default: 32768
• Range: 0-61440, in steps of 4096
• Options: 0, 4096, 8192, 12288, 16384, 20480, 24576, 28672, 32768, 36864,
40960, 45056, 49152, 53248, 57344, 61440
Command Attributes - Root Device Configuration
• Hello Time:
Interval (in seconds) at which this device transmits a configuration message.
• Default: 2
• Minimum: 1
• Maximum: The lower of 10 or [(Max. Message Age / 2) -1]
• Maximum Age:
The maximum time (in seconds) a device can wait without receiving a configuration
message before attempting to reconfigure. All device ports (except for designated
ports) should receive configuration messages at regular intervals.
Any port that ages out STA information (provided in the last configuration message)
becomes the designated port for the attached LAN. If it is a root port, a new root port
is selected from among the device ports attached to the network.
Note: References to “ports” in this section mean “interfaces,” which includes both
ports and trunks.
• Default: 20
• Minimum: The higher of 6 or [2 x (Hello Time + 1)].
• Maximum: The lower of 40 or [2 x (Forward Delay - 1)]
• Forward Delay:
The maximum time (in seconds) this device will wait before changing states (i.e., dis-
carding to learning to forwarding). This delay is required because every device must
receive information about topology changes before it starts to forward frames. In
addition, each port needs time to listen for conflicting information that would make it
return to a discarding state; otherwise, temporary data loops might result.
• Default: 15
• Minimum: The higher of 4 or [(Max. Message Age / 2) + 1]
• Maximum: 30
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Spanning Tree Algorithm Configuration
Configuration Settings for RSTP
Note: The following attributes apply to both STP and RSTP.
• Path Cost Method:
The path cost is used to determine the best path between devices. The path cost
method is used to determine the range of values that can be assigned to each inter-
face.
• Long: Specifies 32-bit based values that range from 1-200,000,000.
• Short: Specifies 16-bit based values that range from 1-65535.
• Transmission Limit: The maximum transmission rate for BPDUs is specified by setting the minimum inter-
val between the transmission of consecutive protocol messages.
• Range: 1-10
• Default: 3
Configuring Global Settings - Web
Click Spanning Tree, STA Configuration. Modify the required attributes, and click Apply.
FIG. 121 Web - Configuring Spanning Tree
Configuring Global Settings - CLI
This example enables Spanning Tree Protocol, and then sets the indicated attributes.
FIG. 122 Web - Configuring Spanning Tree
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Spanning Tree Algorithm Configuration
Displaying Interface Settings
The STP Port Information and STP Trunk Information pages display the current status of ports and trunks in
the Spanning Tree.
Command Attributes
Note: The following attributes are read-only and cannot be changed:
• Spanning Tree:
• STA Status:
Shows if STA has been enabled on this interface.
Displays current state of this port within the Spanning Tree:
• Discarding - Port receives STA configuration messages, but does not forward
packets.
• Learning - Port has transmitted configuration messages for an interval set by the
Forward Delay parameter without receiving contradictory information. Port
address table is cleared, and the port begins learning addresses.
• Forwarding - Port forwards packets, and continues learning addresses.
The rules defining port status are:
• A port on a network segment with no other STA compliant bridging device is always
forwarding.
• If two ports of a switch are connected to the same segment and there is no other
STA device attached to this segment, the port with the smaller ID forwards packets
and the other is discarding.
• All ports are discarding when the switch is booted, then some of them change state
to learning, and then to forwarding.
• Forward Transitions: The number of times this port has changed from the Learning state to the Forward-
ing state.
• Designated Cost:
• Designated Bridge:
• Designated Port:
• Oper Link Type:
The cost for a packet to travel from this port to the root in the current Spanning Tree
configuration. The slower the media, the higher the cost.
The bridge priority and MAC address of the device through which this port must com-
municate to reach the root of the Spanning Tree.
The port priority and number of the port on the designated bridging device through
which this switch must communicate with the root of the Spanning Tree.
The operational point-to-point status of the LAN segment attached to this interface.
This parameter is determined by manual configuration or by auto-detection, as
described for Admin Link Type in STA Port Configuration on page 120.
• Oper Edge Port:
• Port Role:
This parameter is initialized to the setting for Admin Edge Port in STA Port Configu-
indicating that another bridge is attached to this port.
Roles are assigned according to whether the port is part of the active topology con-
necting the bridge to the root bridge (i.e., root port), connecting a LAN through the
bridge to the root bridge (i.e., designated port), or is an alternate or backup port that
may provide connectivity if other bridges, bridge ports, or LANs fail or are removed.
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Spanning Tree Algorithm Configuration
Command Attributes (Cont.)
• Port Role (Cont.)
The role is set to disabled (i.e., disabled port) if a port has no role within the spanning
tree.
R: Root Port
Alternate port receives more
useful BPDUs from another
bridge and is therefore not
selected as the designated
port.
A: Alternate Port
D: Designated Port
B: Backup Port
R
A
R
D
B
x
Backup port receives more
useful BPDUs from the same
bridge and is therefore not
selected as the designated
port.
R
R
A
D
B
x
• Trunk Member:
Indicates if a port is a member of a trunk. (STA Port Information only)
These additional parameters are only displayed for the CLI:
• Admin Status:
• Path Cost:
Shows if this interface is enabled.
This parameter is used by the STA to determine the best path between devices.
Therefore, lower values should be assigned to ports attached to faster media, and
higher values assigned to ports with slower media. (Path cost takes precedence over
port priority.)
• Priority:
Defines the priority used for this port in the Spanning Tree Algorithm. If the path cost
for all ports on a switch is the same, the port with the highest priority (i.e., lowest
value) will be configured as an active link in the Spanning Tree. This makes a port
with higher priority less likely to be blocked if the Spanning Tree Algorithm is detect-
ing network loops.
Where more than one port is assigned the highest priority, the port with lowest
numeric identifier will be enabled.
• Designated root:
• Fast forwarding:
• Admin Edge Port:
The priority and MAC address of the device in the Spanning Tree that this switch has
accepted as the root device.
This field provides the same as Admin Edge port, and is only included for backward
compatibility with earlier products.
You can enable this option if an interface is attached to a LAN segment that is at the
end of a bridged LAN or to an end node. Since end nodes cannot cause forwarding
loops, they can pass directly through to the spanning tree forwarding state.
Specifying Edge Ports provides quicker convergence for devices such as worksta-
tions or servers, retains the current forwarding database to reduce the amount of
frame flooding required to rebuild address tables during reconfiguration events, does
not cause the spanning tree to initiate reconfiguration when the interface changes
state, and also overcomes other STA-related timeout problems. However, remember
that Edge Port should only be enabled for ports connected to an end-node device.
• Admin Link Type:
The link type attached to this interface.
• Point-to-Point – A connection to exactly one other bridge.
• Shared – A connection to two or more bridges.
• Auto – The switch automatically determines if the interface is attached to a point-
to-point link or to shared media.
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Spanning Tree Algorithm Configuration
Displaying Interface Settings - Web
Click Spanning Tree, STA Port Information or STA Trunk Information.
FIG. 123 Web - Displaying Spanning Tree Information
Displaying Interface Settings - CLI
This example shows general STA configuration and attributes for port 5.
FIG. 124 CLI - Displaying Spanning Tree Information
Configuring Interface Settings
You can configure RSTP attributes for specific interfaces, including port priority, path cost, link type, and edge
port. You may use a different priority or path cost for ports of the same media type to indicate the preferred
path, link type to indicate a point-to-point connection or shared-media connection, and edge port to indicate if
the attached device can support fast forwarding. (References to “ports” in this section means “interfaces,”
which includes both ports and trunks.)
Command Attributes
Note: The following attributes are read-only and cannot be changed:
• Port:
Ports only; i.e., no trunks or trunk port members.
• STA State:
Displays current state of this port within the Spanning Tree:
• Discarding - Port receives STA configuration messages, but does not forward packets.
• Learning - Port has transmitted configuration messages for an interval set by the
Forward Delay parameter without receiving contradictory information. Port address
table is cleared, and the port begins learning addresses.
• Forwarding - Port forwards packets, and continues learning addresses.
Indicates if a port is a member of a trunk. (STA Port Configuration only)
• Trunk:
The following interface attributes can be configured:
• Spanning Tree: Enables/disables spanning tree on a port.
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Spanning Tree Algorithm Configuration
Command Attributes (Cont.)
• Priority:
Defines the priority used for this port in the Spanning Tree Protocol. If the path cost for
all ports on a switch are the same, the port with the highest priority (i.e., lowest value)
will be configured as an active link in the Spanning Tree. This makes a port with higher
priority less likely to be blocked if the Spanning Tree Protocol is detecting network loops.
Where more than one port is assigned the highest priority, the port with lowest numeric
identifier will be enabled.
• Default: 128
• Range: 0-240, in steps of 16
• Path Cost:
This parameter is used by the STP to determine the best path between devices. There-
fore, lower values should be assigned to ports attached to faster media, and higher val-
ues assigned to ports with slower media. (Path cost takes precedence over port priority.)
Note that when the Path Cost Method is set to short (page 330), the maximum path cost
is 65,535.
• Range:
• Ethernet: 200,000-20,000,000
• Fast Ethernet: 20,000-2,000,000
• Gigabit Ethernet: 2,000-200,000
• Default:
• Ethernet – Half duplex: 2,000,000; full duplex: 1,000,000; trunk: 500,000
• Fast Ethernet – Half duplex: 200,000; full duplex: 100,000; trunk: 50,000
• Gigabit Ethernet – Full duplex: 10,000; trunk: 5,000
• Admin Link Type: The link type attached to this interface.
• Point-to-Point – A connection to exactly one other bridge.
• Shared – A connection to two or more bridges.
• Auto – The switch automatically determines if the interface is attached to a point-to-
point link or to shared media. (This is the default setting.)
• Admin Edge Port You can enable this option if an interface is attached to a LAN segment that is at the end
(Fast Forwarding): of a bridged LAN or to an end node. Since end nodes cannot cause forwarding loops,
they can pass directly through to the spanning tree forwarding state.
Specifying Edge Ports provides quicker convergence for devices such as workstations
or servers, retains the current forwarding database to reduce the amount of frame flood-
ing required to rebuild address tables during reconfiguration events, does not cause the
spanning tree to initiate reconfiguration when the interface changes state, and also over-
comes other STA-related timeout problems. However, remember that Edge Port should
only be enabled for ports connected to an end-node device. (Default: Disabled)
• Migration:
If at any time the switch detects STP BPDUs, including Configuration or Topology
Change Notification BPDUs, it will automatically set the selected interface to forced
STP-compatible mode. However, you can also use the Protocol Migration button to
manually re-check the appropriate BPDU format (RSTP or STP-compatible) to send on
the selected interfaces.
• Default: Disabled
Configuring Interface Settings - Web
Click Spanning Tree, STA Port Configuration or STA Trunk Configuration. Modify the required attributes,
then click Apply.
FIG. 125 Web - Configuring Spanning Tree per Port
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VLAN Configuration
VLAN Configuration
Overview - IEEE 802.1Q VLANs
In large networks, routers are used to isolate broadcast traffic for each subnet into separate domains. This
switch provides a similar service at Layer 2 by using VLANs to organize any group of network nodes into
separate broadcast domains. VLANs confine broadcast traffic to the originating group, and can eliminate
broadcast storms in large networks. This also provides a more secure and cleaner network environment.
An IEEE 802.1Q VLAN is a group of ports that can be located anywhere in the network, but communicate as
though they belong to the same physical segment.
VLANs help to simplify network management by allowing you to move devices to a new VLAN without
having to change any physical connections. VLANs can be easily organized to reflect departmental groups
(such as Marketing or R&D), usage groups (such as e-mail), or multicast groups (used for multimedia
applications such as MAX).
VLANs provide greater network efficiency by reducing broadcast traffic, and allow you to make network
changes without having to update IP addresses or IP subnets. VLANs inherently provide a high level of
network security since traffic must pass through a configured Layer 3 link to reach a different VLAN.
This switch supports the following VLAN features:
ꢀ
ꢀ
Up to 255 VLANs based on the IEEE 802.1Q standard
Distributed VLAN learning across multiple switches using explicit or implicit tagging and GVRP
protocol
ꢀ
ꢀ
ꢀ
ꢀ
Port overlapping, allowing a port to participate in multiple VLANs
End stations can belong to multiple VLANs
Passing traffic between VLAN-aware and VLAN-unaware devices
Priority tagging
Assigning Ports to VLANs
Before enabling VLANs for the switch, you must first assign each port to the VLAN group(s) in which it will
participate. By default all ports are assigned to VLAN 1 as untagged ports.
Add a port as a tagged port if you want it to carry traffic for one or more VLANs, and any intermediate
network devices or the host at the other end of the connection supports VLANs. Then assign ports on the other
VLAN-aware network devices along the path that will carry this traffic to the same VLAN(s), either manually
or dynamically using GVRP. However, if you want a port on this switch to participate in one or more VLANs,
but none of the intermediate network devices nor the host at the other end of the connection supports VLANs,
then you should add this port to the VLAN as an untagged port.
VLAN-tagged frames can pass through VLAN-aware or VLAN-unaware network interconnection devices, but
the VLAN tags should be stripped off before passing it on to any end-node host that does not support VLAN
tagged frames
VA
VA
VA: VLAN Aware
VU: VLAN Unaware
tagged
frames
untagged
frames
VA
VA
VU
FIG. 127 Assigning Ports to VLANs
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VLAN Configuration
ꢀ
ꢀ
ꢀ
VLAN Classification – When the switch receives a frame, it classifies the frame in one of two
ways. If the frame is untagged, the switch assigns the frame to an associated VLAN (based on the
default VLAN ID of the receiving port). But if the frame is tagged, the switch uses the tagged
VLAN ID to identify the port broadcast domain of the frame.
Port Overlapping – Port overlapping can be used to allow access to commonly shared network
resources among different VLAN groups, such as file servers or printers. Note that if you
implement VLANs which do not overlap, but still need to communicate, you can connect them by
enabled routing on this switch.
Untagged VLANs – Untagged (or static) VLANs are typically used to reduce broadcast traffic and
to increase security. A group of network users assigned to a VLAN form a broadcast domain that is
separate from other VLANs configured on the switch. Packets are forwarded only between ports
that are designated for the same VLAN. Untagged VLANs can be used to manually isolate user
groups or subnets. However, you should use IEEE 802.3 tagged VLANs with GVRP whenever
possible to fully automate VLAN registration.
ꢀ
Automatic VLAN Registration – GVRP (GARP VLAN Registration Protocol) defines a system
whereby the switch can automatically learn the VLANs to which each end station should be
assigned. If an end station (or its network adapter) supports the IEEE 802.1Q VLAN protocol, it
can be configured to broadcast a message to your network indicating the VLAN groups it wants to
join. When this switch receives these messages, it will automatically place the receiving port in the
specified VLANs, and then forward the message to all other ports. When the message arrives at
another switch that supports GVRP, it will also place the receiving port in the specified VLANs,
and pass the message on to all other ports. VLAN requirements are propagated in this way
throughout the network. This allows GVRP-compliant devices to be automatically configured for
VLAN groups based solely on endstation requests.
To implement GVRP in a network, first add the host devices to the required VLANs (using the
operating system or other application software), so that these VLANs can be propagated onto the
network. For both the edge switches attached directly to these hosts, and core switches in the
network, enable GVRP on the links between these devices. You should also determine security
boundaries in the network and disable GVRP on ports to prevent advertisements being propagated,
or forbid ports from joining restricted VLANs.
If you have host devices that do not support GVRP, you should configure static or untagged
VLANs for the switch ports connected to these devices (as described in the Adding Static Members
switches, as well as on the core switches in the network (FIG. 128).
Port-based VLAN
2
1
9
3
4
5
6
7
8
13
14
18
19
10 11
15 16
12
FIG. 128 Security Boundaries
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VLAN Configuration
Forwarding Tagged/Untagged Frames
If you want to create a small port-based VLAN for devices attached directly to a single switch, you can assign
ports to the same untagged VLAN. However, to participate in a VLAN group that crosses several switches,
you should create a VLAN for that group and enable tagging on all ports.
Ports can be assigned to multiple tagged or untagged VLANs. Each port on the switch is therefore capable of
passing tagged or untagged frames. When forwarding a frame from this switch along a path that contains any
VLAN-aware devices, the switch should include VLAN tags. When forwarding a frame from this switch along
a path that does not contain any VLAN-aware devices (including the destination host), the switch must first
strip off the VLAN tag before forwarding the frame. When the switch receives a tagged frame, it will pass this
frame onto the VLAN(s) indicated by the frame tag. However, when this switch receives an untagged frame
from a VLAN-unaware device, it first decides where to forward the frame, and then inserts a VLAN tag
reflecting the ingress port’s default VID.
Enabling or Disabling GVRP (Global Setting)
GARP VLAN Registration Protocol (GVRP) defines a way for switches to exchange VLAN information in
order to register VLAN members on ports across the network. VLANs are dynamically configured based on
join messages issued by host devices and propagated throughout the network. GVRP must be enabled to
permit automatic VLAN registration, and to support VLANs which extend beyond the local switch. (Default:
Disabled).
Enabling or Disabling GVRP - Web
Click VLAN, 802.1Q VLAN, GVRP Status. Enable or disable GVRP, and click Apply.
FIG. 129 Web - Enabling GVRP
Enabling or Disabling GVRP - CLI
This example enables GVRP for the switch.
FIG. 130 CLI - Enabling GVRP
Displaying Basic VLAN Information
The VLAN Basic Information page displays basic information on the VLAN type supported by the switch.
Field Attributes
• VLAN Version
Number:
The VLAN version used by this switch as specified in the IEEE 802.1Q standard.
Web only.
• Maximum VLAN ID:
Maximum VLAN ID recognized by this switch.
• Maximum Number
of Supported VLANs
Maximum number of VLANs that can be configured on this switch.
Displaying Basic VLAN Information - Web
Click VLAN, 802.1Q VLAN, VLAN Base Information.
FIG. 131 Web - Displaying Basic VLAN information
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VLAN Configuration
Displaying Basic VLAN Information - CLI
Enter the following command.
FIG. 132 CLI - Displaying Basic VLAN information
Displaying Current VLANs
The VLAN Current Table shows the current port members of each VLAN and whether or not the port supports
VLAN tagging. Ports assigned to a large VLAN group that crosses several switches should use VLAN
tagging. However, if you just want to create a small port-based VLAN for one or two switches, you can disable
tagging.
Command Attributes - Web
• VLAN ID:
ID of configured VLAN (1-4094).
• Up Time at Creation: Time this VLAN was created (i.e., System Up Time).
• Status
Shows how this VLAN was added to the switch.
• Dynamic GVRP: Automatically learned via GVRP.
• Permanent: Added as a static entry.
• Egress Ports:
Shows all the VLAN port members.
• Untagged Ports:
Shows the untagged VLAN port members.
Displaying Current VLANs - Web
Click VLAN, 802.1Q VLAN, Current Table. Select any ID from the scroll-down list.
FIG. 133 Web - Displaying Current VLANs
Command Attributes - CLI
• VLAN:
• Type:
ID of configured VLAN (1-4094, no leading zeroes).
Shows how this VLAN was added to the switch.
• Dynamic: Automatically learned via GVRP.
• Static: Added as a static entry.
• Name:
Name of the VLAN (1 to 32 characters).
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VLAN Configuration
• Status:
Shows if this VLAN is enabled or disabled.
• Active: VLAN is operational.
• Suspend: VLAN is suspended; i.e., does not pass packets.
• Ports / Channel Groups: Shows the VLAN interface members.
Displaying Current VLANs - CLI
Current VLAN information can be displayed with the following command.
FIG. 134 CLI - Displaying Current VLANs
Creating VLANs
Use the VLAN Static List to create or remove VLAN groups. To propagate information about VLAN groups
used on this switch to external network devices, you must specify a VLAN ID for each of these groups.
Command Attributes
• Current:
Lists all the current VLAN groups created for this system. Up to 255 VLAN groups can be
defined. VLAN 1 is the default untagged VLAN.
• New:
Allows you to specify the name and numeric identifier for a new VLAN group. (The VLAN
name is only used for management on this system; it is not added to the VLAN tag.)
• VLAN ID:
ID of configured VLAN (1-4094, no leading zeroes).
• VLAN Name: Name of the VLAN (1 to 32 characters).
• Status (Web): Enables or disables the specified VLAN.
• Enable: VLAN is operational.
• Disable: VLAN is suspended; i.e., does not pass packets.
Enables or disables the specified VLAN.
• State (CLI):
• Active: VLAN is operational.
• Suspend: VLAN is suspended; i.e., does not pass packets.
• Add:
Adds a new VLAN group to the current list.
• Remove:
Removes a VLAN group from the current list. If any port is assigned to this group as
untagged, it will be reassigned to VLAN group 1 as untagged.
Creating VLANs - Web
Click VLAN, 802.1Q VLAN, Static List. To create a new VLAN, enter the VLAN ID and VLAN name, mark
the Enable checkbox to activate the VLAN, and then click Add.
FIG. 135 Web - Configuring a VLAN Static List
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VLAN Configuration
Creating VLANs - CLI
This example creates a new VLAN.
FIG. 136 CLI - Configuring a VLAN Static List
Adding Static Members to VLANs (VLAN Index)
Use the VLAN Static Table to configure port members for the selected VLAN index.
Assign ports as tagged if they are connected to 802.1Q VLAN compliant devices, or untagged they are not
connected to any VLAN-aware devices. Or configure a port as forbidden to prevent the switch from
automatically adding it to a VLAN via the GVRP protocol.
1. You can also use the VLAN Static Membership by Port page to configure VLAN groups based on the
port index (page 129). However, note that this configuration page can only add ports to a VLAN as tagged
members.
2. VLAN 1 is the default untagged VLAN containing all ports on the switch, and can only be modified by
first reassigning the default port VLAN ID as described under Configuring VLAN Behavior for
Command Attributes
• VLAN:
• Name:
• Status:
ID of configured VLAN (1-4094, no leading zeroes).
Name of the VLAN (1 to 32 characters).
Enables or disables the specified VLAN.
• Enable: VLAN is operational.
• Disable: VLAN is suspended; i.e., does not pass packets.
• Port:
Port identifier.
• Trunk:
Trunk identifier.
• Membership Type: Select VLAN membership for each interface by marking the appropriate radio button
for a port or trunk:
• Tagged: Interface is a member of the VLAN. All packets transmitted by the port will be
tagged, that is, carry a tag and therefore carry VLAN or CoS information.
• Untagged: Interface is a member of the VLAN. All packets transmitted by the port will
be untagged, that is, not carry a tag and therefore not carry VLAN or CoS
information. Note that an interface must be assigned to at least one group as an
untagged port.
• Forbidden: Interface is forbidden from automatically joining the VLAN via GVRP. For
more information, see Automatic VLAN Registration on page 124.
• None: Interface is not a member of the VLAN. Packets associated with this VLAN will
not be transmitted by the interface.
• Trunk Member:
Indicates if a port is a member of a trunk. To add a trunk to the selected VLAN, use the
last table on the VLAN Static Table page.
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VLAN Configuration
Adding Static Members to VLANs - Web
Click VLAN, 802.1Q VLAN, Static Table. Select a VLAN ID from the scroll-down list. Modify the VLAN
name and status if required. Select the membership type by marking the appropriate radio button in the list of
ports or trunks. Click Apply.
FIG. 137 Web - Configuring a VLAN Static Table
Adding Static Members to VLANs - CLI
The following example adds tagged and untagged ports to VLAN 2.
FIG. 138 CLI - Configuring a VLAN Static Table
Adding Static Members to VLANs (Port Index)
Use the VLAN Static Membership by Port menu to assign VLAN groups to the selected interface as a tagged
member.
Command Attributes
• Interface:
• Member:
Port or trunk identifier.
VLANs for which the selected interface is a tagged member.
• Non-Member: VLANs for which the selected interface is not a tagged member.
Adding Static Members to VLANs - Web
Click VLAN, 802.1Q VLAN, VLAN Static Membership. Select an interface from the scroll-down box (Port or
Trunk). Click Query to display membership information for the interface. Select a VLAN ID, and then click
Add to add the interface as a tagged member, or click Remove to remove the interface.
After configuring VLAN membership for each interface, click Apply.
FIG. 139 Web - VLAN Static Membership by Port
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VLAN Configuration
Adding Static Members to VLANs - CLI
This example adds Port 3 to VLAN 1 as a tagged port, and removes Port 3 from VLAN 2.
FIG. 140 CLI - VLAN Static Membership by Port
Configuring VLAN Behavior for Interfaces
You can configure VLAN behavior for specific interfaces, including the default VLAN identifier (PVID),
accepted frame types, ingress filtering, GVRP status, and GARP timers.
Command Usage
ꢀ
ꢀ
GVRP – GARP VLAN Registration Protocol defines a way for switches to exchange VLAN
information in order to automatically register VLAN members on interfaces across the network.
GARP – Group Address Registration Protocol is used by GVRP and GMRP to register or
deregister client attributes for client services within a bridged LAN. The default values for the
GARP timers are independent of the media access method or data rate. These values should not be
changed unless you are experiencing difficulties with GMRP or GVRP registration/deregistration.
Command Attributes
• PVI:
VLAN ID assigned to untagged frames received on the interface.
• Default: 1
• If an interface is not a member of VLAN 1 and you assign its PVID to this VLAN, the
interface will automatically be added to VLAN 1 as an untagged member. For all
other VLANs, an interface must first be configured as an untagged member before
you can assign its PVID to that group.
• Acceptable Frame
Type:
Sets the interface to accept all frame types, including tagged or untagged frames, or
only tagged frames.
When set to receive all frame types, any received frames that are untagged are
assigned to the default VLAN.
• Option: All, Tagged
• Default: All
• Ingress Filtering:
If ingress filtering is enabled, incoming frames for VLANs which do not include this
ingress port in their member set will be discarded at the ingress port. However, they
do affect VLAN dependent BPDU frames, such as GMRP.(Default: Disabled)
• Ingress filtering only affects tagged frames.
• If ingress filtering is disabled and a port receives frames tagged for VLANs for which
it is not a member, these frames will be flooded to all other ports (except for those
VLANs explicitly forbidden on this port).
• If ingress filtering is enabled and a port receives frames tagged for VLANs for which
it is not a member, these frames will be discarded.
•
Ingress filtering does not affect VLAN independent BPDU frames, such as GVRP or
STP. However, they do affect VLAN dependent BPDU frames, such as GMRP.
• GVRP Status:
Enables/disables GVRP for the interface. GVRP must be globally enabled for the
switch before this setting can take effect. (See the Displaying Bridge Extension
When disabled, any GVRP packets received on this port will be discarded and no
GVRP registrations will be propagated from other ports.
• Default: Disabled
• GARP Join Timer:
The interval between transmitting requests/queries to participate in a VLAN group.
• Range: 20-1000 centiseconds
• Default: 20
• Timer settings must follow this rule: 2 x (join timer) < leave timer < leaveAll timer
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VLAN Configuration
Command Attributes (Cont.)
• GARP Leave Timer: The interval a port waits before leaving a VLAN group. This time should be set to more
than twice the join time. This ensures that after a Leave or LeaveAll message has
been issued, the applicants can rejoin before the port actually leaves the group.
• Range: 60-3000 centiseconds
• Default: 60
• Timer settings must follow this rule: 2 x (join timer) < leave timer < leaveAll timer
• GARP LeaveAll
Timer:
The interval between sending out a LeaveAll query message for VLAN group partici-
pants and the port leaving the group. This interval should be considerably larger than
the Leave Time to minimize the amount of traffic generated by nodes rejoining the
group.
• Range: 500-18000 centiseconds
• Default: 1000
• Timer settings must follow this rule: 2 x (join timer) < leave timer < leaveAll timer
• Mode:
Indicates VLAN membership mode for an interface. (Default: 1Q Trunk)
• 1Q Trunk – Specifies a port as an end-point for a VLAN trunk. A trunk is a direct link
between two switches, so the port transmits tagged frames that identify the source
VLAN. Note that frames belonging to the port’s default VLAN (i.e., associated with
the PVID) are also transmitted as tagged frames.
• Hybrid – Specifies a hybrid VLAN interface. The port may transmit tagged or
untagged frames.
• Trunk Member:
Indicates if a port is a member of a trunk. To add a trunk to the selected VLAN, use the
last table on the VLAN Static Table page.
Configuring VLAN Behavior for Interfaces - Web
Click VLAN, 802.1Q VLAN, Port Configuration or Trunk Configuration. Fill in the required settings for each
interface, click Apply.
FIG. 141 Web - Configuring VLANs per Port
Configuring VLAN Behavior for Interfaces - CLI
This example sets port 1 to accept only tagged frames, assigns PVID 3 as the native VLAN ID, enables GVRP,
sets the GARP timers, and then sets the switchport mode to hybrid.
FIG. 142 CLI - Configuring VLANs per Port
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VLAN Configuration
Private VLANs
Private VLANs provide port-based security and isolation between ports within the assigned VLAN. This
switch supports two types of private VLAN ports: promiscuous, and community ports. A promiscuous port can
communicate with all interfaces within a private VLAN. Community ports can only communicate with other
ports in their own community VLAN, and with their designated promiscuous ports. (Note that private VLANs
and normal VLANs can exist simultaneously within the same switch.)
Each private VLAN consists of two components: a primary VLAN and one or more community VLANs. A
primary VLAN allows traffic to pass between promiscuous ports, and between promiscuous ports and
community ports subordinate to the primary VLAN. A community VLAN conveys traffic between community
ports, and from the community ports to their associated promiscuous ports. Multiple primary VLANs can be
configured on this switch, and multiple community VLANs can be configured within each primary VLAN.
To configure private VLANs, follow these steps:
the primary VLAN that will channel traffic outside of the community groups.
2. Use the Private VLAN Association menu (page 133) to map the secondary (i.e., community) VLAN(s) to
the primary VLAN.
3. Use the Private VLAN Port Configuration menu (page 135) to set the port type to promiscuous (i.e.,
having access to all ports in the primary VLAN) or host (i.e., having access restricted to community
VLAN members, and channeling all other traffic through a promiscuous port). Then assign any
promiscuous ports to a primary VLAN and any host ports a secondary VLAN (i.e., community VLAN).
Displaying Current Private VLANs
The Private VLAN Information page displays information on the private VLANs configured on the switch,
including primary and community VLANs, and their associated interfaces.
Command Attributes
• VLAN ID:
ID of configured VLAN (1-4093, no leading zeroes).
• Primary VLAN: The primary VLAN with which the selected VLAN is associated. (Note that this displays as
VLAN 0 if the selected VLAN is itself a primary VLAN.)
• Ports List:
The list of ports (and assigned type) in the selected private VLAN.
Displaying Current Private VLANs - Web
Click Private VLAN, Private VLAN Information. Select the desired port from the VLAN ID drop-down menu.
FIG. 143 Web - Private VLAN Information
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VLAN Configuration
Displaying Current Private VLANs - CLI
This example shows the switch configured with primary VLAN 5 and secondary VLAN 6. Port 3 has been
configured as a promiscuous port and mapped to VLAN 5, while ports 4 and 5 have been configured as a host
ports and are associated with VLAN 6. This means that traffic for port 4 and 5 can only pass through port 3.
FIG. 144 CLI - Private VLAN Information
Configuring Private VLANs
The Private VLAN Configuration page is used to create/remove primary or community VLANs.
Command Attributes
• VLAN ID: ID of configured VLAN (1-4094, no leading zeroes).
• Type:
There are two types of VLANs within a private VLAN:
• Primary VLANs - Conveys traffic between promiscuous ports, and to community ports within
secondary VLANs.
• Community VLANs - Conveys traffic between community ports, and to their associated
promiscuous ports.
• Current: Displays a list of the currently configured VLANs.
Configuring Private VLANs - Web
Click Private VLAN, Private VLAN Configuration. Enter the VLAN ID number, select Primary or
Community type, then click Add. To remove a private VLAN from the switch, highlight an entry in the
Current list box and then click Remove.
Note that all member ports must be removed from the VLAN before it can be deleted.
FIG. 145 Web - Private VLAN Configuration
Configuring Private VLANs - CLI
This example configures VLAN 5 as a primary VLAN, and VLAN 6 and 7 as community VLANs.
FIG. 146 CLI - Private VLAN Configuration
Associating Community VLANs
Each community VLAN must be associated with a primary VLAN.
Command Attributes
• Primary VLAN ID: ID of primary VLAN (1-4094, no leading zeroes).
• Association:
Community VLANs associated with the selected primary VLAN.
• Non-Association: Community VLANs not associated with the selected primary VLAN.
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VLAN Configuration
Associating Community VLANs - Web
Click Private VLAN, Private VLAN Association. Select the required primary VLAN from the scroll-down
box, highlight one or more community VLANs in the Non-Association list box, and click Add to associate
these entries with the selected primary VLAN.
A community VLAN can only be associated with one primary VLAN.
FIG. 147 Web - Private VLAN Association
Associating Community VLANs - CLI
This example associates community VLANs 6 and 7 with primary VLAN 5.
FIG. 148 CLI - Private VLAN Association
Displaying Private VLAN Interface Information
Use the Private VLAN Port Information and Private VLAN Trunk Information menus to display the interfaces
associated with private VLANs.
Command Attributes
• Port/Trunk:
The switch interface.
• PVLAN Port
Type:
Displays private VLAN port types.
• Normal – The port is not configured in a private VLAN.
• Host – The port is a community port and can only communicate with other ports in its
own community VLAN, and with the designated promiscuous port(s).
• Promiscuous – A promiscuous port can communicate with all the interfaces within a
private VLAN.
• Primary VLAN:
Conveys traffic between promiscuous ports, and between promiscuous ports and com-
munity ports within the associated secondary VLANs.
• Secondary
VLAN:
On this switch all secondary VLANs are community VLANs. A community VLAN con-
veys traffic between community ports, and from community ports to their designated pro-
miscuous ports.
• Trunk:
The trunk identifier. (Private VLAN Port Information only)
Displaying Private VLAN Interface Information - Web
Click Private VLAN, Private VLAN Port Information or Private VLAN Trunk Information.
FIG. 149 Web - Displaying Private VLAN Port Information
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VLAN Configuration
Displaying Private VLAN Interface Information - CLI
This example shows the switch configured with primary VLAN 5 and secondary VLAN 6. Port 3 has been
configured as a promiscuous port and mapped to VLAN 5, while ports 4 and 5 have been configured as a host
ports and associated with VLAN 6. This means that traffic for port 4 and 5 can only pass through port 3.
FIG. 150 CLI - Displaying Private VLAN Port Information
Configuring Private VLAN Interfaces
Use the Private VLAN Port Configuration and Private VLAN Trunk Configuration menus to set the private
VLAN interface type, and associate the interfaces with a private VLAN.
Command Attributes
• Port/Trunk:
The switch interface.
• PVLAN Port
Type:
Sets the private VLAN port types.
• Normal – The port is not configured into a private VLAN.
• Host – The port is a community port and can only communicate with other ports in its
own community VLAN, and with the designated promiscuous port(s).
• Promiscuous – A promiscuous port can communicate with all interfaces within a
private VLAN.
• Primary VLAN:
Conveys traffic between promiscuous ports, and between promiscuous ports and com-
munity ports within the associated secondary VLANs. If PVLAN type is “Promiscuous,”
then specify the associated primary VLAN. For “Host” type, the Primary VLAN displayed
is the one to which the selected secondary VLAN has been associated.
• Secondary
VLAN:
On this switch, all secondary VLANs are community VLANs. A community VLAN con-
veys traffic between community ports, and from community ports to their designated pro-
miscuous ports. If PVLAN Port Type is “Host,” then specify the associated secondary
VLAN.
Configuring Private VLAN Interfaces - Web
Click Private VLAN, Private VLAN Port Configuration or Private VLAN Trunk Configuration. Set the
PVLAN Port Type for each port that will join a private VLAN. For promiscuous ports, set the associated
primary VLAN. For host ports, set the associated secondary VLAN. After all the ports have been configured,
click Apply.
FIG. 151 Web - Private VLAN Port Configuration
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VLAN Configuration
Configuring Private VLAN Interfaces - CLI
This example shows the switch configured with primary VLAN 5 and secondary VLAN 6.
Port 3 has been configured as a promiscuous port and mapped to VLAN 5, while ports 4 and 5 have been
configured as a host ports and associated with VLAN 6. This means that traffic for port 4 and 5 can only pass
through port 3.
FIG. 152 CLI - Private VLAN Port Configuration
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Class of Service Configuration
Class of Service Configuration
Overview
Class of Service (CoS) allows you to specify which data packets have greater precedence when traffic is
buffered in the switch due to congestion. This switch is designed with CoS to specifically support AMX’s
MAX audio and video streams, maximizing audio and video performance as it is transmitted throughout the
network. With four priority queues for each port, MAX’s packets in a port’s high-priority queue will be
transmitted before those in the lower-priority queues. You can change the default priority for each interface,
and configure the mapping of frame priority tags to the switch’s priority queues.
For MAX, AMX has pre-configured the A/V traffic so the switch automatically supports MAX without any
additional configuration.
Setting the Default Priority for Interfaces
You can specify the default port priority for each interface on the switch. All untagged packets entering the
switch are tagged with the specified default port priority, and then sorted into the appropriate priority queue at
the output port.
Command Usage
ꢀ
ꢀ
This switch provides four priority queues for each port. It uses Weighted Round Robin to prevent
head-of-queue blockage.
The default priority applies for an untagged frame received on a port set to accept all frame types
(i.e, receives both untagged and tagged frames). This priority does not apply to IEEE 802.1Q
VLAN tagged frames. If the incoming frame is an IEEE 802.1Q VLAN tagged frame, the IEEE
802.1p User Priority bits will be used.
ꢀ
If the output port is an untagged member of the associated VLAN, these frames are stripped of all
VLAN tags prior to transmission.
Command Attributes
• Default Priority:
The priority that is assigned to untagged frames received on the specified interface.
• Range: 0 - 7
• Default: 0
CLI displays this information as “Priority for untagged traffic.”
• Number of Egress • The number of queue buffers provided for each port.
Traffic Classes:
Setting the Default Priority for Interfaces - Web
Click Priority, Default Port Priority or Default Trunk Priority. Modify the default priority for any interface,
then click Apply.
FIG. 153 Web - Port Priority Configuration
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Class of Service Configuration
Setting the Default Priority for Interfaces - CLI
This example assigns a default priority of 5 to port 3.
FIG. 154 CLI - Port Priority Configuration
Mapping CoS Values to Egress Queues
This switch processes Class of Service (CoS) priority tagged traffic by using four priority queues for each port,
with service schedules based on Weighted Round Robin (WRR). Up to 8 separate traffic priorities are defined
in IEEE 802.1p. The default priority levels are assigned according to recommendations in the IEEE 802.1p
standard as shown in the following table.
Egress Queue Priority Mapping
Queue
Priority
0
1
2
3
1,2
0,3
4,5
6,7
1,2
0,3
4,5
6,7
Q0
Q1
Q2
Q3
Serviced
by weighted
round robin
FIG. 155 Weighted Round Robin (WRR)
The priority levels recommended in the IEEE 802.1p standard for various network applications are shown in
the following table. However, you can map the priority levels to the switch’s output queues in any way that
benefits application traffic for your own network.
CoS Priority Levels
Priority Level Traffic Type
1
Background
2
(Spare)
0 (default)
Best Effort
3
4
5
6
7
Excellent Effort
Controlled Load
Video, less than 100 milliseconds latency and jitter
Voice, less than 10 milliseconds latency and jitter
Network Control
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Class of Service Configuration
Command Attributes
• Priority:
CoS value. (Range: 0-7, where 7 is the highest priority)
• Traffic Class: Output queue buffer.
• Range: 0-3, where 3 is the highest CoS priority queue
• CLI shows Queue ID.
Mapping CoS Values to Egress Queues - Web
Click Priority, Traffic Classes. Mark an interface and click Select to display the current mapping of CoS values
to output queues. Assign priorities to the traffic classes (i.e., output queues) for the selected interface, then
click Apply.
FIG. 156 Web - Traffic Classes
Mapping CoS Values to Egress Queues - CLI
The following example shows how to map CoS values 1 and 2 to CoS priority queue 0, value 0 and 3 to CoS
priority queue 1, values 4 and 5 to CoS priority queue 2, and values 6 and 7 to CoS priority queue 3.
FIG. 157 CLI - Traffic Classes
Mapping specific values for CoS priorities is implemented as an interface
configuration command, but any changes will apply to the all interfaces on the switch.
Selecting the Queue Mode
You can set the switch to service the queues based on a strict rule that requires all traffic in a higher priority
queue to be processed before lower priority queues are serviced, or use Weighted Round-Robin (WRR)
queuing that specifies a relative weight of each queue. WRR uses a predefined relative weight for each queue
that determines the percentage of service time the switch services each queue before moving on to the next
queue. This prevents the head-of-line blocking that can occur with strict priority queuing.
Command Attributes
• WRR: Weighted Round-Robin shares bandwidth at the egress ports by using scheduling weights 1, 4, 16,
64 for queues 0 through 3 respectively. (This is the default selection.)
• Strict: Services the egress queues in sequential order, transmitting all traffic in the higher priority queues
before servicing lower priority queues.
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Class of Service Configuration
Selecting the Queue Mode - Web
Click Priority, Queue Mode. Select Strict or WRR, then click Apply.
FIG. 158 Web - Selecting the Queue Mode
Selecting the Queue Mode - CLI
The following sets the queue mode to strict priority service mode.
FIG. 159 CLI - Selecting the Queue Mode
Setting the Service Weight for Traffic Classes
This switch uses the Weighted Round Robin (WRR) algorithm to determine the frequency at which it services
each priority queue. As described in Mapping CoS Values to Egress Queues section on page 138, the traffic
classes are mapped to one of the four egress queues provided for each port. You can assign a weight to each of
these queues (and thereby to the corresponding traffic priorities). This weight sets the frequency at which each
queue will be polled for service, and subsequently affects the response time for software applications assigned
a specific priority value.
Command Attributes
• WRR Setting Table: Displays a list of weights for each traffic class (i.e., queue).
• CLI shows Queue ID.
• Weight Value:
Set a new weight for the selected traffic class. (Range: 1-255)
Setting the Service Weight for Traffic Classes - Web
Click Priority, Queue Scheduling. Select a traffic class (i.e., output queue), enter a weight, then click Apply.
FIG. 160 Web - Configuring Queue Scheduling
Setting the Service Weight for Traffic Classes - CLI
The following example shows how to assign WRR weights of 1, 4, 16 and 64 to the CoS priority queues 0, 1, 2
and 3.
FIG. 161 CLI - Configuring Queue Scheduling
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Class of Service Configuration
Mapping Layer 3/4 Priorities to CoS Values
This switch supports several common methods of prioritizing layer 3/4 traffic to meet application
requirements. Traffic priorities can be specified in the IP header of a frame, using the priority bits in the Type
of Service (ToS) octet or the number of the TCP/UDP port. If priority bits are used, the ToS octet may contain
three bits for IP Precedence or six bits for Differentiated Services Code Point (DSCP) service. When these
services are enabled, the priorities are mapped to a Class of Service value by the switch, and the traffic then
sent to the corresponding output queue.
Because different priority information may be contained in the traffic, this switch maps priority values to the
output queues in the following manner:
ꢀ
The precedence for priority mapping is IP Port Priority, IP Precedence or DSCP Priority, and then
Default Port Priority.
ꢀ
IP Precedence and DSCP Priority cannot both be enabled. Enabling one of these priority types will
automatically disable the other.
Selecting IP Precedence/DSCP Priority
The switch allows you to choose between using IP Precedence or DSCP priority. Select one of the methods or
disable this feature.
Command Attributes
• Disabled:
Disables both priority services. (This is the default setting.)
• IP Precedence: Maps layer 3/4 priorities using IP Precedence.
• IP DSCP:
Maps layer 3/4 priorities using Differentiated Services Code Point Mapping.
Selecting IP Precedence/DSCP Priority - Web
Click Priority, IP Precedence/DSCP Priority Status. Select Disabled, IP Precedence or IP DSCP from the
scroll-down menu.
FIG. 162 Web - IP Precedence/DSCP Priority Status
Selecting IP Precedence/DSCP Priority - CLI
The following example enables IP Precedence service on the switch.
FIG. 163 CLI - IP Precedence/DSCP Priority Status
Mapping IP Precedence
The Type of Service (ToS) octet in the IPv4 header includes three precedence bits defining eight different
priority levels ranging from highest priority for network control packets to lowest priority for routine traffic.
The default IP Precedence values are mapped one-to-one to Class of Service values (i.e., Precedence value 0
maps to CoS value 0, and so forth). Bits 6 and 7 are used for network control, and the other bits for various
application types. ToS bits are defined in the following table.
Mapping IP Precedence
Priority Level Traffic Type
Priority Level Traffic Type
7
6
5
4
Network Control
Internetwork Control
Critical
3
2
1
0
Flash
Immediate
Priority
Routine
Flash Override
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Class of Service Configuration
Command Attributes
• IP PrecedencePriority Table: Shows the IP Precedence to CoS map.
• Class of Service Value: Maps a CoS value to the selected IP Precedence value.
Note that “0” represents low priority and “7” represent high priority.
IP Precedence settings apply to all interfaces.
Mapping IP Precedence - Web
Click Priority, IP Precedence Priority. Select a port or trunk from the Interface field. Select an entry from the
IP Precedence Priority Table, enter a value in the Class of Service Value field, and then click Apply.
FIG. 164 Web - Mapping IP Precedence Priority Values
Mapping specific values for IP Precedence is implemented as an interface
configuration command, but any changes will apply to the all interfaces on the switch.
Mapping IP Precedence - CLI
The following example globally enables IP Precedence service on the switch, maps IP Precedence value 1 to
CoS value 0 on port 5, and then displays all the IP Precedence settings.
FIG. 165 CLI - Mapping IP Precedence Priority Values
Mapping specific values for IP Precedence is implemented as an interface
configuration command, but any changes will apply to the all interfaces on the switch.
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Class of Service Configuration
Mapping DSCP Priority
The DSCP is six bits wide, allowing coding for up to 64 different forwarding behaviors. The DSCP replaces
the ToS bits, and it retains backward compatibility with the three precedence bits so that non-DSCP compliant,
ToS-enabled devices, will not conflict with the DSCP mapping. Based on network policies, different kinds of
traffic can be marked for different kinds of forwarding.
The DSCP default values are defined in the following table. Note that all the DSCP values that are not
specified are mapped to CoS value 0.
Mapping DSCP Priority Values
IP DSCP Value
CoS Value
0
0
1
2
3
4
5
6
7
8
10, 12, 14, 16
18, 20, 22, 24
26, 28, 30, 32, 34, 36
38, 40, 42
48
46, 56
Command Attributes
• DSCP Priority Table:
Shows the DSCP Priority to CoS map.
• Class of Service Value: Maps a CoS value to the selected DSCP Priority value.
Note that “0” represents low priority and “7” represent high priority.
IP DSCP settings apply to all interfaces.
Mapping DSCP Priority - Web
Click Priority, IP DSCP Priority. Select a port or trunk from the Interface field. Select an entry from the DSCP
table, enter a value in the Class of Service Value field, then click Apply.
FIG. 166 Web - Mapping IP DSCP Priority Values
Mapping specific values for IP Precedence is implemented as an interface
configuration command, but any changes will apply to the all interfaces on the switch.
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Class of Service Configuration
Mapping DSCP Priority - CLI
The following example globally enables DSCP Priority service on the switch, maps DSCP value 1 to CoS
value 0 on port 5, and then displays all the DSCP Priority settings.
FIG. 167 CLI - Mapping IP DSCP Priority Values
Mapping specific values for IP Precedence is implemented as an interface
configuration command, but any changes will apply to the all interfaces on the switch.
Mapping IP Port Priority
You can also map network applications to Class of Service values based on the IP port number (i.e., TCP/UDP
port number) in the frame header.
Some of the more common TCP service ports include: HTTP: 80, FTP: 21, Telnet: 23 and POP3: 110.
Command Attributes
• IP Port Priority Status:
• Interface:
Enables or disables the IP port priority.
Selects the port or trunk interface to which the settings apply.
Shows the IP port to CoS map.
• IP Port Priority Table:
• IP Port Number (TCP/UDP): Set a new IP port number.
• Class of Service Value: Sets a CoS value for a new IP port. Note that “0” represents low priority and
“7” represent high priority.
IP Port Priority settings apply to all interfaces.
Mapping IP Port Priority - Web
Click Priority, IP Port Status. Set IP Port Priority Status to Enabled.
FIG. 168 Web - Enabling IP Port Priority Status
Click Priority, IP Port Priority. Select a port or trunk from the Interface field. Enter the port number for a
network application in the IP Port Number box and the new CoS value in the Class of Service box, and then
click Add IP Port.
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Class of Service Configuration
FIG. 169 Web - Mapping IP Port Priority
Mapping specific values for IP Precedence is implemented as an interface
configuration command, but any changes will apply to the all interfaces on the switch.
Mapping IP Port Priority - CLI
The following example globally enables IP Port Priority service on the switch, maps HTTP traffic on port 5 to
CoS value 0, and then displays all the IP Port Priority settings for that port.
FIG. 170 Web - Mapping IP Port Priority
Mapping specific values for IP Precedence is implemented as an interface
configuration command, but any changes will apply to the all interfaces on the switch.
Copy Settings
Use the Copy Settings page to copy IP Precedence Priority Settings, DSCP Priority Settings, and IP Port
Priority Settings from a source port or trunk to a destination port or trunk.
Command Attributes
• Copy IP Precedence
Priority Settings:
Enables or disables copying IP Precedence Priority settings.
• Copy DSCP Priority Settings: Enables or disables copying DSCP Priority settings.
• Copy IP Port Priority Settings: Enables or disables copying IP Port Priority settings.
• Source Interface:
• Destination Interface:
• Copy Settings:
Specifies the port or trunk to copy settings from.
Specifies the ports or trunks to copy settings to.
Carries out the command.
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Class of Service Configuration
Copy Settings - Web
Click Priority, Copy Settings. Select the source priority settings to be copied, enter the source port or trunk
number and choose the destination interface/s to copy to, then select Copy Settings.
FIG. 171 Web - Copy Settings
Copy Settings - CLI
CLI – The following example shows how to map HTTP traffic to CoS value 0 on port 5, maps IP precedence
to CoS 0 to port 6, and enables mapping IP DSCP globally.
Console#con
Console(config)#interface ethernet 1/5
Console(config-if)#map ip port 80 cos 0 360
Console(config)#interface ethernet 1/6
Console(config-if)#map ip precedence 1 cos 0 361
Console(config-if)#exit
Console(config)#map ip dscp 362
Console(config)#
Mapping CoS Values to ACLs
Use the ACL CoS Mapping page to set the output queue for packets matching an ACL rule as shown in the
following table. Note that the specified CoS value is only used to map the matching packet to an output queue;
it is not written to the packet itself. For information on mapping the CoS values to output queues, see page 138.
CoS to ACL Mapping
Queue
Priority
0
1
2
3
1,2
0,3
4,5
6,7
Command Usage - You must configure an ACL mask before you can map CoS values to the rule.
Command Attributes
• Port:
Selects the port to which the ACL CoS is configured on.
• Name:
Name of ACL. For information on configuring ACLs, see the Configuring
• Type:
Type of ACL (IP or MAC).
• CoS Priority:
• Add:
Enables the CoS priority value level.
Adds the specified information to the port.
Displays the configured information.
• ACL CoS Priority Mapping:
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Class of Service Configuration
Mapping CoS Values to ACLs - Web
Click Priority, ACL CoS Priority. Select a port, select an ACL rule, specify a CoS priority, then click Add.
FIG. 172 Web - ACL CoS Priority
Mapping CoS Values to ACLs - CLI
This example assigns a CoS value of zero to packets matching rules within the specified ACL on port 1.
FIG. 173 CLI - ACL CoS Priority
Changing Priorities Based on ACL Rules
You can change traffic priorities for frames matching the defined ACL rule. (This feature is commonly referred
to as ACL packet marking.) This switch can change the IEEE 802.1p priority, IP Precedence, or DSCP Priority
of IP frames; or change the IEEE 802.1p priority of Layer 2 frames. (This feature is commonly referred to as
ACL packet marking.) Use the no form to remove the ACL marker.
Command Usage
ꢀ
ꢀ
You must configure an ACL mask before you can change priorities based on a rule.
Traffic priorities may be included in the IEEE 802.1p priority tag. This tag is also incorporated as
part of the overall IEEE 802.1Q VLAN tag. The 802.1p priority may be set for either Layer 2 or IP
frames.
ꢀ
ꢀ
The IP frame header also includes priority bits in the Type of Service (ToS) octet. The Type of
Service octet may contain three bits for IP Precedence or six bits for Differentiated Services Code
Point (DSCP) service. Note that the IP frame header can include either the IP Precedence or DSCP
priority type.
The precedence for priority mapping by this switch is IP Precedence or DSCP Priority, and then
802.1p priority.
Command Attributes
• Port:
Port identifier.
• Name:
• Type:
Name of ACL.
Type of ACL (IP or MAC).
• Precedence:
• DSCP:
IP Precedence value. (Range: 0-7)
Differentiated Services Code Point value. (Range: 0-63)
• 802.1p Priority: Class of Service value in the IEEE 802.1p priority tag. (Range: 0-7; 7 is the highest priority)
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Changing Priorities Based on ACL Rules - Web
Click Priority, ACL Marker. Select a port and an ACL rule.
ꢀ
To specify a ToS priority, mark the Precedence/DSCP check box, select Precedence or DSCP from
the scroll-down box, and enter a priority.
ꢀ
To specify an 802.1p priority, mark the 802.1p Priority check box, and enter a priority. Then click
Add.
FIG. 174 Changing Priorities Based on ACL Rules
Changing Priorities Based on ACL Rules - CLI
This example changes the DSCP priority for packets matching an IP ACL rule, and the 802.1p priority for
packets matching a MAC ACL rule.
Console(config)#interface ethernet 1/1300
Console(config-if)#match access-list ip bill set dscp 0275
Console(config-if)#match access-list mac mike set priority 0286
Console(config-if)#end
Console#show marking276
Interface ethernet 1/1
match access-list IP bill set DSCP 0
match access-list MAC a set priority 0
Console#
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Multicast Filtering
Multicast Filtering
Overview
Multicasting is used to support real-time applications such as video conferencing or streaming audio. A
multicast server does not have to establish a separate connection with each client. It merely broadcasts its
service to the network, and any hosts that want to receive the multicast register with their local multicast
switch/router. Although this approach reduces the network overhead required by a multicast server, the
broadcast traffic must be carefully pruned at every multicast switch/router it passes through to ensure that
traffic is only passed on the hosts which subscribed to this service.
This switch uses IGMP (Internet Group Management Protocol) to query for any attached hosts that want to
receive a specific multicast service. It identifies the ports containing hosts requesting to join the service and
sends data out to those ports only. It then propagates the service request up to any neighboring multicast
switch/router to ensure that it will continue to receive the multicast service. This procedure is called multicast
filtering.
The purpose of IP multicast filtering is to optimize a switched network’s performance, so multicast packets
will only be forwarded to those ports containing multicast group hosts or multicast routers/switches, instead of
flooding traffic to all ports in the subnet (VLAN).
Unicast
Flow
Multicast
Flow
FIG. 175 Unicast Flow vs. Multicast Flow
Layer 2 IGMP (Snooping and Query)
IGMP Snooping and Query – If multicast routing is not supported on other switches in your network, you can
use IGMP Snooping and IGMP Query to monitor IGMP service requests passing between multicast clients
and servers, and dynamically configure the switch ports which need to forward multicast traffic.
ꢀ
ꢀ
Static IGMP Router Interface – If IGMP snooping cannot locate the IGMP querier, you can
manually designate a known IGMP querier (i.e., a multicast router/switch) connected over the
network to an interface on your switch (see the Specifying Interfaces Attached to a
Multicast Router section on page 152). This interface will then join all the current multicast groups
supported by the attached router/switch to ensure that multicast traffic is passed to all appropriate
interfaces within the switch.
Static IGMP Host Interface – For multicast applications that you need to control more carefully,
you can manually assign a multicast service to specific interfaces on the switch (see the Assigning
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Multicast Filtering
Configuring IGMP Snooping and Query Parameters
You can configure the switch to forward multicast traffic intelligently. Based on the IGMP query and report
messages, the switch forwards traffic only to the ports that request multicast traffic. This prevents the switch
from broadcasting the traffic to all ports and possibly disrupting network performance.
Multicast routers use this information, along with a multicast routing protocol such as
DVMRP or PIM, to support IP multicasting across the Internet.
Command Usage
ꢀ
IGMP Snooping – This switch can passively snoop on IGMP Query and Report packets
transferred between IP multicast routers/switches and IP multicast host groups to identify the IP
multicast group members. It simply monitors the IGMP packets passing through it, picks out the
group registration information, and configures multicast filters accordingly.
ꢀ
IGMP Query – A router, or multicast-enabled switch, can periodically ask their hosts if they want
to receive multicast traffic. If there is more than one router/switch on the LAN performing IP
multicasting, one of these devices is elected “querier” and assumes the role of querying the LAN
for group members. It then propagates the service requests on to any adjacent multicast switch/
router to ensure that it will continue to receive the multicast service.
Command Attributes
• IGMP Status:
When enabled, the switch will monitor network traffic to determine which hosts want
to receive multicast traffic.
• This is also referred to as IGMP Snooping.
• Default: Enabled
• Act as IGMP Querier: When enabled, the switch can serve as the Querier, which is responsible for asking
hosts if they want to receive multicast traffic.
• Default: Enabled
• IGMP Query Count:
Sets the maximum number of queries issued for which there has been no response
before the switch takes action to solicit reports.
• Default: 2
• Range: 2 - 10
• IGMP Query Interval: Sets the frequency of time at which the switch sends IGMP host-query messages.
• Default: 125 secs.
• Range: 60 - 125 secs.
• IGMP Report Delay:
Sets the time (in seconds) between receiving an IGMP Report for an IP multicast
address on a port before the switch sends an IGMP Query out of that port and
removes the entry from its list.
• Default: 10
• Range: 5-30
• Query Timeout:
• IGMP Version:
Sets the time (in seconds) the switch waits after the previous querier has stopped
querying before it takes over as the querier.
• Default: 300 seconds
• Range: 300 - 500
Sets the protocol version for compatibility with other devices on the network.
• Default: 2
• Range: 1 - 2
1. All systems on the subnet must support the same version.
2. Some attributes are only enabled for IGMPv2, including IGMP Report Delay and
IGMP Query Timeout.
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Multicast Filtering
Configuring IGMP Snooping and Query Parameters - Web
Click IGMP, IGMP Configuration. Adjust the IGMP settings as required, and then click Apply.
The default settings are shown below.
FIG. 176 Web - IGMP Configuration
Configuring IGMP Snooping and Query Parameters - CLI
This example modifies the settings for multicast filtering, and then displays the current status.
FIG. 177 CLI - IGMP Configuration
Displaying Interfaces Attached to a Multicast Route
r
Multicast routers that are attached to ports on the switch use information obtained from IGMP, along with a
multicast routing protocol such as DVMRP, to support IP multicasting across the Internet. These routers may
be dynamically discovered by the switch or statically assigned to an interface on the switch.
You can use the Multicast Router Port Information page to display the ports on this switch attached to a
neighboring multicast router/switch for each VLAN ID.
Command Attributes
• VLAN ID:
ID of configured VLAN (1-4094).
• Multicast Router List: Multicast routers dynamically discovered by this switch or those that are statically
assigned to an interface on this switch.
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Multicast Filtering
Displaying Interfaces Attached to a Multicast Router - Web
Click IGMP, Multicast Router Port Information. Select the required VLAN ID from the scroll-down list to
display the associated multicast routers.
FIG. 178 Web - Displaying Multicast Router Port Information
Displaying Interfaces Attached to a Multicast Router - CLI
This example shows that Port 11 has been statically configured as a port attached to a multicast router.
FIG. 179 Web - Displaying Multicast Router Port Information
Specifying Interfaces Attached to a Multicast Router
Depending on your network connections, IGMP snooping may not always be able to locate the IGMP querier.
Therefore, if the IGMP querier is a known multicast router/switch connected over the network to an interface
(port or trunk) on your switch, you can manually configure that interface to join all the current multicast
groups. This can ensure that multicast traffic is passed to all the appropriate interfaces within the switch.
Command Attributes
• Interface:
• VLAN ID:
Activates the Port or Trunk scroll down list.
Selects the VLAN to propagate all multicast traffic coming from the attached multicast router/
switch.
• Port or Trunk: Specifies the interface attached to a multicast router.
Specifying Interfaces Attached to a Multicast Router - Web
Click IGMP, Static Multicast Router Port Configuration. Specify the interfaces attached to a multicast router,
indicate the VLAN which will forward all the corresponding multicast traffic, and then click Add. After you
have completed adding interfaces to the list, click Apply.
FIG. 180 Web - Static Multicast Router Port Configuration
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Multicast Filtering
Specifying Interfaces Attached to a Multicast Router - CLI
This example configures port 11 as a multicast router port within VLAN 1.
FIG. 181 CLI - Static Multicast Router Port Configuration
Displaying Port Members of Multicast Services
You can display the port members associated with a specified VLAN and multicast IP address.
Command Attributes
• VLAN ID:
Selects the VLAN in which to display port members.
The IP address for a specific multicast service
• Multicast IP Address:
• Multicast Group Port List: Ports propagating a multicast service; i.e., ports that belong to the indicated
VLAN group.
Displaying Port Members of Multicast Services - Web
Click IGMP, IP Multicast Registration Table. Select the VLAN ID and the IP address for a multicast service.
The switch will display all the ports that are propagating this multicast service.
FIG. 182 Web - IP Multicast Registration Table
Displaying Port Members of Multicast Services - CLI
This example displays all the known multicast services supported on VLAN 1, along with the ports
propagating the corresponding services. The type field shows if this entry was learned dynamically or was
statically configured.
FIG. 183 CLI - IP Multicast Registration Table
Assigning Ports to Multicast Services
Multicast filtering can be dynamically configured using IGMP Snooping and IGMP Query messages as
described in Configuring IGMP Snooping and Query Parameters section on page 150. For certain applications
that require tighter control, you may need to statically configure a multicast service on the switch. First add all
the ports attached to participating hosts to a common VLAN, and then assign the multicast service to that
VLAN group.
Command Usage
ꢀ
ꢀ
Static multicast addresses are never aged out.
When a multicast address is assigned to specific VLAN, the corresponding traffic can only be
forwarded to ports within that VLAN.
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Multicast Filtering
Command Attributes
• Interface:
• VLAN ID:
Activates the Port or Trunk scroll down list.
Selects the VLAN to propagate all multicast traffic coming from the attached multicast router/
switch.
• Multicast IP: The IP address for a specific multicast service.
• Port or Trunk: Specifies the interface attached to a multicast router.
Assigning Ports to Multicast Services - Web
Click IGMP, IGMP Member Port Table. Specify the interface attached to a multicast service (via an IGMP-
enabled switch or multicast router), indicate the VLAN that will propagate the multicast service, specify the
multicast IP address, and then click Add. After you have completed adding ports to the member list, click
Apply.
FIG. 184 Web - IGMP Member Port Table
Assigning Ports to Multicast Services - CLI
This example assigns a multicast address to VLAN 1, and then displays all the known multicast services
supported on VLAN 1.
FIG. 185 CLI - IGMP Member Port Table
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Configuring Domain Name Service
Configuring Domain Name Service
Overview
The Domain Naming System (DNS) service on this switch allows host names to be mapped to IP addresses
using static table entries or by redirection to other name servers on the network. When a client device
designates this switch as a DNS server, the client will attempt to resolve host names into IP addresses by
forwarding DNS queries to the switch, and waiting for a response.
You can manually configure entries in the DNS table used for mapping domain names to IP addresses,
configure default domain names, or specify one or more name servers to use for domain name to address
translation.
Configuring General DNS Server Parameters
Command Usage
ꢀ
ꢀ
To enable DNS service on this switch, first configure one or more name servers, and then enable
domain lookup status.
To append domain names to incomplete host names received from a DNS client (i.e., not formatted
with dotted notation), you can specify a default domain name or a list of domain names to be tried
in sequential order.
ꢀ
ꢀ
If there is no domain list, the default domain name is used. If there is a domain list, the default
domain name is not used.
When an incomplete host name is received by the DNS server on this switch and a domain name list
has been specified, the switch will work through the domain list, appending each domain name in
the list to the host name, and checking with the specified name servers for a match.
ꢀ
ꢀ
When more than one name server is specified, the servers are queried in the specified sequence until
a response is received, or the end of the list is reached with no response.
Note that if all name servers are deleted, DNS will automatically be disabled.
Command Attributes
• Domain Lookup Status: Enables DNS host name-to-address translation.
• Default Domain Name: Defines the default domain name appended to incomplete host names.
• Range: 1-64 alphanumeric characters
• Do not include the initial dot that separates the host name from the domain
name.
• Domain Name List:
• Name Server List:
Defines define a list of domain names that can be appended to incomplete host
names.
• Range: 1-64 alphanumeric characters. 1-5 names
• Do not include the initial dot that separates the host name from the domain
name.
Specifies the address of one or more domain name servers to use for name-to-
address resolution.
• Range: 1-6 IP addresses
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Configuring Domain Name Service
Configuring General DNS Server Parameters - Web
Select DNS, General Configuration. Set the default domain name or list of domain names, specify one or more
name servers to use for address resolution, enable domain lookup status, and click Apply.
FIG. 186 Configuring DNS
Configuring General DNS Server Parameters - CLI
This example sets a default domain name and a domain list. However, remember that if a domain list is
specified, the default domain name is not used.
Console(config)#ip domain-name sample.com380
Console(config)#ip domain-list sample.com.uk381
Console(config)#ip domain-list sample.com.jp
Console(config)#ip name-server 192.168.1.55 10.1.0.55382
Console(config)#ip domain-lookup383
Console#show dns384
Domain Lookup Status:
DNS enabled
Default Domain Name:
.sample.com
Domain Name List:
.sample.com.uk
.sample.com.jp
Name Server List:
192.168.1.55
10.1.0.55
Console#
Configuring Static DNS Host to Address Entries
You can manually configure static entries in the DNS table that are used to map domain names to IP addresses.
Command Usage
ꢀ
Static entries may be used for local devices connected directly to the attached network, or for
commonly used resources located elsewhere on the network.
ꢀ
Servers or other network devices may support one or more connections via multiple IP addresses. If
more than one IP address is associated with a host name in the static table or via information
returned from a name server, a DNS client can try each address in succession, until it establishes a
connection with the target device.
Field Attributes
• Host Name: Name of a host device that is mapped to one or more IP addresses.
• Range: 1-64 characters
• IP Address: Internet address(es) associated with a host name.
• Range: 1-8 addresses
• Alias:
Displays the host names that are mapped to the same address(es) as a previously configured
entry.
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Configuring Domain Name Service
Configuring Static DNS Host to Address Entries - Web
Select DNS, Static Host Table. Enter a host name and one or more corresponding addresses, then click Apply.
FIG. 187 Web - Mapping IP Addresses to a Host Name
Configuring Static DNS Host to Address Entries - CLI
This example maps two address to a host name, and then configures an alias host name for the same addresses.
Console(config)#ip host rd5 192.168.1.55 10.1.0.55379
Console(config)#ip host rd6 10.1.0.55379
Console#show host384
Hostname
rd5
Inet address
10.1.0.55 192.168.1.55
Alias
1.rd6
Displaying the DNS Cache
You can display entries in the DNS cache that have been learned via the designated name servers.
Field Attributes
• No:
The entry number for each resource record.
• Flag:
• Type:
The flag is always “4” indicating a cache entry and therefore unreliable.
This field includes CNAME which specifies the canonical or primary name for the owner, and
ALIAS which specifies multiple domain names which are mapped to the same IP address as an
existing entry.
• IP:
The IP address associated with this record.
The time to live reported by the name server.
• TTL:
• Domain: The domain name associated with this record.
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Configuring Domain Name Service
Displaying the DNS Cache - Web
Select DNS, Cache.
FIG. 188 Web - Displaying the DNS Cache
Displaying the DNS Cache - CLI
This example displays all the resource records learned from the designated name servers.
Console#show dns cache384
NO
FLAG
TYPE
IP
TTL
DOMAIN
0
1
2
3
4
5
6
7
4
4
4
4
4
4
4
4
4
4
4
CNAME
CNAME
CNAME
CNAME
CNAME
ALIAS
CNAME
ALIAS
CNAME
ALIAS
CNAME
207.46.134.222 51
207.46.134.190 51
207.46.134.155 51
207.46.249.222 51
www.microsoft.akadns.net
www.microsoft.akadns.net
www.microsoft.akadns.net
www.microsoft.akadns.net
www.microsoft.akadns.net
www.microsoft.com
msn.com.tw
207.46.249.27
POINTER TO:4
207.46.68.27
POINTER TO:6
65.54.131.192
POINTER TO:8
51
51
71964
71964
605
www.msn.com.tw
8
9
10
passportimages.com
www.passportimages.com
global.msads.net
605
165.193.72.190 87
Console#
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CLI (Command Line Interface)
CLI (Command Line Interface)
Overview
This chapter describes how to use the Command Line Interface (CLI).
Using the Command Line Interface
When accessing the management interface for the switch over a direct connection to the server’s console port,
or via a Telnet connection, the switch can be managed by entering command keywords and parameters at the
prompt. Using the switch's command-line interface (CLI) is very similar to entering commands on a UNIX
system.
When ES3526V 24 Port Fast Ethernet switches are stacked together, you must
connect to the RS-232 port on the Master unit to be able to access the CLI.
Console Connection
To access the switch through the console port, perform these steps:
1. At the console prompt, enter the user name and password.
ꢀ
ꢀ
The default user name is “Admin” and the password is “1988”)
When the administrator user name and password is entered, the CLI displays the “Console#”
prompt and enters privileged access mode (i.e., Privileged Exec). But when the guest user name and
password is entered, the CLI displays the “Console>” prompt and enters normal access mode
(i.e., Normal Exec).
2. Enter the necessary commands to complete your desired tasks.
3. When finished, exit the session with the “quit” or “exit” command.
After connecting to the system through the console port, the login screen displays:
User Access Verification
Username: Admin
Password:
CLI session with the Intelligent Fast Ethernet PoE Switch is opened.
To end the CLI session, enter [Exit].
Console#
Telnet Connection
Telnet operates over the IP transport protocol. In this environment, your management station and any network
device you want to manage over the network must have a valid IP address. Valid IP addresses consist of four
numbers, 0 to 255, separated by periods. Each address consists of a network portion and host portion. For
example, the IP address assigned to this switch, 10.1.0.1, consists of a network portion (10.1.0) and a host
portion (1).
The IP address for this switch is unassigned by default.
To access the switch through a Telnet session, you must first set the IP address for the switch, and set the
default gateway if you are managing the switch from a different IP subnet.
For example,
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CLI (Command Line Interface)
Console(config)#interface vlan 1
Console(config-if)#ip address 10.1.0.1 255.255.255.0
Console(config-if)#exit
Console(config)#ip default-gateway 10.1.0.254
If your corporate network is connected to another network outside your office or to the Internet, you need to
apply for a registered IP address. However, if you are attached to an isolated network, then you can use any IP
address that matches the network segment to which you are attached.
After you configure the switch with an IP address, you can open a Telnet session by performing these steps.
1. From the remote host, enter the Telnet command and the IP address of the device you want to access.
2. At the prompt, enter the user name and system password. The CLI will display the “Vty-0#” prompt for
the administrator to show that you are using privileged access mode (i.e., Privileged Exec), or “Vty-0>”
for the guest to show that you are using normal access mode (i.e., Normal Exec).
3. Enter the necessary commands to complete your desired tasks.
4. When finished, exit the session with the “quit” or “exit” command.
After entering the Telnet command, the login screen displays:
Username: admin
Password:
CLI session with the Intelligent Fast Ethernet PoE Switch is opened.
To end the CLI session, enter [Exit].
Console#
You can open up to four sessions to the device via Telnet.
Entering Commands
This section describes how to enter CLI commands.
Keywords and Arguments
A CLI command is a series of keywords and arguments. Keywords identify a command, and arguments
specify configuration parameters. For example, in the command “show interfaces status ethernet 1/5,” show
interfaces and status are keywords, ethernet is an argument that specifies the interface type, and 1/5 specifies
the unit/port.
You can enter commands as follows:
ꢀ
ꢀ
To enter a simple command, enter the command keyword.
To enter multiple commands, enter each command in the required order. For example, to enable
Privileged Exec command mode, and display the startup configuration, enter:
Console>enable
Console#show startup-config
ꢀ
To enter commands that require parameters, enter the required parameters after the command
keyword. For example, to set a password for the administrator, enter:
Console(config)#username admin password 0 smith
Minimum Abbreviation
The CLI will accept a minimum number of characters that uniquely identify a command. For example, the
command “configure” can be entered as con. If an entry is ambiguous, the system will prompt for further
input.
Command Completion
If you terminate input with a Tab key, the CLI will print the remaining characters of a partial keyword up to the
point of ambiguity. In the “logging history” example, typing log followed by a tab will result in printing the
command up to “logging.”
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CLI (Command Line Interface)
Getting Help on Commands
You can display a brief description of the help system by entering the help command. You can also display
command syntax by using the “?” character to list keywords or parameters.
Showing Commands
If you enter a “?” at the command prompt, the system will display the first level of keywords for the current
command class (Normal Exec or Privileged Exec) or configuration class (Global, ACL, Interface, Line, or
VLAN Database). You can also display a list of valid keywords for a specific command. For example, the
command “show ?” displays a list of possible show commands:
Console#show ?
access-group
access-list
bridge-ext
calendar
dot1x
Access groups
Access lists
Bridge extend information
Date information
Show 802.1x content
Garp property
garp
gvrp
Show gvrp information of interface
Information of history
Host information
history
hosts
interfaces
ip
Information of interfaces
IP information
lacp
LACP statistics
line
TTY line information
Login records
log
logging
mac
Show the contents of logging buffers
MAC access lists
mac-address-table Set configuration of the address table
management
map
Management IP filter
Map priority
marking
Specify marker
port
Characteristics of the port
Show power
power
public-key
queue
Public key information
Information of priority queue
Radius server information
The system configuration of running
SNMP statistics
radius-server
running-config
snmp
sntp
Sntp
spanning-tree
ssh
Specify spanning-tree
Secure shell
startup-config
system
The system configuration of starting up
Information of system
Login by tacacs server
Display information about terminal lines
System hardware and software status
Switch VLAN Virtual Interface
tacacs-server
users
version
vlan
Console#show
The command “show interfaces ?” will display the following information:
Console>show interfaces ?
counters
status
Interface counters information
Interface status information
switchport Interface switchport information
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CLI (Command Line Interface)
Partial Keyword Lookup
If you terminate a partial keyword with a question mark, alternatives that match the initial letters are provided.
(Remember not to leave a space between the command and question mark.) For example “s?” shows all the
keywords starting with “s.”
Console#show s?
snmp
sntp
spanning-tree ssh
startup-config system
Negating the Effect of Commands
For many configuration commands you can enter the prefix keyword “no” to cancel the effect of a command
or reset the configuration to the default value. For example, the logging command will log system messages to
a host server. To disable logging, specify the no logging command. This guide describes the negation effect for
all applicable commands.
Using Command History
The CLI maintains a history of commands that have been entered. You can scroll back through the history of
commands by pressing the up arrow key. Any command displayed in the history list can be executed again, or
first modified and then executed.
Using the show history command displays a longer list of recently executed commands.
Understanding Command Modes
The command set is divided into Exec and Configuration classes. Exec commands generally display
information on system status or clear statistical counters. Configuration commands, on the other hand, modify
interface parameters or enable certain switching functions. These classes are further divided into different
modes. Available commands depend on the selected mode.
You can always enter a question mark “?” at the prompt to display a list of the commands available for the
current mode. The command classes and associated modes are displayed in the following table:
Command Modes
Class
Mode
Exec
Normal
Privileged
Configuration
Global*
Access Control List
Interface
Line
VLAN Database
* You must be in Privileged Exec mode to access any of the configuration modes.
You must be in Global Configuration mode to access any of the other configuration modes.
Exec Commands
When you open a new console session on the switch with the user name and password “guest,” the system
enters the Normal Exec command mode (or guest mode), displaying the “Console>” command prompt. Only a
limited number of the commands are available in this mode. You can access all commands only from the
Privileged Exec command mode (or administrator mode).
To access Privilege Exec mode, open a new console session with the user name and password “admin.” The
system will now display the “Console#” command prompt. You can also enter Privileged Exec mode from
within Normal Exec mode, by entering the enable command, followed by the privileged level password
“super” (see page 169).
To enter Privileged Exec mode, enter the following commands and passwords:
Username: Admin
Password: [system login password]
CLI session with the Intelligent Fast Ethernet PoE Switch is opened.
To end the CLI session, enter [Exit].
Console#
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CLI (Command Line Interface)
Configuration Commands
Configuration commands are privileged level commands used to modify switch settings. These commands
modify the running configuration only and are not saved when the switch is rebooted. To store the running
configuration in nonvolatile storage, use the copy running-config startup-config command.
The configuration commands are organized into different modes:
ꢀ
Global Configuration - These commands modify the system level configuration, and include
commands such as hostname and snmp-server community.
ꢀ
ꢀ
Access Control List Configuration - These commands are used for packet filtering.
Interface Configuration - These commands modify the port configuration such as speed-duplex
and negotiation.
ꢀ
Line Configuration - These commands modify the console port and Telnet configuration, and
include commands such as parity and databits.
ꢀ
VLAN Configuration - Includes the command to create VLAN groups.
To enter the Global Configuration mode, enter the command configure in Privileged Exec mode. The system
prompt will change to “Console(config)#” which gives you access privilege to all Global Configuration
commands.
Console#configure
Console(config)#
To enter the other modes, at the configuration prompt type one of the following commands.
Use the exit or end command to return to the Privileged Exec mode.
Configuration Commands
Mode
Command
Prompt
Page
Line
line {console | vty}
Console(config-line)#
Access Control access-list ip standard
Console(config-std-acl)
List
access-list ip extended
Console(config-ext-acl)
access-list ip mask-precedence
access-list mac
Console(config-ip-mask-acl)
Console(config-mac-acl)
Console(config-mac-mask-acl)
access-list mac mask-precedence
Interface
VLAN
interface {ethernet port | port-channel id| vlan id}
Console(config-if)#
Console(config-vlan)
vlan database
For example, you can use the following commands to enter interface configuration mode, and then return to
Privileged Exec mode.
Console(config)#interface ethernet 1/5
.
.
.
Console(config-if)#exit
Console(config)#
Command Line Processing
Commands are not case sensitive.
You can abbreviate commands and parameters as long as they contain enough letters to differentiate them from
any other currently available commands or parameters. You can use the Tab key to complete partial
commands, or enter a partial command followed by the “?” character to display a list of possible matches.
You can also use the following editing keystrokes for command-line processing:
Keystroke Commands
Keystroke
Ctrl-A
Function
Shifts cursor to start of command line.
Shifts cursor to the left one character.
Terminates the current task and displays the command prompt.
Ctrl-B
Ctrl-C
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CLI (Command Line Interface)
Keystroke Commands (Cont.)
Keystroke
Ctrl-E
Function
Shifts cursor to end of command line.
Shifts cursor to the right one character.
Deletes all characters from the cursor to the end of the line.
Repeats current command line on a new line.
Enters the last command.
Ctrl-F
Ctrl-K
Ctrl-L
Ctrl-P
Ctrl-R
Ctrl-U
Ctrl-W
Esc-B
Esc-D
Esc-F
Repeats current command line on a new line.
Deletes from the cursor to the beginning of the line.
Deletes the last word typed.
Moves the cursor back one word.
Deletes from the cursor to the end of the word.
Moves the cursor forward one word.
Delete key or backspace key Erases a mistake when entering a command.
Command Groups
The system commands can be broken down into the functional groups shown below.
Command Group Index
Command Group
Description
Page #
• Line
Sets communication parameters for the serial port and Telnet,
including baud rate and console time-out
• General
Basic commands for entering privileged access mode, restarting
the system, or quitting the CLI
• System Management
Controls system logs, system passwords, user name, browser
management options, and a variety of other system information
• Flash/File
Manages code image or switch configuration files
Configures power output for connect devices
• Power over Ethernet
• Authentication
Configures RADIUS and TACACS+ client-server authentication for
logon access and commands for IEEE 802.1x port access control.
• Access Control Lists
• SNMP
Provides filtering for IP frames (based on address, protocol, TCP/
UDP port number or TCP control code) or non-IP frames (based
on MAC address or Ethernet type)
Activates authentication failure traps; configures community
access strings, and trap managers; also configures IP address fil-
tering
• Interface
Configures the connection parameters for all Ethernet ports,
aggregated links, and VLANs
• Mirror Port
Mirrors data to another port for analysis without affecting the data
passing through or the performance of the monitored port
• Rate Limiting
• Link Aggregation
• Address Table
Controls the maximum rate for traffic transmitted or received on a
port
Statically groups multiple ports into a single logical trunk; config-
ures Link Aggregation Control Protocol for port trunks
Configures the address table for filtering specified addresses, dis-
plays current entries, clears the table, or sets the aging time
• Spanning Tree
• VLANs
Configures Spanning Tree settings for the switch
Configures VLAN settings, and defines port membership for VLAN
groups; also enables or configures private VLANs
• GVRP and Bridge Extension Configures GVRP settings that permit automatic VLAN learning;
shows the configuration for bridge extension MIB
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CLI (Command Line Interface)
Command Group Index (Cont.)
Command Group
Description
Sets port priority for untagged frames, relative weight for each pri-
Page
• Priority
ority queue, also sets priority for TCP/UDP traffic types, IP prece-
dence, and DSCP
• Multicast Filtering
Configures IGMP multicast filtering, query parameters, and speci-
fies ports attached to a multicast router
• IP Interface
• DNS
Configures the IP address and gateway for management access
Configures DNS services
Line Commands
You can access the onboard configuration program by attaching a VT100 compatible device to the switch’s
serial port. These commands are used to set communication parameters for the serial port or Telnet (i.e., a
virtual terminal).
Line Commands
Command
Function
line
Syntax:
line {console | vty}
• console - Console terminal line.
Use this command to
identify a specific line
for configuration, and
to process
subsequent line
configuration
• vty - Virtual terminal for remote console access (i.e., Telnet).
Default Setting: There is no default line.
Command Mode: Global Configuration
Command Usage: Telnet is considered a virtual terminal connection and will be
shown as “Vty” in screen displays such as show users. However, the serial
communication parameters (e.g., databits) do not affect Telnet connections.
commands.
Example: To enter console line mode, enter the following command:
Console(config)#line console
Console(config-line)#
login
Syntax:
login [local]
no login
Use this command to
enable password
checking at login.
• local - Selects local password checking. Authentication is based on the user name
specified with the username command.
Use the no form to
disable password
checking and allow
connections without a
password.
Default Setting: login local
Command Mode: Line Configuration
Command Usage: There are three authentication modes provided by the switch itself
at login:
• login selects authentication by a single global password as specified by the
password line configuration command. When using this method, the management
interface starts in Normal Exec (NE) mode.
• login local selects authentication via the user name and password specified by the
username command (i.e., default setting). When using this method, the
management interface starts in Normal Exec (NE) or Privileged Exec (PE) mode,
depending on the user’s privilege level (0 or 15 respectively).
• no login selects no authentication. When using this method, the management
interface starts in Normal Exec (NE) mode.
This command controls login authentication via the switch itself. To configure user
names and passwords for remote authentication servers, you must use the RADIUS/
TACACS software installed on those servers.
Example:
Console(config-line)#login local
Console(config-line)#
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CLI (Command Line Interface)
Line Commands (Cont.)
Command
Function
password
Syntax:
password {0 | 7} password
no password
Use this command to
specify the password
for a line.
• {0 | 7} - 0 means plain password, 7 means encrypted password
• password - Character string that specifies the line password.
Maximum length: 8 characters plain text, 32 encrypted, case sensitive.
Default Setting: No password is specified.
Use the no form to
remove the password.
Command Mode: Line Configuration
Command Usage:
• When a connection is started on a line with password protection, the system
prompts for the password. If you enter the correct password, the system shows a
prompt. You can use the password-thresh command to set the number of times a
user can enter an incorrect password before the system terminates the line
connection and returns the terminal to the idle state.
• The encrypted password is required for compatibility with legacy password settings
(i.e., plain text or encrypted) when reading the configuration file during system
bootup or when downloading the configuration file from a TFTP server. There is no
need for you to manually configure encrypted passwords.
Example:
Console(config-line)#password 0 secret
Console(config-line)#
timeout login
response
Syntax:
timeout login response [seconds]
no timeout login response
Use this command to
set the interval that the
system waits for a user
to log into the CLI.
• seconds - Integer that specifies the number of seconds.
Range: 0 - 300 seconds; 0: disabled
Default Setting:
Use the no form to
restore the default
setting.
• CLI: Disabled (0 seconds)
• Telnet: 300 seconds
Command Mode: Line Configuration
Command Usage:
• If a login attempt is not detected within the timeout interval, the connection is
terminated for the session.
• This command applies to both the local console and Telnet connections.
• The timeout for Telnet cannot be disabled.
• Using the command without specifying a timeout restores the default setting.
Example: To set the timeout to two minutes, enter this command:
Console(config-line)#timeout login response 120
Console(config-line)#
exec-timeout
Syntax:
exec-timeout [seconds]
no exec-timeout
Use this command to
set the interval that the
system waits until user
input is detected.
• seconds - Integer that specifies the number of seconds.
Range: 0 - 65535 seconds; 0: no timeout
Default Setting: CLI and Telnet: 600 seconds (10 minutes)
Command Mode: Line Configuration
Command Usage:
Use the no form to
restore the default.
• If user input is detected within the timeout interval, the session is kept open;
otherwise the session is terminated.
• This command applies to both the local console and Telnet connections.
• The timeout for Telnet cannot be disabled.
• Using the command without specifying a timeout restores the default setting.
Example: To set the timeout to two minutes, enter this command:
Console(config-line)#exec-timeout 120
Console(config-line)#
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CLI (Command Line Interface)
Line Commands (Cont.)
Command
Function
password-thresh
Syntax:
password-thresh [threshold]
no password-thresh
This command sets
the password
intrusion threshold
which limits the
number of failed logon
attempts.
• threshold - The number of allowed password attempts.
Range: 1-120; 0: no threshold
Default Setting: The default value is three attempts.
Command Mode: Line Configuration
Command Usage:
Use the no form to
remove the threshold
value.
When the logon attempt threshold is reached, the system interface becomes silent for
a specified amount of time before allowing the next logon attempt.
• Use the silent-time command to set this interval.
• When this threshold is reached for Telnet, the Telnet logon interface shuts down.
• This command applies to both the local console and Telnet connections.
Example: To set the password threshold to five attempts, enter this command:
Console(config-line)#password-thresh 5
Console(config-line)#
silent-time
Syntax:
silent-time [seconds]
no silent-time
This command sets
the amount of time the
management console
is inaccessible after
the number of
unsuccessful logon
attempts exceeds the
threshold set by the
password-thresh
• seconds - The number of seconds to disable console response.
Range: 0-65535; 0: no silent-time
Default Setting: The default value is no silent-time.
Command Mode: Line Configuration
Example: To set the silent time to 60 seconds, enter this command:
Console(config-line)#silent-time 60
Console(config-line)#
command.
Note: This command applies only to the serial port.
Use the no form to
remove the silent time
value.
databits
Syntax:
databits {7 | 8}
no databits
This command sets
the number of data bits
per character that are
interpreted and gener-
ated by the console
port.
• 7 - Seven data bits per character.
• 8 - Eight data bits per character.
Default Setting: 8 data bits per character
Command Mode: Line Configuration
Use the no form to
restore the default
value.
Command Usage: The databits command can be used to mask the high bit on input
from devices that generate 7 data bits with parity. If parity is being generated, specify 7
data bits per character. If no parity is required, specify 8 data bits per character.
Example: To specify 7 data bits, enter this command:
Console(config-line)#databits 7
Console(config-line)#
Note: This command applies only to the serial port.
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CLI (Command Line Interface)
Line Commands (Cont.)
Command
Function
parity
Syntax:
parity {none | even | odd}
no parity
This command defines
the generation of a
parity bit.
• none - No parity
• even - Even parity
Use the no form to
restore the default
setting.
• odd - Odd parity
Default Setting: No parity
Command Mode: Line Configuration
Command Usage: Communication protocols provided by devices such as terminals
and modems often require a specific parity bit setting.
Example: To specify no parity, enter this command:
Console(config-line)#parity none
Console(config-line)#
Note: This command applies only to the serial port.
speed
Syntax:
speed bps
no speed
This command sets
the terminal line’s
baud rate. This
command sets both
the transmit (to
terminal) and receive
(from terminal)
• bps - Baud rate in bits per second.
(Options: 9600, 19200, 38400, 57600, 115200 bps)
Default Setting: 9600
Command Mode: Line Configuration
Command Usage: Set the speed to match the baud rate of the device connected to
the serial port. Some baud rates available on devices connected to the port might not
be supported. The system indicates if the speed you selected is not supported.
speeds.
Use the no form to
restore the default set-
ting.
Example: To specify 57600 bps, enter this command:
Console(config-line)#speed 57600
Console(config-line)#
stopbits
Syntax:
stopbits {1 | 2}
• 1 - One stop bit
This command sets
the number of the stop
bits transmitted per
byte.
• 2 - Two stop bits
Default Setting: 1 stop bit
Use the no form to
restore the default set-
ting.
Command Mode: Line Configuration
Example: To specify 2 stop bits, enter this command:
Console(config-line)#stopbits 2
Console(config-line)#
Note: This command applies only to the serial port.
disconnect
Syntax:
disconnect session-id
This command
terminates an SSH,
Telnet, or console
connection.
• session-id – The session identifier for an SSH, Telnet or console connection.
(Range: 0-4)
Command Mode: Privileged Exec
Command Usage: Specifying session identifier “0” will disconnect the console con-
nection. Specifying any other identifiers for an active session will disconnect an SSH
or Telnet connection.
Example:
Console#disconnect 1
Console#
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CLI (Command Line Interface)
Line Commands (Cont.)
Command
Function
show line
Syntax:
show line [console | vty]
• console - Console terminal line.
This command
displays the terminal
line’s parameters.
• vty - Virtual terminal for remote console access (i.e., Telnet).
Default Setting: Shows all lines
Command Mode: Normal Exec, Privileged Exec
Example: To show all lines, enter this command:
Console#show line
Console configuration:
Password threshold: 3 times
Interactive timeout: Disabled
Login timeout:
Silent time:
Baudrate:
Disabled
Disabled
9600
8
Databits:
Parity:
Stopbits:
none
1
VTY configuration:
Password threshold: 3 times
Interactive timeout: 600 sec
Login timeout:
console#
300 sec
General Commands
General Commands
Command
Function
enable
Syntax:
enable [level]
This command
activates Privileged
Exec mode.
• level - Privilege level to log into the device.
The device has two predefined privilege levels: 0: Normal Exec, 15: Privileged Exec.
Enter level 15 to access Privileged Exec mode.
Default Setting: Level 15
Command Mode: Normal Exec
Command Usage: “super” is the default password required to change the command
mode from Normal Exec to Privileged Exec. (To set this password, see the enable pass-
word command.)
The “#” character is appended to the end of the prompt to indicate that the system is in
privileged access mode.
Example:
Console>enable
Password: [privileged level password]
Console#
In privileged mode, additional commands are available, and certain commands display
disable
Default Setting: None
Command Mode: Privileged Exec
This command
returns to Normal
Exec mode from
privileged mode.
Command Usage: The “>” character is appended to the end of the prompt to indicate
that the system is in normal access mode.
Example:
Console#disable
Console
In normal access mode, you can only display basic information on the switch's configura-
tion or Ethernet statistics. To gain access to all commands, you must use the privileged
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CLI (Command Line Interface)
General Commands (Cont.)
Command
Function
configure
Default Setting: None
Command Mode: Privileged Exec
Example:
This command
activates Global
Configuration
mode.
Console#configure
Console(config)#
You must also enter Global Configuration mode prior to enabling some of the other con-
figuration modes, including Interface Configuration, Line Configuration, and VLAN Data-
You must enter this
mode to modify any
settings on the
switch.
show history
Default Setting: None
Command Mode: Normal Exec, Privileged Exec
This command
shows the contents
of the command
history buffer.
Command Usage: The history buffer size is fixed at 10 Execution commands and 10
Configuration commands.
Example: In this example, the show history command lists the contents of the command
history buffer:
Console#show history
Execution command history:
2 config
1 show history
Configuration command history:
4 interface vlan 1
3 exit
2 interface vlan 1
1 end
Console#
The ! command repeats commands from the Execution command history buffer when
you are in Normal Exec or Privileged Exec Mode, and commands from the Configuration
command history buffer when you are in any of the configuration modes.
In this example, the !2 command repeats the second command in the Execution history
buffer (config):
Console#!2
Console#config
Console(config)#
reload
Default Setting: None
Command Mode: Privileged Exec
This command
restarts the system.
Command Usage: This command resets the entire system.
Example: This example shows how to reset the switch:
Console#reload
System will be restarted, continue <y/n>? y
Note: When the system is restarted, it will always run the Power-On Self-Test. It will also
retain all configuration information stored in non-volatile memory by the copy running-
config startup-config command.
end
Default Setting: None
Command Mode: Global Configuration, Interface Configuration, Line Configuration, and
VLAN Database Configuration.
This command
returns to Privileged
Exec mode.
Example: This example shows how to return to the Privileged Exec mode from the
Interface Configuration mode:
Console(config-if)#end
Console#
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CLI (Command Line Interface)
General Commands (Cont.)
Command
Function
exit
Default Setting: None
Command Mode: Any
This command
returns to the
Example: This example shows how to return to the Privileged Exec mode from the
previous configura-
tion mode or exit
the configuration
program.
Global Configuration mode, and then quit the CLI session:
Console(config)#exit
Console#exit
Press ENTER to start session
User Access Verification
Username:
quit
Default Setting: None
Command Mode: Normal Exec, Privileged Exec
Command Usage: The quit and exit commands can both exit the configuration program.
Example: This example shows how to quit a CLI session:
Console#quit
This command exits
the configuration
program.
Press ENTER to start session
User Access Verification
Username:
help
?
Shows how to use help
Shows options for command completion (context sensitive)
System Management Commands
These commands are used to control system logs, passwords, user names, browser configuration options, and
display or configure a variety of other system information.
System Management Commands
Command Group
Function
Page #
• Device Designation Configures information that uniquely identifies this switch
• User Access
• IP Filter
Configures IP addresses that are allowed management access
Enables management access via a web browser
Enables management access via Telnet
• Web Server
• Telnet Server
• Secure Shell
• Event Logging
• SMTP Alerts
• Time Commands
• System Status
Provides secure replacement for Telnet
Controls logging of error messages
Configures SMTP email alerts
Sets the system clock automatically via NTP/SNTP server or manually
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CLI (Command Line Interface)
Device Designation Commands
Device Designation Commands
Command
Function
prompt
Syntax:
prompt string
no prompt
This command customizes the
CLI prompt.
• string - Any alphanumeric string to use for the CLI prompt.
Maximum length: 255 characters.
Use the no form to restore the
default prompt.
Default Setting: Console
Command Mode: Global Configuration
Example:
Console(config)#prompt FE-PoE
FE-PoE(config)#
hostname
Syntax:
hostname name
no hostname
This command specifies or
modifies the host name for this
device.
• name - The name of this host.
Maximum length: 255 characters.
Use the no form to restore the
default host name.
Default Setting: None
Command Mode: Global Configuration
Example:
Console(config)#hostname RD#1
Console(config)#
snmp-server contact
snmp-server location
Sets the system contact string
Sets the system location string
User Access Commands
The basic commands required for management access are listed in this section. This switch also includes other
options for password checking via the console or a Telnet connection (page 165), user authentication via a
remote authentication server (page 224), and host access authentication for specific ports (page 205).
User Access Commands
Command
Function
username
Syntax:
username name {access-level level | nopassword | password {0 | 7}
password}
no username name
This command adds
named users,
requires
authentication at
login, specifies or
changes a user's
password (or
specify that no
password is
• name - The name of the user.
Maximum length: 8 characters, case sensitive.
Maximum users: 16
• access-level level - Specifies the user level.
The device has two predefined privilege levels:
0: Normal Exec
required), or
15: Privileged Exec
specifies or
changes a user's
access level.
• nopassword - No password is required for this user to log in.
• {0 | 7} - 0 means plain password, 7 means encrypted password.
• password password - The authentication password for the user. (Maximum length: 8
characters plain text, 32 encrypted, case sensitive)
Use the no form to
remove a user
name.
Default Setting: The default access level is Normal Exec.
The factory defaults for the user names and passwords are:
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CLI (Command Line Interface)
Device Designation Commands (Cont.)
Command
Function
username (Cont.)
:
username
guest
Command Mode: Global Configuration
access-level
password
0
guest
Command Usage: The encrypted password is required for compatibility with legacy
password settings (i.e., plain text or encrypted) when reading the configuration file dur-
ing system bootup or when downloading the configuration file from a TFTP server. There
is no need for you to manually configure encrypted passwords.
Example: This example shows how to set the access level and password for a user.
Console(config)#username bob access-level 15
Console(config)#username bob password 0 smith
Console(config)#
enable password
Syntax:
enable password [level level] {0 | 7} password
no enable password [level level]
After initially
logging onto the
system, you should
set the Privileged
Exec password.
• level level - Level 15 for Privileged Exec.
Levels 0-14 are not used.
• {0 | 7} - 0 means plain password, 7 means encrypted password.
• password - password for this privilege level.
Maximum length: 8 characters plain text, 32 encrypted, case sensitive
Remember to
record it in a safe
place.
Default Setting:
This command
• The default is level 15.
controls access to
the Privileged Exec
level from the
• The default password is “super”
Command Mode: Global Configuration
Command Usage: You cannot set a null password. You will have to enter a password to
change the command mode from Normal Exec to Privileged Exec with the enable com-
mand (page 4-19). The encrypted password is required for compatibility with legacy
password settings (i.e., plain text or encrypted) when reading the configuration file dur-
ing system bootup or when downloading the configuration file from a TFTP server. There
is no need for you to manually configure encrypted passwords.
Normal Exec level.
Use the no form to
reset the default
password.
Example:
Console(config)#enable password level 15 0 admin
Console(config)#
IP Filter Commands
IP Filter Commands
Command
Function
management
Syntax:
[no] management {all-client | http-client | snmp-client | telnet-client}
start-address [end-address]
This command
specifies the client
IP addresses that
are allowed
managementaccess
to the switch through
various protocols.
• all-client - Adds IP address(es) to the SNMP, web and Telnet groups.
• http-client - Adds IP address(es) to the web group.
• snmp-client - Adds IP address(es) to the SNMP group.
• telnet-client - Adds IP address(es) to the Telnet group.
• start-address - A single IP address, or the starting address of a range.
• end-address - The end address of a range.
Use the no form to
restore the default
setting.
Default Setting: All addresses
Command Mode: Global Configuration
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CLI (Command Line Interface)
IP Filter Commands (Cont.)
Command
Function
management
(Cont.)
Command Usage
• If anyone tries to access a management interface on the switch from an invalid
address, the switch will reject the connection, enter an event message in the system
log, and send a trap message to the trap manager.
• IP address can be configured for SNMP, web and Telnet access respectively. Each of
these groups can include up to five different sets of addresses, either individual
addresses or address ranges.
• When entering addresses for the same group (i.e., SNMP, web or Telnet), the switch
will not accept overlapping address ranges. When entering addresses for different
groups, the switch will accept overlapping address ranges.
• You cannot delete an individual address from a specified range. You must delete the
entire range, and reenter the addresses.
• You can delete an address range just by specifying the start address, or by specifying
both the start address and end address.
Example: This example restricts management access to the indicated addresses.
Console(config)#management all-client 192.168.1.19
Console(config)#management all-client 192.168.1.25 192.168.1.30
Console(config)#
show management Syntax:
show management {all-client | http-client | snmp-client | telnet-client}
This command
• all-client - Adds IP address(es) to the SNMP, web and Telnet groups.
• http-client - Adds IP address(es) to the web group.
• snmp-client - Adds IP address(es) to the SNMP group.
• telnet-client - Adds IP address(es) to the Telnet group.
Command Mode: Global Configuration
displays the client IP
addresses that are
allowed manage-
ment access to the
switch through
various protocols.
Example:
Console#show management all-client
Management IP Filter
HTTP-Client:
Start IP address
End IP address
-----------------------------------------------
1. 192.168.1.19
2. 192.168.1.25
192.168.1.19
192.168.1.30
SNMP-Client:
Start IP address
End IP address
-----------------------------------------------
1. 192.168.1.19
2. 192.168.1.25
192.168.1.19
192.168.1.30
TELNET-Client:
Start IP address
End IP address
-----------------------------------------------
1. 192.168.1.19
2. 192.168.1.25
192.168.1.19
192.168.1.30
Console#
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CLI (Command Line Interface)
Web Server Commands
Web Server Commands
Command
Function
ip http port
Syntax:
ip http port port-number
no ip http port
This command
specifies the TCP port
number used by the
web browser
• port-number - The TCP port to be used by the browser interface.
Range: 1-65535
Default Setting: 80
interface.
Command Mode: Global Configuration
Example:
Use the no form to
use the default port.
Console(config)#ip http port 769
Console(config)#
ip http server
Syntax:
[no] ip http server
Default Setting: Enabled
This command allows
this device to be
monitored or
configured from a
browser.
Command Mode: Global Configuration
Example:
Console(config)#ip http server
Console(config)#
Use the no form to
disable this function.
ip http secure-server Syntax:
[no] ip http secure-server
This command
Default Setting: Enabled
Command Mode: Global Configuration
Command Usage:
enables the secure
hypertext transfer
protocol (HTTPS) over
the Secure Socket
Layer (SSL), providing
secure access (i.e., an
encrypted
• Both HTTP and HTTPS service can be enabled independently on the switch.
However, you cannot configure the HTTP and HTTPS servers to use the same UDP
port.
• If you enable HTTPS, you must indicate this in the URL that you specify in your
browser: https://device[:port_number]
connection) to the
switch’s web interface.
• When you start HTTPS, the connection is established in this way:
Use the no form to
• The client authenticates the server using the server’s digital certificate.
• The client and server negotiate a set of security protocols to use for the connection.
• The client and server generate session keys for encrypting and decrypting data.
• The client and server establish a secure encrypted connection.
disable this function.
• A padlock icon should appear in the status bar for Internet Explorer 5.x and Netscape
Navigator 4.x or later versions.
• The following web browsers and operating systems currently support HTTPS
Internet Explorer 5.0 or later: Windows 98,Windows NT (with service pack 6a),
Windows 2000, Windows XP.
Netscape Navigator 6.2 or later: Windows 98,Windows NT (with service pack 6a),
Windows 2000, Windows XP, Solaris 2.6
Example:
Console(config)#ip http secure-server
Console(config)#
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CLI (Command Line Interface)
Web Server Commands (Cont.)
Command
Function
ip http secure-port
Syntax:
ip http secure-port port_number
no ip http secure-port
This command
specifies the UDP port
number used for
HTTPS/SSL
• port_number – The UDP port used for HTTPS/SSL. (Range: 1-65535)
Default Setting: 443
connection to the
switch’s web interface.
Command Mode: Global Configuration
Command Usage:
Use the no form to
restore the default
port.
• You cannot configure the HTTP and HTTPS servers to use the same port.
• If you change the HTTPS port number, clients attempting to connect to the HTTPS
server must specify the port number in the URL, in this format:
https://device:port_number
Example:
Console(config)#ip http secure-port 1000
Console(config)#
Time Commands
calendar set
Set the system clock
show calendar
Displays the system clock
Telnet Server Commands
Telnet Server Commands
Command
Function
ip telnet port
Syntax:
ip telnet port port-number
no ip telnet port
This command
specifies the TCP
port number used
by the Telnet
• port-number - The TCP port to be used by the browser interface.
Range: 1-65535
Default Setting: 23
interface.
Command Mode: Global Configuration
Example:
Use the no form to
use the default
port.
Console(config)#ip telnet port 123
Console(config)#
ip telnet server
Syntax:
[no] ip telnet server
Default Setting: Enabled
This command
allows this device
to be monitored or
configured from
Telnet.
Command Mode: Global Configuration
Example:
Console(config)#ip telnet server
Console(config)#
Use the no form to
disable this
function.
Secure Shell Commands
The Berkley-standard includes remote access tools originally designed for Unix systems. Some of these tools
have also been implemented for Microsoft Windows and other environments. These tools, including
commands such as rlogin (remote login), rsh (remote shell), and rcp (remote copy), are not secure from hostile
attacks.
The Secure Shell (SSH) includes server/client applications intended as a secure replacement for the older
Berkley remote access tools. SSH can also provide remote management access to this switch as a secure
replacement for Telnet. When a client contacts the switch via the SSH protocol, the switch uses a public-key
that the client must match along with a local user name and password for access authentication.
The switch supports SSH version 1.5 and 2.0.
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CLI (Command Line Interface)
The SSH server on this switch supports both password and public key authentication.
ꢀ
If password authentication is specified by the SSH client, then the password can be authenticated
either locally or via a RADIUS or TACACS+ remote authentication server, as specified by the
ꢀ
If public key authentication is specified by the client, then you must configure authentication keys
on both the client and the switch as described in the following section.
Note that regardless of whether you use public key or password authentication, you still have to generate
authentication keys on the switch and enable the SSH server.
To Use the SSH Server
1. Generate a Host Key Pair – Use the ip ssh crypto host-key generate command (see page 179) to create
a host public/private key pair.
2. Provide Host Public Key to Clients – Many SSH client programs automatically import the host public
key during the initial connection setup with the switch. Otherwise, you need to manually create a known
hosts file on the management station and place the host public key in it. An entry for a public key in the
known hosts file would appear similar to the following example:
10.1.0.54 1024 35 15684995401867669259333946775054617325313674890836547254
15020245593199868544358361651999923329781766065830956 10825913212890233
76546801726272571413428762941301196195566782 59566410486957427888146206
519417467729848654686157177393901647793559423035774130980227370877945452408397
1752646358058176716709574804776117
3. Import Client’s Public Key to the Switch – Use the copy tftp public-key command to copy a file
containing the public key for all the SSH client’s granted management access to the switch. (Note that
these clients must be configured locally on the switch with the username command as described on
page 172.) The clients are subsequently authenticated using these keys. The current firmware only
accepts public key files based on standard UNIX format as shown in the following example for an RSA
Version 1 key:
1024 35 1341081685609893921040944920155425347631641921872958921143173880
055536161631051775940838686311092912322268285192543746031009371877211996963178
136627741416898513204911720483033925432410163799759237144901193800609025394840
848271781943722884025331159521348610229029789827213532671316294325328189150453
06393916643 [email protected]
4. Set the Optional Parameters – Set other optional parameters, including the authentication timeout, the
number of retries, and the server key size.
5. Enable SSH Service – Use the ip ssh server command (see page 178) to enable the SSH server on the
switch.
6. Configure Challenge-Response Authentication – When an SSH client attempts to contact the switch,
the SSH server uses the host key pair to negotiate a session key and encryption method. Only clients that
have a private key corresponding to the public keys stored on the switch can gain access. The following
exchanges take place during this process:
a. The client sends its public key to the switch.
b. The switch compares the client's public key to those stored in memory.
c. If a match is found, the switch uses the public key to encrypt a random sequence of bytes, and sends
this string to the client.
d. The client uses its private key to decrypt the bytes, and sends the decrypted bytes back to the switch.
The switch compares the decrypted bytes to the original bytes it sent. If the two sets match, this means that the
client's private key corresponds to an authorized public key, and the client is authenticated.
To use SSH with only password authentication, the host public key must still be given
to the client, either during initial connection or manually entered into the known host
file. However, you do not need to configure the client’s keys.
This section describes the commands used to configure the SSH server. However, note that you also need to
install a SSH client on the management station when using this protocol to configure the switch.
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CLI (Command Line Interface)
Secure Shell Commands
Command
Function
ip ssh server
Syntax:
[no] ip ssh server
Default Setting: Disabled
This command enables
the Secure Shell (SSH)
server on this switch.
Command Mode: Global Configuration
Use the no form to disable
this service.
Command Usage:
• The SSH server supports up to four client sessions. The maximum number of
client sessions includes both current Telnet sessions and SSH sessions.
• The SSH server uses DSA or RSA for key exchange when the client first
establishes a connection with the switch, and then negotiates with the client to
select either DES (56-bit) or 3DES (168-bit) for data encryption.
• You must generate the host key before enabling the SSH server.
Example:
Console#ip ssh crypto host-key generate dsa
Console#configure
Console(config)#ip ssh server
Console(config)#
ip ssh timeout
Syntax:
ip ssh timeout seconds
no ip ssh timeout
This command configures
the timeout for the SSH
server.
• seconds – The timeout for client response during SSH negotiation.
Range: 1-120
Use the no form to restore
the default setting.
Default Setting: 10 seconds
Command Mode: Global Configuration
Command Usage: The timeout specifies the interval the switch will wait for a
response from the client during the SSH negotiation phase. Once an SSH session
has been established, the timeout for user input is controlled by the exec-timeout
command for vty sessions.
Example:
Console(config)#ip ssh timeout 60
Console(config)#
ip ssh authentication-
retries
Syntax:
ip ssh authentication-retries count
no ip ssh authentication-retries
This command configures
the number of times the
SSH server attempts to
reauthenticate a user.
• count – The number of authentication attempts permitted after which the
interface is reset.
Range: 1-5
Default Setting: 3
Use the no form to restore
the default setting.
Command Mode: Global Configuration
Example:
Console(config)#ip ssh authentication-retires 2
Console(config)#
ip ssh server-key size
Syntax:
ip ssh server-key size key-size
no ip ssh server-key size
This command sets the
SSH server key size.
• key-size – The size of server key.
Range: 512-896 bits
Use the no form to restore
the default setting.
Default Setting: 768 bits
Command Mode: Global Configuration
Command Usage:
• The server key is a private key that is never shared outside the switch.
• The host key is shared with the SSH client, and is fixed at 1024 bits.
Example:
Console(config)#ip ssh server-key size 512
Console(config)#
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CLI (Command Line Interface)
Secure Shell Commands (Cont.)
Command
Function
copy tftp public-key
delete public-key
Copies the user’s public key from a TFTP server to the switch
Syntax:
delete public-key username [dsa | rsa]
• username – Name of an SSH user.
Range: 1-8 characters
This command deletes the
specified user’s public
key.
• dsa – DSA public key type.
• rsa – RSA public key type.
Default Setting: Deletes both the DSA and RSA key.
Command Mode: Privileged Exec
Example:
Console#delete public-key admin dsa
Console#
ip ssh crypto host-key
generate
Syntax:
ip ssh crypto host-key generate [dsa | rsa]
• dsa – DSA (Version 2) key type.
This command generates
the host key pair (i.e., pub-
lic and private).
• rsa – RSA (Version 1) key type.
Default Setting: Generates both the DSA and RSA key pairs.
Command Mode: Privileged Exec
Command Usage:
• This command stores the host key pair in memory (i.e., RAM). Use the ip ssh
save host-key command to save the host key pair to flash memory.
• Some SSH client programs automatically add the public key to the known hosts
file as part of the configuration process. Otherwise, you must manually create a
known hosts file and place the host public key in it.
• The SSH server uses this host key to negotiate a session key and encryption
method with the client trying to connect to it.
Example:
Console#ip ssh crypto host-key generate dsa
Console#
ip ssh crypto zeroize
Syntax:
ip ssh crypto zeroize [dsa | rsa]
• dsa – DSA key type.
This command clears the
host key from memory (i.e.
RAM).
• rsa – RSA key type.
Default Setting: Clears both the DSA and RSA key.
Command Mode: Privileged Exec
Command Usage:
• This command clears the host key from volatile memory (RAM). Use the no ip
ssh save host-key command to clear the host key from flash memory.
• The SSH server must be disabled before you can execute this command.
Example:
Console#ip ssh crypto zeroize dsa
Console#
ip ssh save host-key
Syntax:
ip ssh save host-key [dsa | rsa]
• dsa – DSA key type.
This command saves host
key from RAM to flash
memory.
• rsa – RSA key type.
Default Setting: Saves both the DSA and RSA key.
Command Mode: Privileged Exec
Example:
Console#ip ssh save host-key dsa
Console#
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CLI (Command Line Interface)
Secure Shell Commands (Cont.)
Command
Function
show ip ssh
Command Mode: Privileged Exec
Example:
This command displays
the connection settings
used when authenticating
client access to the SSH
server.
Console#show ip ssh
SSH Enabled - version 1.99
Negotiation timeout: 120 secs; Authentication retries: 3
Server key size: 768 bits
Console#
show ssh
Command Mode: Privileged Exec
Example:
This command displays
the current SSH server
connections.
Console#show ssh
Connection Version State
Username Encryption
Session-Started admin ctos aes128-cbc-hmac-md5
stoc aes128-cbc-hmac-md5
0
2.0
Console#
show ssh - display description
Field
Description
Session:
Version:
State:
The session number. (Range: 0-3)
The Secure Shell version number.
The authentication negotiation state.
(Values: Negotiation-Started, Authentication-Started, Session-
Started)
Username: The user name of the client.
Encryption: The encryption method is automatically negotiated between the client
and server.
Options for SSHv1.5 include: DES, 3DES
Options for SSHv2.0 can include different algorithms for the client-to-
server (ctos) and server-to-client (stoc):
• aes128-cbc-hmac-sha1
• aes192-cbc-hmac-sha1
• aes256-cbc-hmac-sha1
• 3des-cbc-hmac-sha1
• blowfish-cbc-hmac-sha1
• aes128-cbc-hmac-md5
• aes192-cbc-hmac-md5
• aes256-cbc-hmac-md5
• 3des-cbc-hmac-md5
• blowfish-cbc-hmac-md5
Terminology:
• DES – Data Encryption Standard (56-bit key)
• 3DES – Triple-DES (Uses three iterations of DES, 112-bit key)
• aes – Advanced Encryption Standard (160 or 224-bit key)
• blowfish – Blowfish (32-448 bit key)
• cbc – cypher-block chaining
• sha1 – Secure Hash Algorithm 1 (160-bit hashes)
• md5 – Message Digest algorithm number 5 (128-bit hashes)
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CLI (Command Line Interface)
Secure Shell Commands (Cont.)
Command
Function
show public-key
Syntax:
show public-key [user [username]| host]
This command shows the
public key for the specified
user or for the host.
• username – Name of an SSH user. (Range: 1-8 characters)
Default Setting: Shows all public keys.
Command Mode: Privileged Exec
Command Usage: If no parameters are entered, all keys are displayed. If the user
keyword is entered, but no user name is specified, then the public keys for all
users are displayed.
• When an RSA key is displayed, the first field indicates the size of the host key
(e.g., 1024), the second field is the encoded public exponent (e.g., 35), and the
last string is the encoded modulus.
• When a DSA key is displayed, the first field indicates that the encryption method
used by SSH is based on the Digital Signature Standard (DSS), and the last
string is the encoded modulus.
Example:
Console#show public-key host
Host:
RSA:
1024 35
1568499540186766925933394677505461732531367489083654725415020245593
1998685443583616519999233297817660658309586108259132128902337654680
1726272571413428762941301196195566782595664104869574278881462065194
1746772984865468615717739390164779355942303577413098022737087794545
24083971752646358058176716709574804776117
DSA:
ssh-dss AAAB3NzaC1kc3MAAACBAPWKZTPbsRIB8ydEXcxM3dyV/yrDbKStIlnzD/
Dg0h2Hxc YV44sXZ2JXhamLK6P8bvuiyacWbUW/
a4PAtp1KMSdqsKeh3hKoA3vRRSy1N2XFfAKxl5fwFfv
JlPdOkFgzLGMinvSNYQwiQXbKTBH0Z4mUZpE85PWxDZMaCNBPjBrRAAAAFQChb4vsdf
QGNIjwbvwrNLaQ77isiwAAAIEAsy5YWDC99ebYHNRj5kh47wY4i8cZvH+/
p9cnrfwFTMU01VFDly3IR 2G395NLy5Qd7ZDxfA9mCOfT/
yyEfbobMJZi8oGCstSNOxrZZVnMqWrTYfdrKX7YKBw/Kjw6Bm
iFq7O+jAhf1Dg45loAc27s6TLdtny1wRq/
ow2eTCD5nekAAACBAJ8rMccXTxHLFAczWS7EjOy
DbsloBfPuSAb4oAsyjKXKVYNLQkTLZfcFRu41bS2KV5LAwecsigF/
+DjKGWtPNIQqabKgYCw2 o/
dVzX4Gg+yqdTlYmGA7fHGm8ARGeiG4ssFKy4Z6DmYPXFum1Yg0fhLwuHpOSKdxT3kk4
75S7 w0W
Console#
show users
Shows SSH users, including privilege level and public key type
Event Logging Commands
Event Logging Commands
Command
Function
logging on
Syntax:
[no] logging on
Default Setting: None
This command controls
logging of error messages,
sending debug or error
messages to switch
memory.
Command Mode: Global Configuration
Command Usage: The logging process controls error messages saved to switch
memory. You can use the logging history command to control the type of error
messages that are stored.
The no form disables the
logging process.
Example:
Console(config)#logging on
Console(config)#
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CLI (Command Line Interface)
Event Logging Commands (Cont.)
Command
Function
logging history
Syntax:
logging history {flash | ram} level
no logging history {flash | ram}
This command limits sys-
log messages saved to
switch memory based on
severity.
• flash - Event history stored in flash memory (i.e., permanent memory).
• ram - Event history stored in temporary RAM (i.e., memory flushed on power
reset).
The no form returns the
logging of syslog
messages to the default
level.
• level - One of the levels listed below. Messages sent include the selected level
down to level 0. (Range: 0-7).
Logging Levels
Level Severity Name
Description
7
6
5
4
debugging
informational
notifications
warnings
Debugging messages
Informational messages only
Normal but significant condition, such as cold start
Warning conditions (e.g., return false, unexpected
return)
3
2
errors
critical
Error conditions (e.g., invalid input, default used)
Critical conditions (e.g., memory allocation, or free
memory error - resource exhausted)
1
0
alerts
Immediate action needed
System unusable
emergencies
Default Setting:
• Flash: errors (level 3 - 0)
• RAM: warnings (level 7 - 0)
Command Mode: Global Configuration
Command Usage: The message level specified for flash memory must be a
higher priority (i.e., numerically lower) than that specified for RAM.
Example:
Console(config)#logging history ram 0
Console(config)#
logging host
Syntax
[no] logging host host_ip_address
• host_ip_address - The IP address of a syslog server.
This command adds a
syslog server host IP
address that will receive
logging messages.
Default Setting: None
Command Mode: Global Configuration
Command Usage:
Use the no form to remove
a syslog server host.
• By using this command more than once you can build up a list of host IP
addresses.
• The maximum number of host IP addresses allowed is five.
Example:
Console(config)#logging host 10.1.0.3
Console(config)#
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CLI (Command Line Interface)
Event Logging Commands (Cont.)
Command
Function
logging facility
Syntax
[no] logging facility type
This command sets the
facility type for remote
logging of syslog
messages.
• type - A number that indicates the facility used by the syslog server to dispatch
log messages to an appropriate service.
Range: 16-23.
Default Setting: 23
Use the no form to return
the type to the default.
Command Mode: Global Configuration
Command Usage: The command specifies the facility type tag sent in syslog
messages. (See RFC 3164.) This type has no effect on the kind of messages
reported by the switch. However, it may be used by the syslog server to sort mes-
sages or to store messages in the corresponding database.
Example:
Console(config)#logging facility 19
Console(config)#
logging trap
Syntax
logging trap [level]
no logging trap
This command enables the
logging of system
• level - One of the level arguments listed below. Messages sent include the
selected level up through level 0.
messages to a remote
server, or limits the syslog
messages saved to a
remote server based on
severity.
Default Setting:
• Enabled
• Level 7 - 0
Use this command without
a specified level to enable
remote logging.
Command Mode: Global Configuration
Command Usage:
• Using this command with a specified level enables remote logging and sets the
minimum severity level to be saved.
Use the no form to disable
remote logging.
• Using this command without a specified level also enables remote logging, but
restores the minimum severity level to the default.
Example:
Console(config)#logging trap 4
Console(config)#
clear logging
Syntax
clear logging [flash | ram]
This command clears
messages from the log
buffer.
• flash - Event history stored in flash memory (i.e., permanent memory).
• ram - Event history stored in temporary RAM (i.e., memory flushed on power
reset).
Default Setting: Flash and RAM
Command Mode: Privileged Exec
Example:
Console#clear logging
Console#
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CLI (Command Line Interface)
Event Logging Commands (Cont.)
Command
Function
show logging
Syntax
show logging {flash | ram | sendmail | trap}
• flash - Displays settings for storing event messages in flash memory (i.e.,
permanent memory).
This command displays the
configuration settings for
logging messages to local
switch memory, to an
SMTP event handler, or to
a remote syslog server.
• ram - Displays settings for storing event messages in temporary RAM (i.e.,
memory flushed on power reset).
• sendmail - Displays settings for the SMTP event handler.
• trap - Displays settings for the trap function.
Default Setting: None
Command Mode: Privileged Exec
Example:
The following example shows that system logging is enabled, the message level
for flash memory is “errors” (i.e., default level 3 - 0), the message level for RAM is
“debugging” (i.e., default level 7 - 0).
Console#show logging flash
Syslog logging:
Enabled
History logging in FLASH: level errors
Console#show logging ram
Syslog logging:
Enabled
History logging in RAM: level debugging
Console#
Show Logging Flash/ram - Display Description
Field
Description
Syslog logging
Shows if system logging has been enabled via the
logging on command.
History logging in FLASH The message level(s) reported based on the logging
history command.
History logging in RAM
The message level(s) reported based on the logging
history command.
The following example displays settings for the trap function:
Console#show logging trap
Syslog logging: Enable
REMOTELOG status: disable
REMOTELOG facility type: local use 7
REMOTELOG level type: Debugging messages
REMOTELOG server IP address: 1.2.3.4
REMOTELOG server IP address: 0.0.0.0
REMOTELOG server IP address: 0.0.0.0
REMOTELOG server IP address: 0.0.0.0
REMOTELOG server IP address: 0.0.0.0
Console#
Show Logging Trap - Display Description
Field
Description
Syslog logging
Shows if system logging has been enabled via the
logging on command.
REMOTELOG status
Shows if remote logging has been enabled via the
logging trap command.
REMOTELOG facility type The facility type for remote logging of syslog mes-
sages as specified in the logging facility command.
REMOTELOG level type The severity threshold for syslog messages sent to a
remote server as specified in the logging trap
command.
REMOTELOG server IP
address
The address of syslog servers as specified in the
logging host command.
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CLI (Command Line Interface)
Event Logging Commands (Cont.)
Command
Function
show log
Syntax:
• show log {flash | ram} [login] [tail]
This command displays the
system and event mes-
sages stored in memory.
• flash - Event history stored in flash memory (i.e., permanent memory).
• ram - Event history stored in temporary RAM (i.e., memory flushed on power
reset).
• tail - Shows event history starting from the most recent entry.
• login - Shows the login record only.
Default Setting: None
Command Mode: Privileged Exec
Command Usage: This command shows the system and event messages stored
in memory, including the time stamp, message level, program module, function,
and event number.
Example: The following example shows sample messages stored in RAM:
Console#show log ram
[5] 00:01:06 2001-01-01
"STA root change notification."
level: 6, module: 6, function: 1, and event no.: 1
[4] 00:01:00 2001-01-01
"STA root change notification."
level: 6, module: 6, function: 1, and event no.: 1
[3] 00:00:54 2001-01-01
"STA root change notification."
level: 6, module: 6, function: 1, and event no.: 1
[2] 00:00:50 2001-01-01
"STA topology change notification."
level: 6, module: 6, function: 1, and event no.: 1
[1] 00:00:48 2001-01-01
"VLAN 1 link-up notification."
level: 6, module: 6, function: 1, and event no.: 1
Console#
SMTP Alert Commands
Configures SMTP event handling, and forwarding of alert messages to the specified SMTP servers and email
recipients.
SMTP Alert Commands
Command
Function
logging sendmail host
Syntax:
[no] logging sendmail host ip_address
• ip_address - IP address of an SMTP server that will be sent alert
messages for event handling.
This command specifies SMTP
servers that will be sent alert
messages.
Default Setting: None
Use the no form to remove an
SMTP server.
Command Mode: Global Configuration
Command Usage:
• You can specify up to three SMTP servers for event handing. However,
you must enter a separate command to specify each server.
• To send email alerts, the switch first opens a connection, sends all the
email alerts waiting in the queue one by one, and finally closes the
connection.
• To open a connection, the switch first selects the server that
successfully sent mail during the last connection, or the first server
configured by this command. If it fails to send mail, the switch selects
the next server in the list and tries to send mail again. If it still fails, the
system will repeat the process at a periodic interval. (A trap will be
triggered if the switch cannot successfully open a connection.)
Example:
Console(config)#logging sendmail host 192.168.1.200
Console(config)#
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CLI (Command Line Interface)
SMTP Alert Commands (Cont.)
Command
Function
logging sendmail level
Syntax:
logging sendmail level level
This command sets the severity
threshold used to trigger alert
messages.
• level - One of the system message levels. Messages sent include the
selected level down to level 0.
Range: 0-7; Default: 7
Default Setting: Level 7
Command Mode: Global Configuration
Command Usage: The specified level indicates an event threshold. All
events at this level or higher will be sent to the configured email recipi-
ents. (For example, using Level 7 will report all events from level 7 to
level 0.)
Example: This example will send email alerts for system errors from
level 4 through 0:
Console(config)#logging sendmail level 4
Console(config)#
logging sendmail source-email
Syntax:
[no] logging sendmail source-email email-address
• email-address - The source email address used in alert messages.
Range: 0-41 characters.
This command sets the email
address used for the “From” field in
alert messages.
Default Setting: None
Use the no form to delete the source
email address.
Command Mode: Global Configuration
Command Usage: You may use an symbolic email address that identi-
fies the switch, or the address of an administrator responsible for the
switch.
Example: This example will set the source email [email protected]:
Console(config)#logging sendmail source-email [email protected]
Console(config)#
logging sendmail destination-
email
Syntax:
[no] logging sendmail destination-email email-address
• email-address - The source email address used in alert messages.
Range: 1-41 characters.
This command specifies the email
recipients of alert messages.
Default Setting: None
Use the no form to remove a
recipient.
Command Mode: Global Configuration
Command Usage: You can specify up to five recipients for alert mes-
sages. However, you must enter a separate command to specify each
recipient.
Example:
Console(config)#logging sendmail destination-email
Console(config)#
logging sendmail
Syntax:
[no] logging sendmail
Default Setting: Enabled
This command enables SMTP event
handling.
Command Mode: Global Configuration
Example:
Use the no form to disable this func-
tion.
Console(config)#logging sendmail
Console(config)#
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CLI (Command Line Interface)
SMTP Alert Commands (Cont.)
Command
Function
show logging sendmail
Command Mode: Normal Exec, Privileged Exec
Example:
This command displays the settings
for the SMTP event handler.
Console#show logging sendmail
SMTP servers
-----------------------------------------------
1. 192.168.1.200
SMTP minimum severity level: 4
SMTP destination email addresses
-----------------------------------------------
SMTP source email address:
Enabled
SMTP status:
Console#
Time Commands
The system clock can be dynamically set by polling a set of specified time servers (NTP or SNTP).
Maintaining an accurate time on the switch enables the system log to record meaningful dates and times for
event entries. If the clock is not set, the switch will only record the time from the factory default set at the last
bootup.
Time Commands
Command
Function
sntp client
Syntax:
[no] sntp client
Default Setting: Disabled
This command
enables SNTP client
requests for time
synchronization
from NTP or SNTP
time servers
specified with the
sntp servers
command.
Command Mode: Global Configuration
Command Usage:
The time acquired from time servers is used to record accurate dates and times for log
events. Without SNTP, the switch only records the time starting from the factory default
set at the last bootup (i.e., 00:00:00, Jan. 1, 2001).
This command enables client time requests to time servers specified via the sntp servers
command. It issues time synchronization requests based on the interval set via the sntp
poll command.
Use the no form to
disable SNTP client
requests.
Example:
Console(config)#sntp server 10.1.0.19
Console(config)#sntp poll 60
Console(config)#sntp client
Console(config)#end
Console#show sntp
Current time: Dec 23 02:52:44 2002
Poll interval: 60
Current mode: unicast
SNTP status: Enabled
SNTP server: 10.1.0.19 0.0.0.0 0.0.0.0
Current server: 10.1.0.19
Console#
sntp server
Syntax:
sntp server [ip1 [ip2 [ip3]]]
• ip - IP address of an time server (NTP or SNTP).
Range: 1-3 addresses
This command sets
the IP address of
the servers to which
SNTP time requests
are issued.
Default Setting: None
Command Mode: Global Configuration
Use the this
Command Usage: This command specifies time servers from which the switch will poll
for time updates when set to SNTP client mode. The client will poll the time servers in the
order specified until a response is received. It issues time synchronization requests
based on the interval set via the sntp poll command.
command with no
arguments to clear
all time servers from
the current list.
Example:
Console(config)#sntp server 10.1.0.19
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CLI (Command Line Interface)
Time Commands (Cont.)
Command
Function
sntp poll
Syntax:
sntp poll seconds
no sntp poll
This command sets
the interval between
sending time
requests when the
switch is set to
• seconds - Interval between time requests. (Range: 16-16384 seconds)
Default Setting: 16 seconds
Command Mode: Global Configuration
Example:
SNTP client mode.
Use the no form to
restore to the
default.
Console(config)#sntp poll 60
Console(config)#
show sntp
Command Mode: Normal Exec, Privileged Exec
Command Usage: This command displays the current time, the poll interval used for
sending time synchronization requests, and the current SNTP mode (i.e., unicast).
This command
displays the current
time and
Example:
configuration
Console#show sntp
settings for the
SNTP client, and
indicates whether or
not the local time
has been properly
updated.
Current time: Dec 23 05:13:28 2002
Poll interval: 16
Current mode: unicast
SNTP status : Enabled
SNTP server 137.92.140.80 0.0.0.0 0.0.0.0
Current server: 137.92.140.80
Console#
clock timezone
Syntax:
clock timezone name hour hours minute minutes {before-utc | after-utc}
• name - Name of timezone, usually an acronym. (Range: 1-29 characters)
This command sets
the time zone for the
switch’s internal
clock.
• hours - Number of hours before/after UTC. (Range: 1-12 hours)
• minutes - Number of minutes before/after UTC. (Range: 0-59 minutes)
• before-utc - Sets the local time zone before (east) of UTC.
• after-utc - Sets the local time zone after (west) of UTC.
Default Setting: None
Command Mode: Global Configuration
Command Usage: This command sets the local time zone relative to the Coordinated
Universal Time (UTC, formerly Greenwich Mean Time or GMT), based on the earth’s
prime meridian, zero degrees longitude. To display a time corresponding to your local
time, you must indicate the number of hours and minutes your time zone is east (before)
or west (after) of UTC.
Example:
Console(config)#clock timezone Japan hours 8 minute 0 after-UTC
Console(config)#
calendar set
Syntax:
calendar set hour min sec {day month year | month day year}
• hour - Hour in 24-hour format. (Range: 0-23)
This command sets
the system clock. It
may be used if there
is no time server on
your network, or if
you have not
• min - Minute. (Range: 0-59)
• sec - Second. (Range: 0-59)
• day - Day of month. (Range: 1-31)
• month - january | february | march | april | may | june | july | august | september |
october | november | december
configured the
switch to receive
signals from a time
server.
• year - Year (4-digit). (Range: 2001-2100)
Default Setting: None
Command Mode: Privileged Exec
Example: This example shows how to set the system clock to 15:12:34, April 1st, 2004:
Console#calendar set 15 12 34 1 April 2004
Console#
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CLI (Command Line Interface)
Time Commands (Cont.)
Command
Function
show calendar
Default Setting: None
Command Mode: Normal Exec, Privileged Exec
Example:
This command
displays the system
clock.
Console#show calendar
15:12:34 April 1 2004
Console#
System Status Commands
System Status Commands
Command
Function
light unit
Syntax:
light unit [unit]
This command
• unit - specifies a unit in a switch stack to light the panel LEDs
Default Setting: None
displays the unit ID of a
switch using its front-
panel LED indicators.
Command Mode: Normal Exec, Privileged Exec
Command Usage: The unit ID is displayed using the port status LED indicators for
ports 1 to 8. When the light unit command is entered, the LED corresponding to the
switch’s ID will flash for about 15 seconds.
Example:
Console#light unit 1
Console#
show startup-config
Default Setting: None
Command Mode: Privileged Exec
Command Usage:
This command
displays the
configuration file stored
in non-volatile memory
that is used to start up
the system.
• Use this command in conjunction with the show running-config command to
compare the information in running memory to the information stored in non-volatile
memory.
• This command displays settings for key command modes. Each mode group is
separated by “!” symbols, and includes the configuration mode command, and
corresponding commands.
This command displays the following information:
• SNMP community strings
• Users (names and access levels)
• VLAN database (VLAN ID, name and state)
• VLAN configuration settings for each interface
• IP address configured for the switch
• Spanning tree settings
• Any configured settings for the console port and Telnet
Example:
Console#show startup-config
building startup-config, please wait.....
!
!
username admin access-level 15
username admin password 0 admin
!
username guest access-level 0
username guest password 0 guest
!
enable password level 15 0 super
!
snmp-server community public ro
snmp-server community private rw
!
logging history ram 6
logging history flash 3
!
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CLI (Command Line Interface)
System Status Commands (Cont.)
Command
Function
vlan database
vlan 1 name DefaultVlan media ethernet state active
!
show startup-config
(Cont.)
interface ethernet 1/1
switchport allowed vlan add 1 untagged
switchport native vlan 1
.
.
.
interface vlan 1
ip address dhcp
!
line console
!
line vty
!
end
Console#
show running-config Default Setting: None
Command Mode: Privileged Exec
This command
displays the
Command Usage:
configuration
information currently in
use.
Use this command in conjunction with the show startup-config command to compare
the information in running memory to the information stored in non-volatile memory.
This command displays settings for key command modes. Each mode group is
separated by “!” symbols, and includes the configuration mode command, and
corresponding commands. This command displays the following information:
• MAC address for each switch in the stack
• SNTP server settings
• SNMP community strings
• Users (names, access levels, and encrypted passwords)
• Event log settings
• VLAN database (VLAN ID, name and state)
• VLAN configuration settings for each interface
• IP address configured for the switch
• Layer 4 precedence settings
• Any configured settings for the console port and Telnet
Example:
Console#show running-config
building running-config, please wait.....
!
phymap 5a-a5-aa-55-44-32 00-00-00-00-00-00 00-00-00-00-00-00 00-00-00-
00-00-00 00-00-00-00-00-00 00-00-00-00-00-00 00-00-00-00-00-00 00-00-
00-00-00-00
!
SNTP server 0.0.0.0 0.0.0.0 0.0.0.0
!
!
!
SNMP-server community private rw
SNMP-server community public ro
!
!
username admin access-level 15
username admin password 7 21232f297a57a5a743894a0e4a801fc3
username guest access-level 0
username guest password 7 084e0343a0486ff05530df6c705c8bb4
enable password level 15 7 1b3231655cebb7a1f783eddf27d254ca
!
!
logging history ram 6
logging history flash 3
!
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CLI (Command Line Interface)
System Status Commands (Cont.)
Command
Function
vlan database
vlan 1 name DefaultVlan media ethernet state active
!
!
show running-config
(Cont.)
interface ethernet 1/1
switchport allowed vlan add 1 untagged
switchport native vlan 1
.
.
.
!
interface vlan 1
ip address DHCP
!
!
no map IP precedence
no map IP DSCP
!
!
line console
!
line vty
!
end
!
Console#
show system
Default Setting: None
Command Mode: Normal Exec, Privileged Exec
This command
displays system
information.
Command Usage: For a description of the items shown by this command, refer to
“Displaying System Information” on page 3-9.
The POST results should all display “PASS.” If any POST test indicates “FAIL,” con-
tact your distributor for assistance.
Example:
Console#show system
System description: 24FE Stackable Intelligent Switch
System OID string: 1.3.6.1.4.1.259.6.10.61
System information
System Up time:
System Name:
0 days, 0 hours, 0 minutes, and 7.18 seconds
[NONE]
System Location:
System Contact:
MAC address:
Web server:
Web server port:
Web secure server:
[NONE]
[NONE]
5A-A5-AA-55-44-32
enabled
80
enabled
Web secure server port: 443
Telnet server:
Telnet port:
Jumbo Fram:
POST result
POST result
enable
23
Disabled
UART LOOP BACK Test..........PASS
DRAM Test....................PASS
Timer Test...................PASS
PCI Device 1 Test............PASS
PCI Device 2 Test............PASS
Switch Int Loopback test.....PASS
Done All Pass.
Console#
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CLI (Command Line Interface)
System Status Commands (Cont.)
Command
Function
show users
Default Setting: None
Command Mode: Normal Exec, Privileged Exec
Shows all active
console and Telnet
sessions, including
user name, idle time,
and IP address of
Telnet client.
Command Usage: The session used to execute this command is indicated by a “*”
symbol next to the Line (i.e., session) index number.
Example:
Console#show users
Username accounts:
Username Privilege Public-Key
-------- --------- ----------
admin
guest
steve
15
0
15
None
None
RSA
Online users:
Line
Username Idle time (h:m:s) Remote IP addr.
----------- -------- ----------------- ---------------
0
* 1
2
console
VTY 0
SSH 1
admin
admin
steve
0:14:14
0:00:00
0:00:06
192.168.1.19
192.168.1.19
Web online users:
Line Remote IP addr Username Idle time (h:m:s).
----------- -------------- -------- ------------------
HTTP 192.168.1.19 admin 0:00:00
1
Console#
show version
Default Setting: None
Command Mode: Normal Exec, Privileged Exec
This command
Displays hardware and
software version
information for the
system.
Command Usage: See “Displaying Switch Hardware/Software Versions” on page 3-
10 for detailed information on the items displayed by this command.
Example:
Console#show version
Unit1
Serial number
Hardware version
Module A type
:A322043872
:R0A
:Combo 1000BaseT SFP
Module B type
:Combo 1000BaseT SFP
Number of ports
Main power status
:26
:up
Redundant power status :not present
Agent(master)
Loader version:
Boot ROM version:
2.2.1.1
2.2.1.2
Operation code version: 2.2.5.3
Console#
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CLI (Command Line Interface)
Flash/File Commands
These commands are used to manage the system code or configuration files.
Flash/File Commands
Command
Function
copy
Syntax:
copy file {file | running-config | startup-config | tftp | unit}
copy running-config {file | startup-config | tftp}
copy startup-config {file | running-config | tftp}
copy tftp {file | running-config | startup-config | https-certificate |
public-key}
This command
moves (upload/
download) a code
image or
configuration file
between the
copy unit file
• file - Keyword that allows you to copy to/from a file.
switch’s flash
memory and a
TFTP server.
• running-config - Keyword that allows you to copy to/from the current running
configuration.
• startup-config - The configuration used for system initialization.
• tftp - Keyword that allows you to copy to/from a TFTP server.
When you save
the system code
or configuration
settings to a file
on a TFTP server,
that file can later
be downloaded to
the switch to
• https-certificate - Copies an HTTPS certificate from an TFTP server to the switch.
• public-key - Keyword that allows you to copy a SSH key from a TFTP server. (“Secure
Shell Commands” on page 4-34)
• unit - Keyword that allows you to copy to/from a unit.
Default Setting: None
Command Mode: Privileged Exec
restore system
operation.
Command Usage:
• The system prompts for data required to complete the copy command.
The success of
the file transfer
depends on the
accessibility of the
TFTP server and
the quality of the
network
• The destination file name should not contain slashes (\ or /), the leading letter of the file
name should not be a period (.), and the maximum length for file names on the TFTP
server is 127 characters or 31 characters for files on the switch. (Valid characters: A-Z,
a-z, 0-9, “.”, “-”, “_”)
• Due to the size limit of the flash memory, the switch supports only two operation code
files.
connection.
• The maximum number of user-defined configuration files depends on available memory.
• You can use “Factory_Default_Config.cfg” as the source to copy from the factory default
configuration file, but you cannot use it as the destination.
• To replace the startup configuration, you must use startup-config as the destination.
• Use the copy file unit command to copy a local file to another switch in the stack. Use the
copy unit file command to copy a file from another switch in the stack.
• The Boot ROM and Loader cannot be uploaded or downloaded from the TFTP server.
You must follow the instructions in the release notes for new firmware, or contact your
distributor for help.
• For information on specifying an https-certificate, see “Replacing the Default Secure-site
Certificate” on page 3-42. For information on configuring the switch to use HTTPS/SSL
for a secure connection, see “ip http secure-server” on page 4-31.
Example: The following example shows how to upload the configuration settings to a file
on the TFTP server:
Console#copy file tftp
Choose file type:
1. config: 2. opcode: <1-2>: 1
Source file name: startup
TFTP server ip address: 10.1.0.99
Destination file name: startup.01
TFTP completed.
Success.
Console#
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CLI (Command Line Interface)
Flash/File Commands (Cont.)
Command
Function
copy
Example:
(Cont.)
The following example shows how to copy the running configuration to a startup file:
Console#copy running-config file
destination file name: startup
Write to FLASH Programming.
\Write to FLASH finish.
Success.
Console#
Example:
The following example shows how to download a configuration file:
Console#copy tftp startup-config
TFTP server ip address: 10.1.0.99
Source configuration file name: startup.01
Startup configuration file name [startup]:
Write to FLASH Programming.
\Write to FLASH finish.
Success.
Console#
Example:
This example shows how to copy a secure-site certificate from an TFTP server. It then
reboots the switch to activate the certificate:
Console#copy tftp https-certificate
TFTP server ip address: 10.1.0.19
Source certificate file name: SS-certificate
Source private file name: SS-private
Private password: ********
Success.
Console#reload
System will be restarted, continue <y/n>? y
Example:
This example shows how to copy a public-key used by SSH from an TFTP server. Note
that public key authentication via SSH is only supported for users configured locally on the
switch:
Console#copy tftp public-key
TFTP server IP address: 192.168.1.19
Choose public key type:
1. RSA: 2. DSA: <1-2>: 1
Source file name: steve.pub
Username: steve
TFTP Download
Success.
Write to FLASH Programming.
Success.
Console#
delete
Syntax:
delete [unit:] filename
This command
deletes a file or
image.
• filename - Name of the configuration file or image name.
• unit - Stack unit. (Range: 1-8)
Default Setting: None
Command Mode: Privileged Exec
Command Usage: If the file type is used for system startup, then this file cannot be
deleted.
• “Factory_Default_Config.cfg” cannot be deleted.
• A colon (:) is required after the specified unit number.
Example: This example shows how to delete the test2.cfg configuration file from flash
memory for unit 1:
Console#delete 1:test2.cfg
Console#
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CLI (Command Line Interface)
Flash/File Commands (Cont.)
Command
Function
dir
Syntax:
dir [unit:] {{boot-rom: | config: | opcode:} [:filename]}
This command
displays a list of
files in flash
memory.
The type of file or image to display includes:
• boot-rom - Boot ROM (or diagnostic) image file.
• config - Switch configuration file.
• opcode - Run-time operation code image file.
• filename - Name of the configuration file or image name.
• unit - Stack unit. (Range: 1-8)
Default Setting: None
Command Mode: Privileged Exec
Command Usage: If you enter the command dir without any parameters, the system dis-
plays all files.
• A colon (:) is required after the specified unit number.
File information is shown below:
• File Name: The name of the file.
• File Type: File types: Boot-Rom, Operation Code, and Config file.
• Startup: Shows if this file is used when the system is started.
• Size: The length of the file in bytes.
Example: The following example shows how to display all file information:
Console#dir 1:
file name
file type
startup size (byte)
-----------------------------------
-------------- ------- ---------
--
Unit1:
DIAG_0.0.0.4.BIX
LEO_50Y_V0.0.5.1.bix
Factory_Default_Config.cfg
startup
Boot-Rom image Y
Operation Code Y
169900
1614764
5013
Config File
Config File
N
Y
3191
-------------------------------------------------------------------------
Total free space: 5242880
Console#
whichboot
Syntax:
whichboot [unit]
• unit - Specifies the unit number.
This command
displays which
files were booted
when the system
powered up.
Default Setting: None
Command Mode: Privileged Exec
Example: This example shows the information displayed by the whichboot command. See
the table under the dir command for a description of the file information displayed by this
command.
Console#whichboot
file name
file type startup size (byte)
----------------- -------------- ------- -----------
Unit1:
diag_0060 Boot-Rom image
run_0200 Operation Code
Y
Y
Y
111360
1083008
2710
startup
Config File
Console#
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CLI (Command Line Interface)
Flash/File Commands (Cont.)
Command
Function
boot system
Syntax:
boot system [unit:] {boot-rom| config | opcode}: filename
The type of file or image to set as a default includes:
This command
specifies the
image used to
start up the
system.
• boot-rom - Boot ROM (required).
• config - Configuration file (required).
• opcode - Run-time operation code (required).
• filename - Name of the configuration file or image name.
• unit - Specifies the unit number (required).
Default Setting: None
Command Mode: Global Configuration
Command Usage:
A colon (:) is required after the specified file type.
If the file contains an error, it cannot be set as the default file.
A colon (:) is required after the specified unit number.
Example:
Console(config)#boot system config: startup
Console(config)#
Power over Ethernet (PoE) Commands
The commands in this group control the power that can be delivered to attached PoE devices through the
switch ports.
The switch’s power management enables total switch power and individual port power to be controlled within
a configured power budget. Port power can be automatically turned on and off for connected devices, and a
per-port power priority can be set so that the switch never exceeds its allocated power budget.
When a device is connected to a switch port, its power requirements are detected by the switch before power is
supplied. If the power required by a device exceeds the power budget of the port or the whole switch, power is
not supplied.
PoE Commands
Command
Function
power mainpower maximum Syntax:
allocation
power mainpower maximum allocation <watts> [unit unit]
• unit - The switch unit in the stack.
Use this command to define a
power budget for the switch
(power available to all switch
ports).
• watts - The power budget for the switch. (Range: 36 - 800 watts)
Default Setting: 375 watts
Command Mode: Privileged Executive
Use the no form to restore the
default setting.
Command Usage: Setting a maximum power budget for the switch enables
power to be centrally managed, preventing overload conditions at the power
source.
If the power demand from devices connected to the switch exceeds the power
budget setting, the switch uses port power priority settings to limit the sup-
plied power.
Example:
Console(config)#power mainpower maximum allocation 300
Console(config)#
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CLI (Command Line Interface)
PoE Commands (Cont.)
Command
Function
power inline
Syntax:
power inline [auto | test]
no power inline
Use this command to turn
power on for a specific port or
force a port into test mode.
• auto - The switch automatically detects if a device is connected to the port
and turns power on or off accordingly.
Use the no form to turn off
power for a port.
• test - Forces the port into a test mode. In test mode the port continuously
attempts to detect if a device is connected to the port, but does not supply
power.
Default Setting: auto
Command Mode: Interface Configuration
Command Usage: Using the command without an argument enables port
power in auto mode (the same as the power inline auto command).
In the default auto mode, power is automatically supplied when a device is
detected on the port, providing that the power demanded does not exceed
switch’s power budget.
Example:
Console(config)#interface ethernet 1/1
Console(config-if)#power inline auto
Console(config-if)#exit
Console(config)#interface ethernet 1/2
Console(config-if)#no power inline
Console(config-if)#
power inline maximum
allocation
Syntax:
power inline maximum allocation [milliwatts]
no power inline maximum allocation
Use this command to limit the
power allocated to specific
ports.
• milliwatts - The maximum power budget for the port.
Range: 3000 - 15400 milliwatts.
Default Setting: 15400 milliwatts
Use the no form to restore the
default setting.
Command Mode: Interface Configuration
Command Usage: If a device is connected to a switch port and the switch
detects that it requires more than the maximum power allocated to the port,
no power is supplied to the device (the port power remains off).
Example:
Console(config)#interface ethernet 1/1
Console(config-if)#power inline maximum allocation 8000
Console(config-if)#
power inline priority
Syntax:
power inline priority priority
no power inline priority
Use this command to set the
power priority for specific ports.
Use the no form to restore the
default setting.
• priority - The power priority for the port.
Options: 1 (critical), 2 (high), or 3 (low).
Default Setting: 3 (low)
Command Mode: Interface Configuration
Command Usage: If the power demand from devices connected to the
switch exceeds the power budget setting, the switch uses port power priority
settings to control the supplied power. For example:
• A device connected to a low-priority port that causes the switch to exceed
its budget is not supplied power.
• A device connected to a critical or high-priority port that causes the switch to
exceed its budget is supplied power, but the switch drops power to one or
more lower-priority ports.
• Power is dropped from low-priority ports in sequence starting from port
number 1.
Example:
Console(config)#interface ethernet 1/1
Console(config-if)#power inline priority 2
Console(config-if)#
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CLI (Command Line Interface)
PoE Commands (Cont.)
Command
Function
show power inline status
Syntax:
show power inline status [interface]
interface
ethernet
Use this command to display
the current power status for all
ports or for specific ports.
• unit - This is device 1.
• port - Physical port number on the switch (Range: 1-26).
Command Mode: Privileged Exec
Command Usage: This command displays the following
parameters:
• Oper: The current operating power status (displays on or off)
• Power (mWatt): Displays a list of files in flash memory
• Power (used): The current power consumption on the port in milliwatts
Example:
Console#show power inline status
Interface Admin
Oper Power(mWatt) Power(used) Priority
---------- ------- ---- ------------ ------------ --------
Eth
Eth
Eth
Eth
Eth
Eth
Eth
.
1/ 1 enable off
1/ 2 enable off
15400
15400
15400
15400
15400
15400
15400
0
0
low
low
low
low
low
low
low
1/ 3 enable
on
7505
0
0
1/ 4 enable off
1/ 5 enable off
1/ 6 enable off
0
1/ 7 enable
on
8597
.
.
Eth
Eth
1/23 enable off
1/24 enable off
15400
15400
0
0
low
low
Console#
show power mainpower
Command Mode: Privileged Exec
Command Usage: This command displays the following
parameters:
Use this command to display
the current power status for the
switch.
• Maximum Available Power: The available power budget for the switch (see
• System Operation Status: The current operating power status (displays on
or off)
• Mainpower Consumption: The current power consumption on the switch in
watts
• Software Version: The version of software running on the PoE controller
subsystem in the switch. This software can be updated using the copy file
Example:
Console#show power mainpower
Unit 1 Mainpower Status
Maximum Available Power : 375 watts
System Operation Status : on
Mainpower Consumption
Software Version
Console#
: 15 watts
: Version 0x1B64, Build 0x07
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CLI (Command Line Interface)
Authentication Commands
You can configure this switch to authenticate users logging into the system for management access using local
or RADIUS authentication methods. You can also enable port-based authentication for network client access
using IEEE 802.1x.
Authentication Commands
Command
Function
authentication login
Syntax:
authentication login {[local] [radius] [tacacs]}
no authentication login
This command defines the
login authentication method
and precedence.
• local - Use local password.
• radius - Use RADIUS server password.
• tacacs - Use TACACS server password.
Default Setting: Local
Use the no form to restore
the default.
Command Mode: Global Configuration
Command Usage: RADIUS uses UDP while TACACS+ uses TCP. UDP only
offers best effort delivery, while TCP offers a connection-oriented transport.
Also, note that RADIUS encrypts only the password in the access-request
packet from the client to the server, while TACACS+ encrypts the entire body of
the packet.
RADIUS and TACACS+ logon authentication assigns a specific privilege level
for each user name and password pair. The user name, password, and
privilege level must be configured on the authentication server.
You can specify three authentication methods in a single command to indicate
the authentication sequence. For example, if you enter “authentication login
radius tacacs local,” the user name and password on the RADIUS server is
verified first. If the RADIUS server is not available, then authentication is
attempted on the TACACS+ server. If the TACACS+ server is not available, the
local user name and password is checked.
Example:
Console(config)#authentication login radius
Console(config)#
authentication enable
Syntax:
authentication enable {[local] [radius] [tacacs]}
no authentication enable
This command defines the
authentication method and
precedence to use when
changing from Exec
command mode to Privileged
Exec command mode with
the enable command (see
• local - Use local password only.
• radius - Use RADIUS server password only.
• tacacs - Use TACACS server password.
Default Setting: Local
Command Mode: Global Configuration
Command Usage: RADIUS uses UDP while TACACS+ uses TCP. UDP only
offers best effort delivery, while TCP offers a connection-oriented transport.
Also, note that RADIUS encrypts only the password in the access-request
packet from the client to the server, while TACACS+ encrypts the entire body of
the packet.
Use the no form to restore
the default.
RADIUS and TACACS+ logon authentication assigns a specific privilege level
for each user name and password pair. The user name, password, and
privilege level must be configured on the authentication server.
You can specify three authentication methods in a single command to indicate
the authentication sequence. For example, if you enter “authentication enable
radius tacacs local,” the user name and password on the RADIUS server is
verified first. If the RADIUS server is not available, then authentication is
attempted on the TACACS+ server. If the TACACS+ server is not available, the
local user name and password is checked.
Example:
Console(config)#authentication enable radius
Console(config)#
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CLI (Command Line Interface)
RADIUS Client
Remote Authentication Dial-in User Service (RADIUS) is a logon authentication protocol that uses software
running on a central server to control access to RADIUS-aware devices on the network. An authentication
server contains a database of multiple user name/password pairs with associated privilege levels for each user
or group that require management access to a switch.
RADIUS Client Commands
Command
Function
radius-server host
Syntax:
[no] radius-server index host {host_ip_address | host_alias}
[auth-port auth_port] [timeout timeout] [retransmit retransmit]
[key key]
This command specifies
primary and backup
RADIUS servers and
authentication parameters
that apply to each server.
• index - Allows you to specify up to five servers. These servers are queried in
sequence until a server responds or the retransmit period expires.
• host_ip_address - IP address of server.
Use the no form to restore
the default values.
• host_alias - Symbolic name of server. (Maximum length: 20 characters)
• port_number - RADIUS server UDP port used for authentication messages.
(Range: 1-65535)
• timeout - Number of seconds the switch waits for a reply before resending a
request. (Range: 1-65535)
• retransmit - Number of times the switch will try to authenticate logon access via
the RADIUS server. (Range: 1-30)
• key - Encryption key used to authenticate logon access for client. Do not use
blank spaces in the string. (Maximum length: 20 characters)
Default Settings:
• auth-port - 1812
• timeout - 5 seconds
• retransmit - 2
Command Mode: Global Configuration
Example:
Console(config)#radius-server 1 host 192.168.1.20 auth-port 181
timeout 10 retransmit 5 key green
Console(config)#
radius-server port
Syntax:
radius-server port port_number
no radius-server port
This command sets the
RADIUS server network
port.
• port_number - RADIUS server UDP port used for authentication messages.
(Range: 1-65535)
Use the no form to restore
the default.
Default Setting: 1812
Command Mode: Global Configuration
Example:
Console(config)#radius-server port 181
Console(config)#
radius-server key
Syntax:
radius-server key key_string
no radius-server key
This command sets the
RADIUS encryption key.
• key_string - Encryption key used to authenticate logon access for client. Do not
use blank spaces in the string. (Maximum length: 20 characters)
Use the no form to restore
the default.
Default Setting: None
Command Mode: Global Configuration
Example:
Console(config)#radius-server key green
Console(config)#
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CLI (Command Line Interface)
RADIUS Client Commands (Cont.)
Command
Function
radius-server retransmit Syntax:
radius-server retransmit number_of_retries
no radius-server retransmit
This command sets the
number of retries.
• number_of_retries - Number of times the switch will try to authenticate logon
access via the RADIUS server. (Range: 1-30)
Use the no form to restore
the default.
Default Setting: 2
Command Mode: Global Configuration
Example:
Console(config)#radius-server retransmit 5
Console(config)#
radius-server timeout
Syntax:
radius-server timeout number_of_seconds
no radius-server timeout
This command sets the
interval between
transmitting authentication
requests to the RADIUS
server.
• number_of_seconds - Number of seconds the switch waits for a reply before
resending a request. (Range: 1-65535)
Default Setting: 5
Command Mode: Global Configuration
Example:
Use the no form to restore
the default.
Console(config)#radius-server timeout 10
Console(config)#
show radius-server
Default Setting: None
Command Mode: Privileged Exec
Example:
This command displays the
current settings for the
RADIUS server.
Console#show radius-server
Remote RADIUS server configuration:
Global settings
Communication key with RADIUS server:
Server port number:
Retransmit times:
Request timeout:
1812
2
5
Sever 1:
Server IP address: 192.168.1.1
Communication key with RADIUS server:
Server port number:
1812
Retransmit times:
Request timeout:
2
5
Console#
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CLI (Command Line Interface)
TACACS+ Client
Terminal Access Controller Access Control System (TACACS+) is a logon authentication protocol that uses
software running on a central server to control access to TACACS-aware devices on the network. An
authentication server contains a database of multiple user name/password pairs with associated privilege levels
for each user or group that require management access to a switch.
TACACS+ Client Commands
Command
Function
tacacs-server host
Syntax:
tacacs-server host host_ip_address
no tacacs-server host
This command specifies
the TACACS+ server.
• host_ip_address - IP address of a TACACS+ server.
Default Setting: 10.11.12.13
Use the no form to restore
the default.
Command Mode: Global Configuration
Example:
Console(config)#tacacs-server host 192.168.1.25
Console(config)#
tacacs-server port
Syntax:
tacacs-server port port_number
no tacacs-server port
This command specifies
the TACACS+ server net-
work port.
• port_number - TACACS+ server TCP port used for authentication messages.
(Range: 1-65535)
Use the no form to restore
the default.
Default Setting: 49
Command Mode: Global Configuration
Example:
Console(config)#tacacs-server port 181
Console(config)#
tacacs-server key
Syntax:
tacacs-server key key_string
no tacacs-server key
This command sets the
TACACS+ encryption key.
• key_string - Encryption key used to authenticate logon access for the client. Do
not use blank spaces in the string.(Maximum length: 20 characters)
Use the no form to restore
the default.
Default Setting: None
Command Mode: Global Configuration
Example:
Console(config)#tacacs-server key green
Console(config)#
show tacacs-server
Default Setting: None
Command Mode: Privileged Exec
Example:
This command displays the
current settings for the
TACACS+ server.
Console#show tacacs-server
Remote TACACS server configuration:
Server IP address:
10.11.12.13
Communication key with TACACS server: *****
Server port number:
Console#
49
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CLI (Command Line Interface)
Port Security Commands
These commands can be used to disable the learning function or manually specify secure addresses for a port.
You may want to leave port security off for an initial training period (i.e., enable the learning function) to
register all the current VLAN members on the selected port, and then enable port security to ensure that the
port will drop any incoming frames with a source MAC address that is unknown or has been previously
learned from another port.
Port Security Commands
Command
Function
port security
Syntax:
port security [action {shutdown | trap | trap-and-shutdown}
| max-mac-count address-count]
no port security [action | max-mac-count]
This command enables or
configures port security.
Use the no form without any key-
words to disable port security.
• action - Response to take when port security is violated.
shutdown - Disable port only.
Use the no form with the
appropriate keyword to restore the
default settings for a response to
security violation or for the
maximum number of allowed
addresses.
trap - Issue SNMP trap message only.
trap-and-shutdown - Issue SNMP trap message and disable port.
• max-mac-count
address-count - The maximum number of MAC addresses that can be
learned on a port. (Range: 0-1024)
Default Settings:
• Status: Disabled
• Action: None
• Maximum Addresses: 0
Command Mode: Interface Configuration (Ethernet)
Command Usage: If you enable port security, the switch stops learning
new MAC addresses on the specified port when it has reached a config-
ured maximum number. Only incoming traffic with source addresses
already stored in the dynamic or static address table will be accepted.
First use the port security max-mac-count command to set the number of
addresses, and then use the port security command to enable security
on the port.
Use the no port security max-mac-count command to disable port secu-
rity and reset the maximum number of addresses to the default.
You can also manually add secure addresses with the mac-address-table
static command.
A secure port has the following restrictions:
• Cannot use port monitoring.
• Cannot be a multi-VLAN port.
• Cannot be connected to a network interconnection device.
• Cannot be a trunk port.
If a port is disabled due to a security violation, it must be manually re-
enabled using the no shutdown command.
Example: The following example enables port security for port 5, and
sets the response to a security violation to issue a trap message:
Console(config)#interface ethernet 1/5
Console(config-if)#port security action trap
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CLI (Command Line Interface)
Port Security Commands (Cont.)
Command
Function
mac-address-table static
Syntax:
mac-address-table static mac-address interface interface
vlan vlan-id [action]
no mac-address-table static mac-address vlan vlan-id
This command maps a static
address to a destination port in a
VLAN.
• mac-address - MAC address.
• interface:
Use the no form to remove an
address.
ethernet unit/port
unit - Stack unit. (Range: 1-8)
port - Port number. (Range: 1-26)
port-channel channel-id (Range: 1-4)
• vlan-id - VLAN ID (Range: 1-4094)
• action -
delete-on-reset - Assignment lasts until the switch is reset.
permanent - Assignment is permanent.
Default Setting: No static addresses are defined. The default mode is
permanent.
Command Mode: Global Configuration
Command Usage: The static address for a host device can be assigned
to a specific port within a specific VLAN. Use this command to add static
addresses to the MAC Address Table. Static addresses have the follow-
ing characteristics:
• Static addresses will not be removed from the address table when a
given interface link is down.
• Static addresses are bound to the assigned interface and will not be
moved. When a static address is seen on another interface, the
address will be ignored and will not be written to the address table.
• A static address cannot be learned on another port until the address is
removed with the no form of this command.
Example:
Console(config)#mac-address-table static 00-e0-29-94-34-de
interface ethernet 1/1 vlan 1 delete-on-reset
show mac-address-table
Syntax:
show mac-address-table [address mac-address [mask]]
[interface interface] [vlan vlan-id] [sort {address | vlan |
interface}]
This command shows classes of
entries in the bridge-forwarding
database.
• mac-address - MAC address.
• mask - Bits to match in the address.
• interface
ethernet unit/port
unit - Stack unit. (Range: 1-8)
port - Port number. (Range: 1-26)
port-channel channel-id (Range: 1-4)
• vlan-id - VLAN ID (Range: 1-4094)
• sort - Sort by address, vlan or interface.
Default Setting: None
Command Mode: Privileged Exec
Command Usage: The MAC Address Table contains the MAC
addresses associated with each interface.
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CLI (Command Line Interface)
Port Security Commands (Cont.)
Command
Function
show mac-address-table (Cont.) Note that the Type field may include the following types:
• Learned - Dynamic address entries
• Permanent - Static entry
• Delete-on-reset - Static entry to be deleted when system is reset
The mask should be hexadecimal numbers (representing an equivalent
bit mask) in the form xx-xx-xx-xx-xx-xx that is applied to the specified
MAC address.
Enter hexadecimal numbers, where an equivalent binary bit “0” means to
match a bit and “1” means to ignore a bit. For example, a mask of
00-00-00-00-00-00 means an exact match, and a mask of
FF-FF-FF-FF-FF-FF means “any.”
The maximum number of address entries is 8191.
Example:
Console#show mac-address-table
Interface Mac Address
Vlan Type
--------- ----------------- ---- -----------------
Eth 1/1 00-e0-29-94-34-de
Trunk 2 00-E0-29-8F-AA-1B
1 Delete-on-reset
1 Learned
Console#
802.1x Port Authentication
The switch supports IEEE 802.1x (dot1x) port-based access control that prevents unauthorized access to the
network by requiring users to first submit credentials for authentication. Client authentication is controlled
centrally by a RADIUS server using EAP (Extensible Authentication Protocol).
802.1x Port Authentication Commands
Command
Function
dot1x system-auth-control
Syntax:
[no] system-auth-control
Default Setting: Disabled
This command enables 802.1X
port authentication globally on the
switch.
Command Mode: Global Configuration
Example:
Use the no form to restore the
default.
Console(config)#dot1x system-auth-control
Console(config)#
dot1x default
Syntax:
dot1x default
This command sets all
Command Mode: Global Configuration
configurable dot1x global and port
settings to their default values.
Example:
Console(config)#dot1x default
Console(config)#
dot1x max-req
Syntax:
dot1x max-req count
no dot1x max-req
This command sets the maximum
number of times the switch port
will retransmit an EAP request/
identity packet to the client before
it times out the authentication ses-
sion.
• count – The maximum number of requests (Range: 1-10)
Default: 2
Command Mode: Interface Configuration
Example:
Use the no form to restore the
default.
Console(config)#interface eth 1/2
Console(config-if)#dot1x max-req 2
Console(config-if)#
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CLI (Command Line Interface)
802.1x Port Authentication Commands (Cont.)
Command
Function
dot1x port-control
Syntax:
dot1x port-control {auto | force-authorized |
force-unauthorized}
no dot1x port-control
This command sets the dot1x
mode on a port interface.
Use the no form to restore the
default.
• auto – Requires a dot1x-aware connected client to be authorized by the
RADIUS server. Clients that are not dot1x-aware will be denied access.
• force-authorized – Configures the port to grant access to all clients,
either dot1x-aware or otherwise.
• force-unauthorized – Configures the port to deny access to all clients,
either dot1x-aware or otherwise.
Default: force-authorized
Command Mode: Interface Configuration
Example:
Console(config)#interface eth 1/2
Console(config-if)#dot1x port-control auto
Console(config-if)#
dot1x operation-mode
Syntax:
dot1x operation-mode {single-host | multi-host [max-count
count]}
no dot1x operation-mode [multi-host max-count]
This command allows single or
multiple hosts (clients) to connect
to an 802.1X-authorized port.
• single-host – Allows only a single host to connect to this port.
• multi-host – Allows multiple host to connect to this port.
• max-count – Keyword for the maximum number of hosts.
Use the no form with no keywords
to restore the default to single
host.
• count – The maximum number of hosts that can connect to a port.
(Range: 1-20; Default: 5)
Use the no form with the multi-host
max-count keywords to restore the
default maximum count.
Default: Single-host
Command Mode: Interface Configuration
Command Usage: The “max-count” parameter specified by this
command is only effective if the dot1x mode is set to “auto” by the dot1x
port-control command (page 4-83).
In “multi-host” mode, only one host connected to a port needs to pass
authentication for all other hosts to be granted network access. Similarly,
a port can become unauthorized for all hosts if one attached host fails
re-authentication or sends an EAPOL logoff message.
Example:
Console(config)#interface eth 1/2
Console(config-if)#dot1x operation-mode multi-host max-count
10
Console(config-if)#
dot1x re-authenticate
Syntax:
dot1x re-authenticate [interface]
This command forces re-
authentication on all ports or a
specific interface.
• interface
ethernet unit/port
unit - Stack unit. (Range: 1-8)
port - Port number. (Range: 1-26)
Command Mode: Privileged Exec
Example:
Console#dot1x re-authenticate
Console#
dot1x re-authentication
Syntax:
[no] dot1x re-authentication
Command Mode: Interface Configuration
This command enables periodic
re-authentication globally for all
ports.
Example:
Use the no form to disable re-
authentication.
Console(config)#interface eth 1/2
Console(config-if)#dot1x re-authentication
Console(config-if)#
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CLI (Command Line Interface)
802.1x Port Authentication Commands (Cont.)
Command
Function
dot1x timeout quiet-period
Syntax:
dot1x timeout quiet-period seconds
no dot1x timeout quiet-period
This command sets the time that a
switch port waits after the Max
Request Count has been
exceeded before attempting to
acquire a new client.
• seconds - The number of seconds. (Range: 1-65535)
Default: 60 seconds
Command Mode: Interface Configuration
Example:
Use the no form to reset the
default.
Console(config)#interface eth 1/2
Console(config-if)#dot1x timeout quiet-period 350
Console(config-if)#
dot1x timeout re-authperiod
Syntax:
dot1x timeout re-authperiod seconds
no dot1x timeout re-authperiod
This command sets the time
period after which a connected
client must be re-authenticated.
• seconds - The number of seconds. (Range: 1-65535)
Default: 3600 seconds
Command Mode: Interface Configuration
Example:
Console(config)#interface eth 1/2
Console(config-if)#dot1x timeout re-authperiod 300
Console(config-if)#
dot1x timeout tx-period
Syntax:
dot1x timeout tx-period seconds
no dot1x timeout tx-period
This command sets the time that
an interface on the switch waits
during an authentication session
before re-transmitting an EAP
packet.
• seconds - The number of seconds. (Range: 1-65535)
Default: 30 seconds
Command Mode: Interface Configuration
Example:
Use the no form to reset to the
default value.
Console(config)#interface eth 1/2
Console(config-if)#dot1x timeout tx-period 300
Console(config-if)#
show dot1x
Syntax:
show dot1x [statistics] [interface interface]
• statistics - Displays dot1x status for each port.
This command shows general port
authentication related settings on
the switch or a specific interface.
• interface
ethernet unit/port
unit - Stack unit. (Range: 1-8)
port - Port number. (Range: 1-26)
Command Mode: Privileged Exec
Command Usage: This command displays the following information:
• Global 802.1X Parameters – Shows whether or not 802.1X port
authentication is globally enabled on the switch.
• 802.1X Port Summary – Displays the port access control parameters for
each interface, including the following items:
Status– Administrative state for port access control.
Operation Mode– Dot1x port control operation mode (page 4-83).
Mode– Dot1x port control mode (page 4-83).
Authorized– Authorization status (yes or n/a - not authorized).
• 802.1X Port Details – Displays the port access control parameters for
each interface, including the following items:
reauth-enabled– Periodic re-authentication (page 4-84).
reauth-period– Time after which a connected client must be re-
authenticated (page 4-85).
quiet-period– Time a port waits after Max Request Count is exceeded
before attempting to acquire a new client (page 4-85).
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CLI (Command Line Interface)
802.1x Port Authentication Commands (Cont.)
Command
Function
show dot1x (Cont.)
tx-period– Time a port waits during authentication session before re-
transmitting EAP packet (page 4-86).
supplicant-timeout– Supplicant timeout.
server-timeout– Server timeout.
reauth-max– Maximum number of reauthentication attempts.
max-req– Maximum number of times a port will retransmit an EAP
request/identity packet to the client before it times out the authentication
session (page 4-82).
Status– Authorization status (authorized or not).
Operation Mode– Shows if single or multiple hosts (clients) can connect
to an 802.1X-authorized port.
Max Count– The maximum number of hosts allowed to access this port
(page 4-83).
Port-control–Shows the dot1x mode on a port as auto, force-authorized,
or force-unauthorized (page 4-83).
Supplicant– MAC address of authorized client.
Current Identifier– The integer (0-255) used by the Authenticator to
identify the current authentication session.
• Authenticator State Machine
State– Current state (including initialize, disconnected, connecting,
authenticating, authenticated, aborting, held, force_authorized,
force_unauthorized).
Reauth Count– Number of times connecting state is re-entered.
• Backend State Machine
State– Current state (including request, response, success, fail, timeout,
idle, initialize).
Request Count– Number of EAP Request packets sent to the Supplicant
without receiving a response.
Identifier(Server)– Identifier carried in the most recent EAP Success,
Failure or Request packet received from the Authentication Server.
• Reauthentication State Machine
State– Current state (including initialize, reauthenticate).
Example:
Console#show dot1x
Global 802.1X Parameters
system-auth-control: enable
802.1X Port Summary
Port Name Status
Authorized
Operation Mode
Mode
1/1
1/2
.
disabled
enabled
Single-Host
Single-Host
ForceAuthorized
auto
n/a
yes
.
.
1/26
disabled
Single-Host
ForceAuthorized
n/a
802.1X Port Details
802.1X is disabled on port 1/1
802.1X is enabled on port 1/2
reauth-enabled:
reauth-period:
quiet-period:
tx-period:
Enable
1800
30
40
supplicant-timeout:30
server-timeout:
reauth-max:
max-req:
10
2
5
Status
Authorized
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CLI (Command Line Interface)
802.1x Port Authentication Commands (Cont.)
Command
Function
Operation mode
Max count
Single-Host
5
show dot1x (Cont.)
Port-control
Supplicant
Auto
00-00-e8-49-5e-dc
Current Identifier 3
Authenticator State Machine
State
Authenticated
Reauth Count
0
Backend State Machine
State
Idle
Request Count
0
Identifier(Server) 2
Reauthentication State Machine
State
Initialize
.
.
.
802.1X is disabled on port 1/26
Console#
Access Control List Commands
Access Control Lists (ACL) provide packet filtering for IP frames (based on address, protocol, Layer 4
protocol port number or TCP control code) or any frames (based on MAC address or Ethernet type). To filter
packets, first create an access list, add the required rules, specify a mask to modify the precedence in which the
rules are checked, and then bind the list to a specific port.
Access Control Lists
An ACL is a sequential list of permit or deny conditions that apply to IP addresses, MAC addresses, or other
more specific criteria. This switch tests ingress or egress packets against the conditions in an ACL one by one.
A packet will be accepted as soon as it matches a permit rule, or dropped as soon as it matches a deny rule. If
no rules match for a list of all permit rules, the packet is dropped; and if no rules match for a list of all deny
rules, the packet is accepted.
There are three filtering modes:
ꢀ
ꢀ
Standard IP ACL mode (STD-ACL) filters packets based on the source IP address.
Extended IP ACL mode (EXT-ACL) filters packets based on source or destination IP address, as
well as protocol type and protocol port number.
If the TCP protocol is specified, then you can also filter packets based on the TCP control code.
ꢀ
MAC ACL mode (MAC-ACL) filters packets based on the source or destination MAC address and
the Ethernet frame type (RFC 1060).
The following restrictions apply to ACLs:
ꢀ
This switch supports ACLs for both ingress and egress filtering.
However, you can only bind one IP ACL and one MAC ACL to any port for ingress filtering, and
one IP ACL and one MAC ACL to any port for egress filtering. In other words, only four ACLs can
be bound to an interface – Ingress IP ACL, Egress IP ACL, Ingress MAC ACL and Egress MAC
ACL.
ꢀ
When an ACL is bound to an interface as an egress filter, all entries in the ACL must be deny rules.
Otherwise, the bind operation will fail.
ꢀ
ꢀ
Each ACL can have up to 32 rules.
The maximum number of ACLs is also 32. However, due to resource restrictions, the average
number of rules bound the ports should not exceed 20.
ꢀ
ꢀ
You must configure a mask for an ACL rule before you can bind it to a port or set the queue or
frame priorities associated with the rule.
The switch does not support the explicit “deny any any” rule for the egress IP ACL or the egress
MAC ACLs. If these rules are included in ACL, and you attempt to bind the ACL to an interface for
egress checking, the bind operation will fail.
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CLI (Command Line Interface)
ꢀ
Egress MAC ACLs only work for destination-mac-known packets, not for multicast, broadcast, or
destination-mac-unknown packets.
The order in which active ACLs are checked is as follows:
1. User-defined rules in the Egress MAC ACL for egress ports.
2. User-defined rules in the Egress IP ACL for egress ports.
3. User-defined rules in the Ingress MAC ACL for ingress ports.
4. User-defined rules in the Ingress IP ACL for ingress ports.
5. Explicit default rule (permit any any) in the ingress IP ACL for ingress ports.
6. Explicit default rule (permit any any) in the ingress MAC ACL for ingress ports.
7. If no explicit rule is matched, the implicit default is permit all.
Masks for Access Control Lists
You can specify optional masks that control the order in which ACL rules are checked. The switch includes
two system default masks that pass/filter packets matching the permit/deny the rules specified in an ingress
ACL. You can also configure up to seven user-defined masks for an ACL.
A mask must be bound exclusively to one of the basic ACL types (i.e., Ingress IP ACL, Egress IP ACL,
Ingress MAC ACL or Egress MAC ACL), but a mask can be bound to up to four ACLs of the same type.
IP ACL Commandss
IP ACL Commands
Command
Function
access-list ip
Syntax:
[no] access-list ip {standard | extended} acl_name
• standard – Specifies an ACL that filters packets based on the source IP
address.
This command adds an IP access
list and enters configuration mode
for standard or extended IP ACLs.
• extended – Specifies an ACL that filters packets based on the source or
destination IP address, and other more specific criteria.
Use the no form to remove the
specified ACL.
• acl_name – Name of the ACL. (Maximum length: 16 characters)
Default Setting: None
Command Mode: Global Configuration
Command Usage: When you create a new ACL or enter configuration
mode for an existing ACL, use the permit or deny command to add new
rules to the bottom of the list. To create an ACL, you must add at least one
rule to the list.
To remove a rule, use the no permit or no deny command followed by the
exact text of a previously configured rule.
Note: An ACL can contain up to 32 rules.
Example:
Console(config)#access-list ip standard david
Console(config-std-acl)#
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CLI (Command Line Interface)
IP ACL Commands (Cont.)
Command
Function
permit, deny
(Standard ACL)
Syntax:
[no] {permit | deny} {any | source bitmask | host source}
• any – Any source IP address.
This command adds a rule to a
Standard IP ACL. The rule sets a
filter condition for packets
emanating from the specified
source.
• source – Source IP address.
• bitmask – Decimal number representing the address bits to match.
• host – Keyword followed by a specific IP address.
Default Setting: None
Use the no form to remove a rule.
Command Mode: Standard ACL
Command Usage: New rules are appended to the end of the list.
Address bitmasks are similar to a subnet mask, containing four integers
from 0 to 255, each separated by a period. The binary mask uses 1 bits to
indicate “match” and 0 bits to indicate “ignore.” The bitmask is bitwise
ANDed with the specified source IP address, and then compared with the
address for each IP packet entering the port(s) to which this ACL has been
assigned.
Example: This example configures one permit rule for the specific address
10.1.1.21 and another rule for the address range 168.92.16.x –
168.92.31.x using a bitmask:
Console(config-std-acl)#permit host 10.1.1.21
Console(config-std-acl)#permit 168.92.16.0 255.255.240.0
Console(config-std-acl)#
permit, deny
Syntax:
[no] {permit | deny} [protocol-number | udp]
{any | source address-bitmask | host source}
{any | destination address-bitmask | host destination}
[precedence precedence] [tos tos] [dscp dscp]
[source-port sport [end]] [destination-port dport [end]]
[no] {permit | deny} tcp
{any | source address-bitmask | host source}
{any | destination address-bitmask | host destination}
[precedence precedence] [tos tos] [dscp dscp]
[source-port sport [end]] [destination-port dport [end]]
[control-flag control-flags flag-bitmask]
(Extended ACL)
This command adds a rule to an
Extended IP ACL. The rule sets a
filter condition for packets with
specific source or destination IP
addresses, protocol types, source
or destination protocol ports, or
TCP control codes.
Use the no form to remove a rule.
• protocol-number – A specific protocol number. (Range: 0-255)
• source – Source IP address.
• destination – Destination IP address.
• address-bitmask – Decimal number representing the address bits to
match.
• host – Keyword followed by a specific IP address.
• precedence – IP precedence level. (Range: 0-7)
• tos – Type of Service level. (Range: 0-15)
• dscp – DSCP priority level. (Range: 0-63)
• sport – Protocol (TCP, UDP or other protocol types) source port number.
(Range: 0-65535)
• dport – Protocol ((TCP, UDP or other protocol types)) destination port
number. (Range: 0-65535)
• end – Upper bound of the protocol port range. (Range: 0-65535)
• control-flags – Decimal number (representing a bit string) that specifies
flag bits in byte 14 of the TCP header. (Range: 0-63)
• flag-bitmask – Decimal number representing the code bits to match.
(Range: 0-63)
Default Setting: None
Command Mode: Extended ACL
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CLI (Command Line Interface)
IP ACL Commands (Cont.)
Command
Function
permit, deny
Command Usage: All new rules are appended to the end of the list.
Address bitmasks are similar to a subnet mask, containing four integers
from 0 to 255, each separated by a period. The binary mask uses 1 bits to
indicate “match” and 0 bits to indicate “ignore.” The bitmask is bitwise
ANDed with the specified source IP address, and then compared with the
address for each IP packet entering the port(s) to which this ACL has been
assigned.
(Extended ACL - Cont.)
You can specify both Precedence and ToS in the same rule. However, if
DSCP is used, then neither Precedence nor ToS can be specified.
The control-code bitmask is a decimal number (representing an equivalent
bit mask) that is applied to the control code. Enter a decimal number,
where the equivalent binary bit “1” means to match a bit and “0” means to
ignore a bit. The following bits may be specified:
• 1 (fin) – Finish
• 2 (syn) – Synchronize
• 4 (rst) – Reset
• 8 (psh) – Push
• 16 (ack) – Acknowledgement
• 32 (urg) – Urgent pointer
For example, use the code value and mask below to catch packets with the
following flags set:
• SYN flag valid, use “control-code 2 2”
• Both SYN and ACK valid, use “control-code 18 18”
• SYN valid and ACK invalid, use “control-code 2 18”
Example:
This example accepts any incoming packets if the source address is within
subnet 10.7.1.x. For example, if the rule is matched; i.e., the rule (10.7.1.0
& 255.255.255.0) equals the masked address (10.7.1.2 & 255.255.255.0),
the packet passes through:
Console(config-ext-acl)#permit 10.7.1.1 255.255.255.0 any
Console(config-ext-acl)#
Example:
This allows TCP packets from class C addresses 192.168.1.0 to any desti-
nation address when set for destination TCP port 80 (i.e., HTTP):
Console(config-ext-acl)#permit 192.168.1.0 255.255.255.0 any
destination-port 80
Console(config-ext-acl)#
Example:
This permits all TCP packets from class C addresses 192.168.1.0 with the
TCP control code set to “SYN:
Console(config-ext-acl)#permit tcp 192.168.1.0 255.255.255.0
any control-flag 2 2
Console(config-ext-acl)#
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CLI (Command Line Interface)
IP ACL Commands (Cont.)
Command
Function
show ip access-list
Syntax:
show ip access-list {standard | extended} [acl_name]
This command displays the rules
for configured IP ACLs.
• standard – Specifies a standard IP ACL.
• extended – Specifies an extended IP ACL.
• acl_name – Name of the ACL. (Maximum length: 16 characters)
Command Mode: Privileged Exec
Example:
Console#show ip access-list standard
IP standard access-list david:
permit host 10.1.1.21
permit 168.92.0.0 255.255.255.0
Console#
access-list ip mask-precedence Syntax:
[no] access-list ip mask-precedence {in | out}
This command changes to the IP
Mask mode used to configure
access control masks.
• in – Ingress mask for ingress ACLs.
• out – Egress mask for egress ACLs.
Use the no form to delete the
mask table.
Default Setting: Default system mask: Filter inbound packets according to
specified IP ACLs.
Command Mode: Global Configuration
Command Usage: A mask can only be used by all ingress ACLs or all
egress ACLs.
The precedence of the ACL rules applied to a packet is not determined by
order of the rules, but instead by the order of the masks; i.e., the first mask
that matches a rule will determine the rule that is applied to a packet.
You must configure a mask for an ACL rule before you can bind it to a port
or set the queue or frame priorities associated with the rule.
Example:
Console(config)#access-list ip mask-precedence in
Console(config-ip-mask-acl)#
mask
Syntax:
[no] mask [protocol]
(IP ACL)
{any | host | source-bitmask}
{any | host | destination-bitmask}
[precedence] [tos] [dscp]
This command defines a mask for
IP ACLs.
[source-port [port-bitmask]] [destination-port [port-
bitmask]]
[control-flag [flag-bitmask]]
This mask defines the fields to
check in the IP header.
Use the no form to remove a
mask.
• protocol – Check the protocol field.
• any – Any address will be matched.
• host – The address must be for a host device, not a subnetwork.
• source-bitmask – Source address of rule must match this bitmask.
• destination-bitmask – Destination address of rule must match this
bitmask.
• precedence – Check the IP precedence field.
• tos – Check the TOS field.
• dscp – Check the DSCP field.
• source-port – Check the protocol source port field.
• destination-port – Check the protocol destination port field.
• port-bitmask – Protocol port of rule must match this bitmask. (Range: 0-
65535)
• control-flag – Check the field for control flags.
• flag-bitmask – Control flags of rule must match this bitmask. (Range: 0-
63)
Default Setting: None
Command Mode: IP Mask
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CLI (Command Line Interface)
IP ACL Commands (Cont.)
Command
Function
mask
Command Usage: Packets crossing a port are checked against all the
rules in the ACL until a match is found. The order in which these packets
are checked is determined by the mask, and not the order in which the ACL
rules were entered.
(IP ACL - Cont.)
First create the required ACLs and ingress or egress masks before map-
ping an ACL to an interface.
If you enter dscp, you cannot enter tos or precedence. You can enter both
tos and precedence without dscp.
Masks that include an entry for a Layer 4 protocol source port or destina-
tion port can only be applied to packets with a header length of exactly five
bytes.
Example: This example creates an IP ingress mask with two rules. Each
rule is checked in order of precedence to look for a match in the ACL
entries. The first entry matching a mask is applied to the inbound packet:
Console(config)#access-list ip mask-precedence in
Console(config-ip-mask-acl)#mask host any
Console(config-ip-mask-acl)#mask 255.255.255.0 any
Console(config-ip-mask-acl)#
Example:
This shows that the entries in the mask override the precedence in which
the rules are entered into the ACL. In the following example, packets with
the source address 10.1.1.1 are dropped because the “deny 10.1.1.1
255.255.255.255” rule has the higher precedence according the “mask
host any” entry:
Console(config)#access-list ip standard A2
Console(config-std-acl)#permit 10.1.1.0 255.255.255.0
Console(config-std-acl)#deny 10.1.1.1 255.255.255.255
Console(config-std-acl)#exit
Console(config)#access-list ip mask-precedence in
Console(config-ip-mask-acl)#mask host any
Console(config-ip-mask-acl)#mask 255.255.255.0 any
Console(config-ip-mask-acl)#
Example:
This shows how to create a standard ACL with an ingress mask to deny
access to the IP host 171.69.198.102, and permit access to any others.
Console(config)#access-list ip standard A2
Console(config-std-acl)#permit any
Console(config-std-acl)#deny host 171.69.198.102
Console(config-std-acl)#end
Console#show access-list
IP standard access-list A2:
deny host 171.69.198.102
permit any
Console#configure
Console(config)#access-list ip mask-precedence in
Console(config-ip-mask-acl)#mask host any
Console(config-ip-mask-acl)#exit
Console(config)#interface ethernet 1/1
Console(config-if)#ip access-group A2 in
Console(config-if)#end
Console#show access-list
IP standard access-list A2:
deny host 171.69.198.102
permit any
Console#
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CLI (Command Line Interface)
IP ACL Commands (Cont.)
Command
Function
mask
Example:
(IP ACL - Cont.)
This shows how to create an extended ACL with an egress mask to drop
packets leaving network 171.69.198.0 when the Layer 4 source port is 23
Console(config)#access-list ip extended A3
Console(config-ext-acl)#deny host 171.69.198.5 any
Console(config-ext-acl)#deny 171.69.198.0 255.255.255.0 any
source-port 23
Console(config-ext-acl)#end
Console#show access-list
IP extended access-list A3:
deny host 171.69.198.5 any
deny 171.69.198.0 255.255.255.0 any source-port 23
Console#config
Console(config)#access-list ip mask-precedence out
Console(config-ip-mask-acl)#mask 255.255.255.0 any source-
port
Console(config-ip-mask-acl)#exit
Console(config)#interface ethernet 1/15
Console(config-if)#ip access-group A3 out
Console(config-if)#end
Console#show access-list
IP extended access-list A3:
deny 171.69.198.0 255.255.255.0 any source-port 23
deny host 171.69.198.5 any
IP egress mask ACL:
mask 255.255.255.0 any source-port
Console#
Example:
This is a more comprehensive example. It denies any TCP packets in
which the SYN bit is ON, and permits all other packets. It then sets the
ingress mask to check the deny rule first, and finally binds port 1 to this
ACL.
Note that once the ACL is bound to an interface (i.e., the ACL is active), the
order in which the rules are displayed is determined by the associated
mask:
Switch(config)#access-list ip extended 6
Switch(config-ext-acl)#permit any any
Switch(config-ext-acl)#deny tcp any any control-flag 2 2
Switch(config-ext-acl)#end
Console#show access-list
IP extended access-list A6:
permit any any
deny tcp any any control-flag 2 2
Console#configure
Switch(config)#access-list ip mask-precedence in
Switch(config-ip-mask-acl)#mask protocol any any control-flag 2
Switch(config-ip-mask-acl)#end
Console#sh access-list
IP extended access-list A6:
permit any any
deny tcp any any control-flag 2 2
IP ingress mask ACL:
mask protocol any any control-flag 2
Console#configure
Console(config)#interface ethernet 1/1
Console(config-if)#ip access-group A6 in
Console(config-if)#end
Console#show access-list
IP extended access-list A6:
deny tcp any any control-flag 2 2
permit any any
IP ingress mask ACL:
mask protocol any any control-flag 2
Console#
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CLI (Command Line Interface)
IP ACL Commands (Cont.)
Command
Function
show access-list ip mask-
precedence
Syntax:
show access-list ip mask-precedence [in | out]
• in – Ingress mask precedence for ingress ACLs.
This command shows the ingress
or egress rule masks for IP ACLs.
• out – Egress mask precedence for egress ACLs.
Command Mode: Privileged Exec
Example:
Console#show access-list ip mask-precedence
IP ingress mask ACL:
mask host any
mask 255.255.255.0 any
Console#
ip access-group
Syntax:
[no] ip access-group acl_name in
• acl_name – Name of the ACL. (Maximum length: 16 characters)
This command binds a port to an
IP ACL.
• in – Indicates that this list applies to ingress packets.
Default Setting: None
Use the no form to remove the
port.
Command Mode: Interface Configuration (Ethernet)
Command Usage: A port can only be bound to one ACL.
If a port is already bound to an ACL and you bind it to a different ACL, the
switch will replace the old binding with the new one. You must
configure a mask for an ACL rule before you can bind it to a port.
Example:
Console(config)#int eth 1/25
Console(config-if)#ip access-group david in
Console(config-if)#
show ip access-group
Command Mode: Privileged Exec
Example:
This command shows the ports
assigned to IP ACLs.
Console#show ip access-group
Interface ethernet 1/25
IP standard access-list david
Console#
map access-list ip
Syntax:
[no] map access-list ip acl_name cos cos-value
• acl_name – Name of the ACL. (Maximum length: 16 characters)
This command sets the output
queue for packets matching an
ACL rule. The specified CoS
value is only used to map the
matching packet to an
• cos-value – CoS value. (Range: 0-7)
Default Setting: None
Command Mode: Interface Configuration (Ethernet)
output queue; it is not written to
the packet itself.
Command Usage: A packet matching a rule within the specified ACL is
mapped to one of the output queues as shown in the following table. For
information on mapping the CoS values to output queues, see queue cos-
map on page 4-170.
Use the no form to remove the
CoS mapping.
Example:
Console(config)#interface ethernet 1/25
Console(config-if)#map access-list ip bill cos 0
Console(config-if)#
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CLI (Command Line Interface)
IP ACL Commands (Cont.)
Command
Function
show map access-list ip
Syntax:
show map access-list ip [interface]
This command shows the CoS
value mapped to an IP ACL for
the current interface.
• interface
ethernet unit/port
The CoS value determines the
output queue for packets
matching an ACL rule.
unit - This is device 1.
port - Port number.
Command Mode: Privileged Exec
Example:
Console#show map access-list ip
Access-list to COS of Eth 1/24
Access-list ALS1 cos 0
Console#
match access-list ip
Syntax:
match access-list ip acl_name [set priority priority] {set tos
tos_value | set dscp dscp_value}
no match access-list ip acl_name
This command changes the IEEE
802.1p priority, IP Precedence, or
DSCP Priority of a frame match-
ing the defined ACL rule.
• acl_name – Name of the ACL. (Maximum length: 16 characters)
• priority – Class of Service value in the IEEE 802.1p priority tag. (Range:
0-7; 7 is the highest priority)
This feature is commonly referred
to as ACL packet marking.
• tos_value – IP Precedence value. (Range: 0-7)
Use the no form to remove the
ACL marker.
• dscp_value – Differentiated Services Code Point value.
(Range: 0-63)
Default Setting: None
Command Mode: Interface Configuration (Ethernet)
Command Usage: You must configure an ACL mask before you can
change frame priorities based on an ACL rule.
Traffic priorities may be included in the IEEE 802.1p priority tag. This tag is
also incorporated as part of the overall IEEE 802.1Q VLAN tag. To specify
this priority, use the set priority keywords.
The IP frame header also includes priority bits in the Type of Service (ToS)
octet. The Type of Service octet may contain three bits for IP Precedence
or six bits for Differentiated Services Code Point (DSCP) service. To spec-
ify the IP precedence priority, use the set tos keywords. To specify the
DSCP priority, use the set dscp keywords. Note that the IP frame header
can include either the IP Precedence or DSCP priority type.
The precedence for priority mapping by this switch is IP Precedence or
DSCP Priority, and then 802.1p priority.
Example:
Console(config)#interface ethernet 1/12
Console(config-if)#match access-list ip bill set dscp 0
Console(config-if)#
show marking
Command Mode: Privileged Exec
Example:
This command displays the
current configuration for packet
marking.
Console#show marking
Interface ethernet 1/12
match access-list IP bill set DSCP 0
match access-list MAC a set priority 0
Console#
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CLI (Command Line Interface)
MAC ACL Commands
MAC ACL Commands
Command
Function
access-list mac
Syntax:
[no] access-list mac acl_name
• acl_name – Name of the ACL.
(Maximum length: 16 characters)
This command adds a MAC
access list and enters MAC ACL
configuration mode.
Default Setting: None
Use the no form to remove the
specified ACL.
Command Mode: Global Configuration
Command Usage: When you create a new ACL or enter configuration
mode for an existing ACL, use the permit or deny command to add new
rules to the bottom of the list. To create an ACL, you must add at least one
rule to the list.
To remove a rule, use the no permit or no deny command followed by the
exact text of a previously configured rule.
An ACL can contain up to 32 rules.
Example:
Console(config)#access-list mac jerry
Console(config-mac-acl)#
permit, deny
Syntax:
[no] {permit | deny}
(MAC ACL)
{any | host source | source address-bitmask}
{any | host destination | destination address-bitmask}
[vid vid [vid-end]] [ethertype protocol [protocol-end]]
This command adds a rule to a
MAC ACL. The rule filters packets
matching a specified MAC source
or destination address (i.e., physi-
cal layer address), or Ethernet
protocol type.
Note: The default is for Ethernet II packets.
• any – Any MAC source or destination address.
• host – A specific MAC address.
• source – Source MAC address.
Use the no form to remove a rule.
• destination – Destination MAC address range with bitmask.
• address-bitmask – Bitmask for MAC address (in hexidecimal format). For
all bitmasks, “1” means care and “0” means ignore.
• vid – VLAN ID. (Range: 1-4094)
• vid-end – Upper bound of VID range. (Range: 1-4094)
• protocol – A specific Ethernet protocol number.
(Range: 0-65535)
• protocol-end – Upper bound of protocol range.
(Range: 0-65535)
Default Setting: None
Command Mode: MAC ACL
Command Usage: New rules are added to the end of the list.
The ethertype option can only be used to filter Ethernet II formatted pack-
ets. A detailed listing of Ethernet protocol types can be found in RFC 1060.
A few of the more common types include the following:
• 0800 - IP
• 0806 - ARP
• 8137 - IPX
Example:
This rule permits packets from any source MAC address to the destination
address 00-e0-29-94-34-de where the Ethernet type is 0800:
Console(config-mac-acl)#permit any host 00-e0-29-94-34-de
ethertype 0800
Console(config-mac-acl)#
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CLI (Command Line Interface)
MAC ACL Commands (Cont.)
Command
Function
show mac access-list
Syntax:
show mac access-list [acl_name]
This command displays the rules
for configured MAC ACLs.
• acl_name – Name of the ACL. (Maximum length: 16 characters)
Command Mode: Privileged Exec
Example:
Console#show mac access-list
MAC access-list jerry:
permit any host 00-e0-29-94-34-de ethertype 0800
Console#
access-list mac mask-
precedence
Syntax:
[no] access-list ip mask-precedence {in | out}
• in – Ingress mask for ingress ACLs.
This command changes to MAC
Mask mode used to configure
access control masks.
• out – Egress mask for egress ACLs.
Default system mask: Filter inbound packets according to specified MAC
Use the no form to delete the
mask table.
ACLs.
Command Mode: Global Configuration
Command Usage: You must configure a mask for an ACL rule before you
can bind it to a port or set the queue or frame
priorities associated with the rule.
A mask can only be used by all ingress ACLs or all egress ACLs.
The precedence of the ACL rules applied to a packet is not determined by
order of the rules, but instead by the order of the masks; i.e., the first mask
that matches a rule will determine the rule that is applied to a packet.
Example:
Console(config)#access-list mac mask-precedence in
Console(config-mac-mask-acl)#
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CLI (Command Line Interface)
MAC ACL Commands (Cont.)
Command
mask
Function
Syntax:
[no] mask [pktformat]
{any | host | source-bitmask} {any | host | destination-
bitmask}
(MAC ACL)
This command defines a mask for
MAC ACLs. This mask defines
the fields to check in the packet
header.
[vid [vid-bitmask]] [ethertype [ethertype-bitmask]]
• pktformat – Check the packet format field. (If this keyword must be used
in the mask, the packet format must be specified in ACL rule to match.)
Use the no form to remove a
mask.
• any – Any address will be matched.
• host – The address must be for a single node.
• source-bitmask – Source address of rule must match this bitmask.
• destination-bitmask – Destination address of rule must match this
bitmask.
• vid – Check the VLAN ID field.
• vid-bitmask – VLAN ID of rule must match this bitmask.
• ethertype – Check the Ethernet type field.
• ethertype-bitmask – Ethernet type of rule must match this bitmask.
Default Setting: None
Command Mode: MAC Mask
Command Usage: Up to seven masks can be assigned to an ingress or
egress ACL.
Packets crossing a port are checked against all the rules in the ACL until a
match is found. The order in which these packets are checked is deter-
mined by the mask, and not the order in which the ACL rules were entered.
First create the required ACLs and inbound or outbound masks before
mapping an ACL to an interface.
Example:
This example shows how to create an Ingress MAC ACL and bind it to a
port. You can then see that the order of the rules have been changed by
the mask.
Console(config)#access-list mac M4
Console(config-mac-acl)#permit any any
Console(config-mac-acl)#deny tagged-eth2 00-11-11-11-11-11
ff-ff-ff-ff-ff-ff any vid 3
Console(config-mac-acl)#end
Console#show access-list
MAC access-list M4:
permit any any
deny tagged-eth2 host 00-11-11-11-11-11 any vid 3
Console(config)#access-list mac mask-precedence in
Console(config-mac-mask-acl)#mask pktformat ff-ff-ff-ff-ff-ff
any vid
Console(config-mac-mask-acl)#exit
Console(config)#interface ethernet 1/12
Console(config-if)#mac access-group M4 in
Console(config-if)#end
Console#show access-list
MAC access-list M4:
deny tagged-eth2 host 00-11-11-11-11-11 any vid 3
permit any any
MAC ingress mask ACL:
mask pktformat host any vid
Console#
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CLI (Command Line Interface)
MAC ACL Commands (Cont.)
Command
Function
mask (Cont.)
Example - This example creates an Egress MAC ACL:
Console(config)#access-list mac M5
Console(config-mac-acl)#deny tagged-802.3 host 00-11-11-11-11-11 any
Console(config-mac-acl)#deny tagged-eth2 00-11-11-11-11-11 ff-ff-ff-ff-
ff-ff any vid 3 ethertype 0806
Console(config-mac-acl)#end
Console#show access-list
MAC access-list M5:
deny tagged-802.3 host 00-11-11-11-11-11 any
deny tagged-eth2 host 00-11-11-11-11-11 any vid 3 ethertype 0806
Console(config)#access-list mac mask-precedence out
Console(config-mac-mask-acl)#mask pktformat ff-ff-ff-ff-ff-ff any vid
Console(config-mac-mask-acl)#exit
Console(config)#interface ethernet 1/5
Console(config-if)#mac access-group M5 out
Console(config-if)#end
Console#show access-list
MAC access-list M5:
deny tagged-eth2 host 00-11-11-11-11-11 any vid 3 ethertype 0806
deny tagged-802.3 host 00-11-11-11-11-11 any
MAC ingress mask ACL:
mask pktformat host any vid ethertype
Console#
show access-list mac mask-
precedence
Syntax:
show access-list mac mask-precedence [in | out]
• in – Ingress mask precedence for ingress ACLs.
This command shows the ingress
or egress rule masks for MAC
ACLs.
• out – Egress mask precedence for egress ACLs.
Command Mode: Privileged Exec
Example:
Console#show access-list mac mask-precedence
MAC egress mask ACL:
mask pktformat host any vid ethertype
Console#
permit offset, deny offset
Syntax:
{permit | deny} offset offset_value length bitmask data
no {permit | deny} offset offset_value length bitmask data
(MAC ACL)
Use this command to add a rule
to a MAC ACL. The rule fliters
packets matching the specified
data pattern starting at the offset.
• offset_value – Byte offset from the beginning of the frame.
• length – Length of the data pattern to match.
• bitmask – Decimal number representing the data bits to match.
• data – Data to match, entered as a sequence of hexadecimal letters with
no separators.
Use the no form to remove a rule.
Default Setting: None
Command Mode: MAC ACL
Command Usage: This command is used to filter frames that match a
specified pattern, and can be used to filter traffic associated with precisely
defined events.
The bitmask is a decimal number (representing an equivalent bit mask)
that is applied to the data. Enter a decimal number, where the equivalent
binary bit “1” means to match a bit and “0” means to ignore a bit.
Packet filtering based on arbitrary offsets and data patterns can adversely
affect switch throughput. Try to avoid using packet
filtering based on pattern matching unless this is absolutely necessary to
solve a specific problem.
Example:
This example shows how to filter any Ethernet II packets directed to the IP
address 10.1.0.23 that have the Don’t Fragment flag set.
Console(config)#access-list mac jerry
Console(config-mac-acl)#permit offset ???
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CLI (Command Line Interface)
MAC ACL Commands (Cont.)
Command
Function
mac access-group
Syntax:
mac access-group acl_name in
This command binds a port to a
MAC ACL.
• acl_name – Name of the ACL. (Maximum length: 16 characters)
• in – Indicates that this list applies to ingress packets.
Default Setting: None
Use the no form to remove the
port.
Command Mode: Interface Configuration (Ethernet)
Command Usage: A port can only be bound to one ACL.
If a port is already bound to an ACL and you bind it to a different ACL, the
switch will replace the old binding with the new one.
Example:
Console(config)#interface ethernet 1/25
Console(config-if)#mac access-group alexander in
Console(config-if)#
show mac access-group
Command Mode: Privileged Exec
Example:
This command shows the ports
assigned to MAC ACLs.
Console#show mac access-group
Interface ethernet 1/5
MAC access-list M5 in
Console#
map access-list mac
Syntax:
[no] map access-list mac acl_name cos cos-value
• acl_name – Name of the ACL. (Maximum length: 16 characters)
This command sets the output
queue for packets matching an
ACL rule.
• cos-value – CoS value. (Range: 0-7)
Default Setting: None
The specified CoS value is only
used to map the matching packet
to an output queue; it is not
written to the packet itself.
Command Mode: Interface Configuration (Ethernet)
Command Usage: You must configure an ACL mask before you can map
CoS values to the rule.
Use the no form to remove the
CoS mapping.
A packet matching a rule within the specified ACL is mapped to one of the
output queues as shown below:
Example:
Console(config)#int eth 1/5
Console(config-if)#map access-list mac M5 cos 0
Console(config-if)#
show map access-list mac
Syntax:
show map access-list mac [interface]
This command shows the CoS
value mapped to a MAC ACL for
the current interface.
• interface
ethernet unit/port
The CoS value determines the
output queue for packets
matching an ACL rule.
unit - This is device 1.
port - Port number.
Command Mode: Privileged Exec
Example:
Console#show map access-list mac
Access-list to COS of Eth 1/5
Access-list M5 cos 0
Console#
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CLI (Command Line Interface)
MAC ACL Commands (Cont.)
Command
Function
match access-list mac
Syntax:
match access-list mac acl_name set priority priority
no match access-list mac acl_name
This command changes the IEEE
802.1p priority of a Layer 2 frame
matching the defined ACL rule.
• acl_name – Name of the ACL. (Maximum length: 16 characters)
• priority – Class of Service value in the IEEE 802.1p priority tag. (Range:
0-7; 7 is the highest priority)
This feature is commonly referred
to as ACL packet marking.
Default Setting: None
Use the no form to remove the
ACL marker.
Command Mode: Interface Configuration (Ethernet)
Command Usage: You must configure an ACL mask before you can
change frame priorities based on an ACL rule.
Example:
Console(config)#interface ethernet 1/12
Console(config-if)#match access-list mac a set priority 0
Console(config-if)#
show marking
Displays the current configuration for packet marking
ACL Information
ACL Information
Command
Function
show access-list
Command Mode: Privileged Exec
Command Usage: Once the ACL is bound to an interface (i.e., the ACL is
active), the order in which the rules are displayed is determined by the associ-
ated mask.
This command shows all
ACLs and associated rules,
as well as all the user-
defined masks.
Example:
Console#show access-list
IP standard access-list david:
permit host 10.1.1.21
permit 168.92.0.0 255.255.15.0
IP extended access-list bob:
permit 10.7.1.1 0.0.0.255 any
permit 192.168.1.0 255.255.255.0 any destination-port 80 80
permit 192.168.1.0 255.255.255.0 any protocol tcp control-code 2 2
MAC access-list jerry:
permit any host 00-30-29-94-34-de ethertype 800 800
IP extended access-list A6:
deny tcp any any control-flag 2 2
permit any any
IP ingress mask ACL:
mask protocol any any control-flag 2
Console#
show access-group
Command Mode: Privileged Executive
Example:
This command shows the
port assignments of ACLs.
Console#show access-group
Interface ethernet 1/25
IP standard access-list david
MAC access-list jerry
Console#
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CLI (Command Line Interface)
SNMP Commands
Controls access to this switch from management stations using the Simple Network Management Protocol
(SNMP), as well as the error types sent to trap managers.
SNMPv3 provides security features that cover message integrity, authentication, and encryption; as well as
controlling user access to specific areas of the MIB tree. To use SNMPv3, first set an engine ID (or accept the
default), specify read and write access views for the MIB tree, configure SNMP user groups with the required
security model (i.e., SNMP v1, v2c or v3) and security level (i.e., authentication and privacy), and then assign
SNMP users to these groups, along with their specific authentication and privacy passwords.
SNMP Commands
Command
Function
snmp-server
Default Setting: Enabled
Command Mode: Global Configuration
Example:
This command enables the
SNMPv3 engine and ser-
vices for all management
clients (i.e., versions 1, 2c,
3).
Console(config)#snmp-server
Console(config)#
Use the no form to disable
the server.
show snmp
Default Setting: None
Command Mode: Normal Exec, Privileged Exec
This command checks the
status of SNMP
communications.
Command Usage: This command provides information on the community
access strings, counter information for SNMP input and output protocol data
units, and whether or not SNMP logging has been enabled with the snmp-server
enable traps command.
Example:
Console#show snmp
System Contact: Joe
System Location: Room 23
SNMP traps:
Authentication: enabled
Link-up-down:
enabled
SNMP communities:
1. private, and the privilege is read-write
2. public, and the privilege is read-only
0 SNMP packets input
0 Bad SNMP version errors
0 Unknown community name
0 Illegal operation for community name supplied
0 Encoding errors
0 Number of requested variables
0 Number of altered variables
0 Get-request PDUs
0 Get-next PDUs
0 Set-request PDUs
0 SNMP packets output
0 Too big errors
0 No such name errors
0 Bad values errors
0 General errors
0 Response PDUs
0 Trap PDUs
SNMP logging: disabled
Console#
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CLI (Command Line Interface)
SNMP Commands (Cont.)
Command
Function
snmp-server community
Syntax:
snmp-server community string [ro|rw]
no snmp-server community string
This command defines the
community access string for
the Simple Network
• string - Community string that acts like a password and permits access to the
SNMP protocol. (Maximum length: 32 characters, case sensitive;
Maximum number of strings: 5)
Management Protocol.
Use the no form to remove
the specified community
string.
• ro - Specifies read-only access. Authorized management stations are only
able to retrieve MIB objects.
• rw - Specifies read/write access. Authorized management stations are able to
both retrieve and modify MIB objects.
Default Settings:
• public - Read-only access. Authorized management stations are only able to
retrieve MIB objects.
• private - Read/write access. Authorized management stations are able to both
retrieve and modify MIB objects.
Command Mode: Global Configuration
Command Usage: The first snmp-server community command you enter
enables SNMP (SNMPv1). The no snmp-server community command disables
SNMP.
Example:
Console(config)#snmp-server community alpha rw
Console(config)#
snmp-server contact
Syntax:
snmp-server contact string
no snmp-server contact
This command sets the
system contact string.
• string - String that describes the system contact information.
(Maximum length: 255 characters)
Use the no form to remove
the system contact
information.
Default Setting: None
Command Mode: Global Configuration
Example:
Console(config)#snmp-server contact Paul
Console(config)#
snmp-server location
Syntax:
snmp-server location text
no snmp-server location
This command sets the
system location string.
• text - String that describes the system location.
(Maximum length: 255 characters)
Use the no form to remove
the location string.
Default Setting: None
Command Mode: Global Configuration
Example:
Console(config)#snmp-server location WC-19
Console(config)#
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CLI (Command Line Interface)
SNMP Commands (Cont.)
Command
Function
snmp-server host
Syntax:
snmp-server host host-addr community-string [version {1 | 2c}]
no snmp-server host host-addr
This command specifies the
recipient of a Simple
Network Management
Protocol notification
operation.
• host-addr - Internet address of the host (the targeted recipient). (Maximum
host addresses: 5 trap destination IP address entries)
• community-string - Password-like community string sent with the notification
operation. Although you can set this string using the snmp-server host
command by itself, we recommend that you define this string using the snmp-
server community command prior to using the snmp-server host command.
(Maximum length: 32 characters)
Use the no form to remove
the specified host.
• version - Specifies whether to send notifications as SNMP v1 or v2c traps.
Default Settings:
• Host Address: None
• SNMP Version: 1
Command Mode: Global Configuration
Command Usage: If you do not enter an snmp-server host command, no notifi-
cations are sent. In order to configure the switch to send SNMP notifications,
you must enter at least one snmp-server host command. In order to enable mul-
tiple hosts, you must issue a separate snmp-server host command for each
host.
The snmp-server host command is used in conjunction with the snmp-server
enable traps command. Use the snmp-server enable traps command to specify
which SNMP notifications are sent globally. For a host to receive notifications, at
least one snmp-server enable traps command and the snmp-server host com-
mand for that host must be enabled.
Some notification types cannot be controlled with the snmp-server enable traps
command. For example, some notification types are always enabled.
The switch can send SNMP version 1 or version 2c notifications to a host IP
address, depending on the SNMP version that the management station sup-
ports. If the snmp-server host command does not specify the SNMP version, the
default is to send SNMP version 1 notifications.
Example:
Console(config)#snmp-server host 10.1.19.23 batman
Console(config)#
snmp-server enable traps Syntax:
[no] snmp-server enable traps [authentication | link-up-down]
This command enables this
device to send Simple Net-
work Management Protocol
traps (SNMP notifications).
• authentication - Keyword to issue authentication failure traps.
• link-up-down - Keyword to issue link-up or link-down traps.
Note: The link-up-down trap can only be enabled/disabled via the CLI.
Default Setting: Issue authentication and link-up-down traps.
Command Mode: Global Configuration
Use the no form to disable
SNMP notifications.
Command Usage: If you do not enter an snmp-server enable traps command,
no notifications controlled by this command are sent. In order to configure this
device to send SNMP notifications, you must enter at least one snmp-server
enable traps command. If you enter the command with no keywords, both
authentication and link-up-down notifications are enabled. If you enter the com-
mand with a keyword, only the notification type related to that keyword is
enabled.
The snmp-server enable traps command is used in conjunction with the snmp-
server host command. Use the snmp-server host command to specify which
host or hosts receive SNMP notifications. In order to send notifications, you
must configure at least one snmp-server host command.
Example:
Console(config)#snmp-server enable traps link-up-down
Console(config)#
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CLI (Command Line Interface)
SNMP Commands (Cont.)
Command
Function
snmp-server engine-id
Syntax:
snmp-server engine-id local engineid-string
no snmp-server engine-id local
Use this command to
configure an identification
string for the SNMP v3
engine.
• engineid-string - String identifying the engine ID. (Range: 1-26 hexadecimal
characters)
Default Setting: A unique engine ID is automatically generated by the switch
based on its MAC address.
Use the no form to restore
the default.
Command Mode: Global Configuration
Command Usage: An SNMP engine is an independent SNMP agent that
resides on this switch. This engine protects against message replay, delay, and
redirection. The engine ID is also used in combination with user passwords to
generate the security keys for authenticating and encrypting SNMPv3 packets.
Trailing zeroes need not be entered to uniquely specify a engine ID. In other
words, the value “1234” is equivalent to “1234” followed by 22 zeroes.
A local engine ID is automatically generated that is unique to the switch. This is
referred to as the default engine ID. If the local engineID is deleted or changed,
all SNMP users will be cleared. You will need to reconfigure all existing users
(page 112).
Example:
Console(config)#snmp-server engineID local 12345
Console(config)#
show snmp engine-id
Command Mode: Privileged Exec
Example: This example shows the default engine ID:
Use this command to show
the SNMP engine ID.
Console#show snmp engine-id
Local SNMP engineID: 8000002a8000000000e8666672
Local SNMP engineBoots: 1
• Local SNMP engineID: String identifying the engine ID.
• Local SNMP engineBoots: The number of times that the engine has (re-
)initialized since the snmpEngineID was last configured.
snmp-server view
Syntax:
snmp-server view view-name oid-tree {included | excluded}
no snmp-server view view-name
Use this command to add an
SNMP view that controls
user access to the MIB.
• view-name - Name of an SNMP view. (Range: 1-64 characters)
• oid-tree - Object identifier of a branch within the MIB tree. Wildcards can be
used to mask a specific portion of the OID string. (Refer to the examples.)
Use the no form to remove
an SNMP view.
• included - Defines an included view.
• excluded - Defines an excluded view.
Default Setting: defaultview (includes access to the entire MIB tree)
Command Mode: Global Configuration
Command Usage: Views are used in the snmp-server group command to
restrict user access to specified portions of the MIB tree.
The predefined view “defaultview” includes access to the entire MIB tree.
Example: This view includes MIB-2:
Console(config)#snmp-server view mib-2 1.3.6.1.2.1 included
Console(config)#
Example: This view includes the MIB-2 interfaces table, ifDescr. The wildcard is
used to select all the index values in this table:
Console(config)#snmp-server view ifEntry.2 1.3.6.1.2.1.2.2.1.*.2
included
Console(config)#
Example: This view includes the MIB-2 interfaces table, and the mask selects
all index entries:
Console(config)#snmp-server view ifEntry.a 1.3.6.1.2.1.2.2.1.1.*
included
Console(config)#
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CLI (Command Line Interface)
SNMP Commands (Cont.)
Command
Function
show snmp view
Command Mode: Privileged Exec
Example:
Use this command to show
information on the SNMP
groups.
Console#show snmp view
View Name: mib-2
Subtree OID: 1.2.2.3.6.2.1
View Type: included
Storage Type: nonvolatile
Row Status: active
View Name: defaultview
Subtree OID: 1
View Type: included
Storage Type: nonvolatile
Row Status: active
Console#
• View Name: Name of an SNMP view.
• Subtree OID: A branch in the MIB tree.
• View Type: Indicates if the view is included or excluded.
• Storage Type: The storage type for this entry.
• Row Status: The row status of this entry.
snmp-server group
Syntax:
snmp-server group groupname {v1 | v2c | v3 {auth | noauth | priv}}
[read readview] [write writeview]
no snmp-server group groupname
Use this command to add an
SNMP group, mapping
SNMP users to SNMP
views.
• groupname - Name of an SNMP group. (Range: 1-32 characters)
• v1 | v2c | v3 - Use SNMP version 1, 2c or 3.
Use the no form to remove
an SNMP group.
• auth | noauth | priv - This group uses SNMPv3 with authentication, no
authentication, or with authentication and privacy.
• readview - Defines the view for read access. (1-64 characters)
• writeview - Defines the view for write access. (1-64 characters)
Default Settings:
• readview - Every object belonging to the Internet OID space (1.3.6.1).
• writeview - Nothing is defined.
Command Mode: Global Configuration
Command Usage: A group sets the access policy for the assigned users.
• When authentication is selected, the MD5 or SHA algorithm is used as
specified in the snmp-server user command.
• When privacy is selected, the DES 56-bit algorithm is used for data encryption.
Example:
Console(config)#snmp-server group r&d v3 auth write daily
Console(config)#
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CLI (Command Line Interface)
SNMP Commands (Cont.)
Command
Function
show snmp group
Command Mode: Privileged Exec
Example:
Four default groups are pro-
vided – SNMPv1
read-only access and read/
write access, and SNMPv2c
read-only access and read/
write access.
Console#show snmp group
Security Model: v3
Read View: defaultview
Write View: daily
Notify View: none
Storage Type: nonvolatile
Row Status: active
Group Name: public
Security Model: v2c
Read View: defaultview
Write View: none
Notify View: none
Storage Type: volatile
Row Status: active
Group Name: private
Security Model: v1
Read View: defaultview
Write View: defaultview
Notify View: none
Storage Type: volatile
Row Status: active
Group Name: private
Security Model: v2c
Read View: defaultview
Write View: defaultview
Notify View: none
Storage Type: volatile
Row Status: active
Console#
• groupname: Name of an SNMP group.
• security model: The SNMP version.
• readview: The associated read view.
• writeview: The associated write view.
• notifyview: The associated notify view.
• storage-type: The storage type for this entry.
• Row Status: The row status of this entry.
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CLI (Command Line Interface)
SNMP Commands (Cont.)
Command
Function
snmp-server user
Syntax:
snmp-server user username groupname {v1 | v2c | v3 [encrypted]
[auth {md5 | sha} auth-password [priv des56 priv-password]]
no snmp-server user username
Use this command to add a
user to an SNMP group,
restricting the user to a
specific SNMP Read and a
Write View.
• username - Name of user connecting to the SNMP agent. (Range: 1-32
characters)
• groupname - Name of an SNMP group to which the user is assigned. (Range:
1-32 characters)
Use the no form to remove a
user from an SNMP group.
• v1 | v2c | v3 - Use SNMP version 1, 2c or 3.
• encrypted - Accepts the password as encrypted input.
• auth - Uses SNMPv3 with authentication.
• md5 | sha - Uses MD5 or SHA authentication.
• auth-password - Authentication password. Enter as plain text if the encrypted
option is not used. Otherwise, enter an encrypted password. (A minimum of
eight characters is required.)
• priv des56 - Uses SNMPv3 with 56-bit DES data encryption.
• priv-password - Privacy password. Enter as plain text if the encrypted option is
not used. Otherwise, enter an encrypted password.
Default Setting: None
Command Mode: Global Configuration
Command Usage: The SNMP engine ID is used to compute the authentication/
privacy digests from the password. You should therefore configure the engine ID
with the snmp-server engine-id command before using this configuration com-
mand.
SNMP passwords are localized using the authoritative SNMP engine ID.
Example:
Console(config)#snmp-server user steve group r&d v3 auth md5
greenpeace priv des56 einstien
Console(config)#
show snmp user
Command Mode: Privileged Exec
Example:
Use this command to show
information on SNMP users.
Console#show snmp user
EngineId: 01000000000000000000000000
User Name: steve
Authentication Protocol: md5
Privacy Protocol: des56
Storage Type: nonvolatile
Row Status: active
Console#
• EngineId: String identifying the engine ID.
• User Name: Name of user connecting to the SNMP agent.
• Authentication Protocol: The authentication protocol used with SNMPv3.
• Privacy Protocol: The privacy protocol used with SNMPv3.
• Storage Type: The storage type for this entry.
• Row Status: The row status of this entry.
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CLI (Command Line Interface)
Interface Commands
These commands are used to display or set communication parameters for an Ethernet port, aggregated link, or
VLAN.
Interface Commands
Command
Function
interface
Syntax:
interface interface
no interface port-channel channel-id
This command configures
an interface type and enter
interface configuration
mode.
• interface
ethernet unit/port
unit - Stack unit. (Range: 1-8)
port - Port number. (Range: 1-26)
• port-channel channel-id (Range: 1-4)
• vlan vlan-id (Range: 1-4094)
Default Setting: None
Use the no form to remove a
trunk.
Command Mode: Global Configuration
Example: To specify port 24, enter the following command:
Console(config)#interface ethernet 1/24
Console(config-if)#
description
Syntax:
description string
no description
This command adds a
description to an interface.
• string - Comment or a description to help you remember what is attached to
this interface. (Range: 1-64 characters)
Use the no form to remove
the description.
Default Setting: None
Command Mode: Interface Configuration (Ethernet, Port Channel)
Example: The following example adds a description to port 24:
Console(config)#interface ethernet 1/24
Console(config-if)#description RD-SW#3
Console(config-if)#
speed-duplex
Syntax:
speed-duplex {1000full | 100full | 100half | 10full | 10half}
no speed-duplex
This command configures
the speed and duplex mode
of a given interface when
autonegotiation is disabled.
• 1000full - Forces 1000 Mbps full-duplex operation
• 100full - Forces 100 Mbps full-duplex operation
• 100half - Forces 100 Mbps half-duplex operation
• 10full - Forces 10 Mbps full-duplex operation
• 10half - Forces 10 Mbps half-duplex operation
Use the no form to restore
the default.
Default Setting: Auto-negotiation is enabled by default. When auto-
negotiation is disabled, the default speed-duplex setting is 100half for
100BASE-TX ports and 1000full for Gigabit Ethernet ports.
Command Mode: Interface Configuration (Ethernet, Port Channel)
Command Usage: To force operation to the speed and duplex mode specified
in a speed-duplex command, use the no negotiation command to disable auto-
negotiation on the selected interface.
When using the negotiation command to enable auto-negotiation, the optimal
settings will be determined by the capabilities command. To set the speed/
duplex mode under auto-negotiation, the required mode must be specified in the
capabilities list for an interface.
Example: The following example configures port 5 to 100 Mbps, half-duplex
operation:
Console(config)#interface ethernet 1/5
Console(config-if)#speed-duplex 100half
Console(config-if)#no negotiation
Console(config-if)#
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CLI (Command Line Interface)
Interface Commands (Cont.)
Command
Function
negotiation
Syntax:
[no] negotiation
Default Setting: Enabled
This command enables
autonegotiation for a given
interface.
Command Mode: Interface Configuration (Ethernet, Port Channel)
Use the no form to disable
autonegotiation.
Command Usage: When auto-negotiation is enabled the switch will negotiate
the best settings for a link based on the capabilities command. When auto-
negotiation is disabled, you must manually specify the link attributes with the
speed-duplex and flowcontrol commands.
If autonegotiation is disabled, auto-MDI/MDI-X pin signal configuration will also
be disabled for the RJ-45 ports.
Example: The following example configures port 11 to use autonegotiation:
Console(config)#interface ethernet 1/11
Console(config-if)#negotiation
Console(config-if)#
capabilities
Syntax:
[no] capabilities {1000full | 100full | 100half | 10full | 10half
| flowcontrol | symmetric}
This command advertises
the port capabilities of a
given interface during
autonegotiation.
• 1000full - Supports 1000 Mbps full-duplex operation
• 100full - Supports 100 Mbps full-duplex operation
• 100half - Supports 100 Mbps half-duplex operation
• 10full - Supports 10 Mbps full-duplex operation
• 10half - Supports 10 Mbps half-duplex operation
• flowcontrol - Supports flow control
Use the no form with
parameters to remove an
advertised capability, or the
no form without parameters
to restore the default values.
• symmetric (Gigabit only) - When specified, the port transmits and receives
pause frames; when not specified, the port will auto-negotiate to determine
the sender and receiver for asymmetric pause frames. (The current switch
ASIC only supports symmetric pause frames.)
Default Settings:
• 100BASE-TX: 10half, 10full, 100half, 100full
• 1000BASE-T: 10half, 10full, 100half, 100full, 1000full
• SFP: 1000full
Command Mode: Interface Configuration (Ethernet, Port Channel)
Command Usage: When auto-negotiation is enabled with the negotiation
command, the switch will negotiate the best settings for a link based on the
capabilities command. When auto-negotiation is disabled, you must manually
specify the link attributes with the speed-duplex and flowcontrol commands.
Example: The following example configures Ethernet port 5 capabilities to
100half, 100full and flow control:
Console(config)#interface ethernet 1/5
Console(config-if)#capabilities 100half
Console(config-if)#capabilities 100full
Console(config-if)#capabilities flowcontrol
Console(config-if)#
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CLI (Command Line Interface)
Interface Commands (Cont.)
Command
Function
flowcontrol
Syntax:
[no] flowcontrol
This command enables flow
control.
Default Setting: Flow control enabled
Command Mode: Interface Configuration (Ethernet, Port Channel)
Use the no form to disable
flow control.
Command Usage: Flow control can eliminate frame loss by “blocking” traffic
from end stations or segments connected directly to the switch when its buffers
fill. When enabled, back pressure is used for half-duplex operation and IEEE
802.3x for full-duplex operation.
To force flow control on or off (with the flowcontrol or no flowcontrol command),
use the no negotiation command to disable auto-negotiation on the selected
interface.
When using the negotiation command to enable auto-negotiation, the optimal
settings will be determined by the capabilities command. To enable flow control
under auto-negotiation, “flowcontrol” must be included in the capabilities list for
any port
Avoid using flow control on a port connected to a hub unless it is actually
required to solve a problem. Otherwise back pressure jamming signals may
degrade overall performance for the segment attached to the hub.
Example: The following example enables flow control on port 5:
Console(config)#interface ethernet 1/5
Console(config-if)#flowcontrol
Console(config-if)#no negotiation
Console(config-if)#
shutdown
Syntax:
[no] shutdown
This command disables an
interface.
Default Setting: All interfaces are enabled.
Command Mode: Interface Configuration (Ethernet, Port Channel)
To restart a disabled
interface, use the no form.
Command Usage: This command allows you to disable a port due to abnormal
behavior (e.g., excessive collisions), and then re-enable it after the problem has
been resolved. You may also want to disable a port for security reasons.
Example: The following example disables port 5:
Console(config)#interface ethernet 1/5
Console(config-if)#shutdown
Console(config-if)#
switchport broadcast
packet-rate
Syntax:
switchport broadcast octet-rate rate
no switchport broadcast
This command configures
broadcast storm control.
• rate - Threshold level as a rate; i.e., octets per second.
(Range: 64-95232000)
Use the no form to disable
broadcast storm control.
Default Setting: Enabled for all ports
Packet-rate limit: 32000 octets per second
Command Mode: Interface Configuration (Ethernet)
Command Usage: When broadcast traffic exceeds the specified threshold,
packets above that threshold are dropped.
This command can enable or disable broadcast storm control for the selected
interface. However, the specified threshold value applies to all ports on the
switch.
Example: The following shows how to configure broadcast storm control at 600
packets per second:
Console(config)#interface ethernet 1/5
Console(config-if)#switchport broadcast octet-rate 600
Console(config-if)#
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CLI (Command Line Interface)
Interface Commands (Cont.)
Command
Function
clear counters
Syntax:
clear counters interface
• interface
This command clears
statistics on an interface.
ethernet unit/port
unit - Stack unit. (Range: 1-8)
port - Port number. (Range: 1-26)
• port-channel channel-id (Range: 1-4)
Default Setting: None
Command Mode: Privileged Exec
Command Usage: Statistics are only initialized for a power reset. This com-
mand sets the base value for displayed statistics to zero for the current manage-
ment session. However, if you log out and back into the management interface,
the statistics displayed will show the absolute value accumulated since the last
power reset.
Example: The following example clears statistics on port 5:
Console#clear counters ethernet 1/5
Console#
show interfaces status
Syntax:
show interfaces status [interface]
This command displays the
status for an interface.
• interface
ethernet unit/port
unit - Stack unit. (Range: 1-8)
port - Port number. (Range: 1-26)
• port-channel channel-id (Range: 1-4)
• vlan vlan-id (Range: 1-4094)
Default Setting: Shows the status for all interfaces.
Command Mode: Normal Exec, Privileged Exec
Command Usage: If no interface is specified, information on all interfaces is
displayed. For a description of the items displayed by this command, see
Example:
Console#show interfaces status ethernet 1/5
Information of Eth 1/5
Basic information:
Port type:
Mac address:
Configuration:
Name:
100TX
00-00-AB-CD-00-01
Port admin:
Speed-duplex:
Capabilities:
Broadcast storm:
Up
Auto
10half, 10full, 100half, 100full,
Enabled
Broadcast storm limit: 32000 octets/second
Flow control:
Lacp:
Disabled
Disabled
Disabled
0
Port security:
Max MAC count:
Port security action:
Current status:
Link status:
None
Up
Port operation status: Up
Operation speed-duplex: 100full
Flow control type:
None
Console#show interfaces status vlan 1
Information of VLAN 1
MAC address:
Console#
00-00-AB-CD-00-00
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CLI (Command Line Interface)
Interface Commands (Cont.)
Command
Function
show interfaces counters Syntax:
show interfaces counters [interface]
This command displays
interface statistics.
• interface
ethernet unit/port
unit - Stack unit. (Range: 1-8)
port - Port number. (Range: 1-26)
• port-channel channel-id (Range: 1-4)
Default Setting: Shows the counters for all interfaces.
Command Mode: Normal Exec, Privileged Exec
Command Usage: If no interface is specified, information on all interfaces is
displayed. For a description of the items displayed by this command, see Port
Example:
Console#show interfaces counters ethernet 1/7
Ethernet 1/7
Iftable stats:
Octets input: 30658, Octets output: 196550
Unicast input: 6, Unicast output: 5
Discard input: 0, Discard output: 0
Error input: 0, Error output: 0
Unknown protos input: 0, QLen output: 0
Extended iftable stats:
Multi-cast input: 0, Multi-cast output: 3064
Broadcast input: 262, Broadcast output: 1
Ether-like stats:
Alignment errors: 0, FCS errors: 0
Single Collision frames: 0, Multiple collision frames: 0
SQE Test errors: 0, Deferred transmissions: 0
Late collisions: 0, Excessive collisions: 0
Internal mac transmit errors: 0, Internal mac receive errors: 0
Frame too longs: 0, Carrier sense errors: 0
Symbol errors: 0
RMON stats:
Drop events: 0, Octets: 227208, Packets: 3338
Broadcast pkts: 263, Multi-cast pkts: 3064
Undersize pkts: 0, Oversize pkts: 0
Fragments: 0, Jabbers: 0
CRC align errors: 0, Collisions: 0
Packet size <= 64 octets: 3150, Packet size 65 to 127 octets: 139
Packet size 128 to 255 octets: 49, Packet size 256 to 511 octets: 0
Packet size 512 to 1023 octets: 0, Packet size 1024 to 1518 octets: 0
Console#
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CLI (Command Line Interface)
Interface Commands (Cont.)
Command
Function
show interfaces
switchport
Syntax:
show interfaces switchport [interface]
• interface
This command displays the
administrative and
ethernet unit/port
operational status of the
specified interfaces.
unit - Stack unit. (Range: 1-8)
port - Port number. (Range: 1-26)
• port-channel channel-id (Range: 1-4)
Default Setting: Shows all interfaces.
Command Mode: Normal Exec, Privileged Exec
Command Usage: If no interface is specified, information on all interfaces is
displayed.
Example: This example shows the configuration setting for port 24:
Console#show interfaces switchport ethernet 1/24
Broadcast threshold:
LACP status:
Enabled, 600 octets/second
Enabled
Ingress rate limit: disable, Level: 30
Egress rate limit: disable, Level: 30
VLAN membership mode:
Ingress rule:
Acceptable frame type:
Native VLAN:
Hybrid
Disabled
All frames
1
Priority for untagged traffic: 0
Gvrp status:
Disabled
Allowed Vlan:
Forbidden Vlan:
Private-VLAN mode:
1(u),
NONE
Private-VLAN host-association: NONE
Private-VLAN mapping:
Console#
NONE
Interfaces Switchport Statistics
• Broadcast threshold: Shows if broadcast storm suppression is enabled or
disabled; if enabled it also shows the threshold level (see switchport
• Lacp status: Shows if Link Aggregation Control Protocol has been enabled or
• Ingress/Egress rate limit: Shows if rate limiting is enabled, and the current rate
• VLAN membership mode: Indicates membership mode as Trunk or Hybrid
• Ingress rule: Shows if ingress filtering is enabled or disabled (see switchport
• Acceptable frame type: Shows if acceptable VLAN frames include all types or
• Native VLAN: Indicates the default Port VLAN ID (see switchport native vlan
• Priority for untagged traffic: Indicates the default priority for untagged frames
• Gvrp status: Shows if GARP VLAN Registration Protocol is enabled or
• Allowed Vlan: Shows the VLANs this interface has joined, where “(u)”
• Forbidden Vlan: Shows the VLANs this interface can not dynamically join via
• Private VLAN mode: Shows the private VLAN mode as host, promiscuous, or
• Private VLAN host-association: Shows the secondary (or community) VLAN
with which this port is associated (see switchport private-vlan host-
• Private VLAN mapping: Shows the primary VLAN mapping for a promiscuous
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CLI (Command Line Interface)
Mirror Port Commands
This section describes how to mirror traffic from a source port to a target port.
Mirror Port Commands
Command
Function
port monitor
Syntax:
port monitor interface [rx | tx]
no port monitor interface
This command configures
a mirror session.
• interface - ethernet unit/port (source port)
• unit - Stack unit. (Range: 1-8)
Use the no form to clear a
mirror session.
• port - Port number. (Range: 1-26)
• rx - Mirror received packets.
• tx - Mirror transmitted packets.
Default Setting: No mirror session is defined.
Command Mode: Interface Configuration (Ethernet, destination port)
Command Usage: You can mirror traffic from any source port to a destination
port for real-time analysis. You can then attach a logic analyzer or RMON probe to
the destination port and study the traffic crossing the source port in a completely
unobtrusive manner.
• The destination port is set by specifying an Ethernet interface.
• The mirror port and monitor port speeds should match, otherwise traffic may be
dropped from the monitor port.
You can create multiple mirror sessions, but all sessions must share the same
destination port. However, you should avoid sending too much traffic to the desti-
nation port from multiple source ports.
Example: The following example configures the switch to mirror received packets
from port 6 to 11:
Console(config)#interface ethernet 1/11
Console(config-if)#port monitor ethernet 1/6 rx
Console(config-if)#
show port monitor
Syntax: show port monitor [interface]
• interface - ethernet unit/port (source port)
• unit - Stack unit. (Range: 1-8)
This command displays
mirror information.
• port - Port number. (Range: 1-26)
Default Setting: Shows all sessions.
Command Mode: Privileged Exec
Command Usage: This command displays the currently configured source port,
destination port, and mirror mode (i.e., RX, TX).
Example: The following shows mirroring configured from port 6 to port 11:
Console(config)#interface ethernet 1/11
Console(config-if)#port monitor ethernet 1/6 rx
Console(config-if)#end
Console#show port monitor
Port Mirroring
-------------------------------------
Destination port(listen port):Eth1/11
Source port(monitored port) :Eth1/6
Mode
:RX
Console#
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CLI (Command Line Interface)
Rate Limit Commands
This function allows the network manager to control the maximum rate for traffic transmitted or received on an
interface. Rate limiting is configured on interfaces at the edge of a network to limit traffic into or out of the
network. Traffic that falls within the rate limit is transmitted, while packets that exceed the acceptable amount
of traffic are dropped.
Rate limiting can be applied to individual ports or trunks. When an interface is configured with this feature, the
traffic rate will be monitored by the hardware to verify conformity. Non-conforming traffic is dropped,
conforming traffic is forwarded without any changes.
Rate Limit Commands
Command
Function
rate-limit
Syntax:
rate-limit {input | output} level [rate]
no rate-limit {input | output}
Use this command to define the
rate limit level for a specific
interface.
• input – Input rate
• output – Output rate
Use this command without
specifying a rate to restore the
default rate limit level.
• rate – Maximum value in Mbps. (Range: 1-30)
Default Settings:
Use the no form to restore the
default status of disabled.
• Fast Ethernet interface – 100 Mbps
• Gigabit Ethernet interface – 1000 Mbps
Command Mode: Interface Configuration (Ethernet, Port Channel)
Command Usage:
The range is:
• Fast Ethernet interface – 1 to 100 Mbps
• Gigabit Ethernet interface – 8 to 1000 Mbps
Resolution – The increment of change:
• Fast Ethernet interface – 1 Mbps
• Gigabit Ethernet interface – 8 Mbps
Example:
Console(config)#interface ethernet 1/1
Console(config-if)#rate-limit input level 20
Console(config-if)#
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CLI (Command Line Interface)
Link Aggregation Commands
Ports can be statically grouped into an aggregate link (i.e., trunk) to increase the bandwidth of a network
connection or to ensure fault recovery. Or you can use the Link Aggregation Control Protocol (LACP) to
automatically negotiate a trunk link between this switch and another network device. For static trunks, the
switches have to comply with the Cisco EtherChannel standard. For dynamic trunks, the switches have to
comply with LACP. This switch supports up to six trunks. For example, a trunk consisting of two 1000 Mbps
ports can support an aggregate bandwidth of 4 Gbps when operating at full duplex.
Guidelines for Creating Trunks
General Guidelines:
ꢀ
Finish configuring port trunks before you connect the corresponding network cables between
switches to avoid creating a loop.
ꢀ
ꢀ
ꢀ
A trunk can have up to eight ports.
The ports at both ends of a connection must be configured as trunk ports.
All ports in a trunk must be configured in an identical manner, including communication mode (i.e.,
speed, duplex mode and flow control), VLAN assignments, and CoS settings.
ꢀ
ꢀ
All the ports in a trunk have to be treated as a whole when moved from/to, added or deleted from a
VLAN via the specified port-channel.
STP, VLAN, and IGMP settings can only be made for the entire trunk via the specified port-
channel.
Dynamically Creating a Port Channel:
ꢀ
ꢀ
ꢀ
ꢀ
Ports assigned to a common port channel must meet the following criteria:
Ports must have the same LACP system priority.
Ports must have the same port admin key (Ethernet Interface).
If the port channel admin key (lacp admin key - Port Channel) is not set when a channel group is
formed (i.e., it has the null value of 0), this key is set to the same value as the port admin key (lacp
admin key - Ethernet Interface) used by the interfaces that joined the group.
ꢀ
ꢀ
However, if the port channel admin key is set, then the port admin key must be set to the same value
for a port to be allowed to join a channel group.
If a link goes down, LACP port priority is used to select the backup link.
Link Aggregation Commands
Command
Function
Manual Configuration Commands
interface port-channel
channel-group
Syntax:
channel-group channel-id
no channel-group
This command adds a port to a
trunk.
• channel-id - Trunk index (Range: 1-4)
Use the no form to remove a port
from a trunk.
Default Setting: The current port will be added to this trunk.
Command Mode: Interface Configuration (Ethernet)
Command Usage: When configuring static trunks, the switches must com-
ply with the Cisco EtherChannel standard.
• Use no channel-group to remove a port group from a trunk.
• Use no interfaces port-channel to remove a trunk from the switch.
Example: The following example creates trunk 1 and then adds port 11:
Console(config)#interface port-channel 1
Console(config-if)#exit
Console(config)#interface ethernet 1/11
Console(config-if)#channel-group 1
Console(config-if)#
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CLI (Command Line Interface)
Link Aggregation Commands (Cont.)
Command
Function
Dynamic Configuration Commands
lacp
Syntax:
[no] lacp
This command enables 802.3ad
Link Aggregation Control Protocol
(LACP) for the current interface.
Default Setting: Disabled
Command Mode: Interface Configuration (Ethernet)
Use the no form to disable it.
Command Usage: The ports on both ends of an LACP trunk must be
configured for full duplex, either by forced mode or auto-negotiation.
A trunk formed with another switch using LACP will automatically be
assigned the next available port-channel ID.
• If the target switch has also enabled LACP on the connected ports, the
trunk will be activated automatically.
• If more than eight ports attached to the same target switch have LACP
enabled, the additional ports will be placed in standby mode, and will
only be enabled if one of the active links fails.
Example: The following shows LACP enabled on ports 11-13. Because
LACP has also been enabled on the ports at the other end of the links, the
show interfaces status port-channel 1 command shows that Trunk 1 has
been established:
Console(config)#interface ethernet 1/11
Console(config-if)#lacp
Console(config-if)#exit
Console(config)#interface ethernet 1/12
Console(config-if)#lacp
Console(config-if)#exit
Console(config)#interface ethernet 1/13
Console(config-if)#lacp
Console(config-if)#exit
Console(config)#exit
Console#show interfaces status port-channel 1
Information of Trunk 1
Basic information:
Port type:
100TX
Mac address:
Configuration:
Name:
00-00-e8-00-00-0b
Port admin:
Up
Speed-duplex:
Capabilities:
Flow control status:
Port security:
Max MAC count:
Current status:
Created by:
Auto
10half, 10full, 100half, 100full
Disabled
Disabled
0
LACP
Up
Link status:
Operation speed-duplex: 100full
Flow control type: None
Member Ports: Eth1/11, Eth1/12, Eth1/13,
Console#
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CLI (Command Line Interface)
Link Aggregation Commands (Cont.)
Command
Function
Syntax:
lacp system-priority
lacp {actor | partner} system-priority priority
no lacp {actor | partner} system-priority
This command configures a port's
LACP system priority.
• actor - The local side an aggregate link.
Use the no form to restore the
default setting.
• partner - The remote side of an aggregate link.
• priority - This priority is used to determine link aggregation group (LAG)
membership, and to identify this device to other switches during LAG
negotiations. (Range: 0-65535)
Default Setting: 32768
Command Mode: Interface Configuration (Ethernet)
Command Usage: Port must be configured with the same system priority
to join the same LAG.
System priority is combined with the switch’s MAC address to form the
LAG identifier. This identifier is used to indicate a specific LAG during
LACP negotiations with other systems.
Once the remote side of a link has been established, LACP operational set-
tings are already in use on that side. Configuring LACP settings for the
partner only applies to its administrative state, not its operational state, and
will only take effect the next time an aggregate link is established with the
partner.
Example:
Console(config)#interface ethernet 1/5
Console(config-if)#lacp actor system-priority 3
Console(config-if)#
lacp admin-key
Syntax:
lacp {actor | partner} admin-key key
[no] lacp {actor | partner} admin-key
(Ethernet Interface)
This command configures a port's
LACP administration key.
• actor - The local side an aggregate link.
• partner - The remote side of an aggregate link.
Use the no form to restore the
default setting.
• key - The port admin key must be set to the same value for ports that
belong to the same link aggregation group (LAG). (Range: 0-65535)
Default Setting: 0
Command Mode: Interface Configuration (Ethernet)
Command Usage: Ports are only allowed to join the same LAG if (1) the
LACP system priority matches, (2) the LACP port admin key matches, and
(3) the LACP port channel key matches (if configured).
If the port channel admin key (lacp admin key - Port Channel) is not set
when a channel group is formed (i.e., it has the null value of 0), this key is
set to the same value as the port admin key (lacp admin key - Ethernet
Interface) used by the interfaces that joined the group.
Once the remote side of a link has been established, LACP operational
settings are already in use on that side. Configuring LACP settings for the
partner only applies to its administrative state, not its operational state, and
will only take effect the next time an aggregate link is established with the
partner.
Example:
Console(config)#interface ethernet 1/5
Console(config-if)#lacp actor admin-key 120
Console(config-if)#
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CLI (Command Line Interface)
Link Aggregation Commands (Cont.)
Command
Function
lacp admin-key
(Port Channel)
Syntax:
lacp {actor | partner} admin-key key
[no] lacp {actor | partner} admin-key
This command configures a port
channel's LACP administration
key string.
• key - The port channel admin key is used to identify a specific link
aggregation group (LAG) during local LACP setup on this switch.
(Range: 0-65535)
Use the no form to restore the
default setting.
Default Setting: 0
Command Mode: Interface Configuration (Port Channel)
Command Usage: Ports are only allowed to join the same LAG if (1) the
LACP system priority matches, (2) the LACP port admin key matches, and
(3) the LACP port channel key matches (if configured).
If the port channel admin key (lacp admin key - Port Channel) is not set
when a channel group is formed (i.e., it has the null value of 0), this key is
set to the same value as the port admin key (lacp admin key - Ethernet
Interface) used by the interfaces that joined the group.
Note that when the LAG is no longer used, the port channel admin key is
reset to 0.
Example:
Console(config)#interface port-channel 1
Console(config-if)#lacp actor admin-key 3
Console(config-if)#
lacp port-priority
Syntax:
lacp {actor | partner} port-priority priority
no lacp {actor | partner} port-priority
This command configures LACP
port priority.
• actor - The local side an aggregate link.
Use the no form to restore the
default setting.
• partner - The remote side of an aggregate link.
• priority - LACP port priority is used to select a backup link.
(Range: 0-65535)
Default Setting: 32768
Command Mode: Interface Configuration (Ethernet)
Command Usage: Setting a lower value indicates a higher effective
priority.
If an active port link goes down, the backup port with the highest priority is
selected to replace the downed link. However, if two or more ports have the
same LACP port priority, the port with the lowest physical port number will
be selected as the backup port.
Once the remote side of a link has been established, LACP operational
settings are already in use on that side. Configuring LACP settings for the
partner only applies to its administrative state, not its operational state, and
will only take effect the next time an aggregate link is established with the
partner.
Example:
Console(config)#interface ethernet 1/5
Console(config-if)#lacp actor port-priority 128
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CLI (Command Line Interface)
Link Aggregation Commands (Cont.)
Command
Function
Trunk Status Display Command
show interfaces status
port-channel
Shows trunk information
show lacp
Syntax:
show lacp [port-channel] {counters | internal | neighbors |
sysid}
This command displays LACP
information.
• port-channel - Local identifier for a link aggregation group. (Range: 1-4)
• counters - Statistics for LACP protocol messages.
• internal - Configuration settings and operational state for local side.
• neighbors - Configuration settings and operational state for remote side.
• sysid - Summary of system priority and MAC address for all channel
groups.
Default Setting: Port Channel: all
Command Mode: Privileged Exec
Example:
Console#show 1 lacp counters
Channel group : 1 -----------------------------------------
Eth 1/ 1 --------------------------------------------------
LACPDUs Sent : 21
LACPDUs Received : 21
Marker Sent : 0
Marker Received : 0
LACPDUs Unknown Pkts : 0
LACPDUs Illegal Pkts : 0
.
.
.
• LACPDUs Sent: Number of valid LACPDUs transmitted from this channel
group.
• LACPDUs Received: Number of valid LACPDUs received on this channel
group.
• Marker Sent: Number of valid Marker PDUs transmitted from this channel
group.
• Marker Received: Number of valid Marker PDUs received by this channel
group.
• LACPDUs Unknown Pkts: Number of frames received that either (1)
Carry the Slow Protocols Ethernet Type value, but contain an unknown
PDU, or (2) are addressed to the Slow Protocols group MAC Address,
but do not carry the Slow Protocols Ethernet Type.
• LACPDUs Illegal Pkts: Number of frames that carry the Slow Protocols
Ethernet Type value, but contain a badly formed PDU or an illegal value
of Protocol Subtype.
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CLI (Command Line Interface)
Link Aggregation Commands (Cont.)
Command
Function
show lacp (Cont.)
Example:
Console#show lacp 1 internal
Channel group : 1
-------------------------------------------------------------
------------
Oper Key : 4
Admin Key : 0
Eth 1/1
-------------------------------------------------------------
------------
LACPDUs Internal : 30 sec
LACP System Priority : 32768
LACP Port Priority : 32768
Admin Key : 4
Oper Key : 4
Admin State : defaulted, aggregation, long timeout, LACP-
activity
Oper State : distributing, collecting, synchronization,
aggregation,
long timeout, LACP-activity
.
.
.
• Oper Key: Current operational value of the key for the aggregation port.
• Admin Key: Current administrative value of the key for the aggregation
port.
• LACPDUs Internal: Number of seconds before invalidating received
LACPDU information.
• LACP System Priority: LACP system priority assigned to this port
channel.
• LACP Port Priority: LACP port priority assigned to this interface within the
channel group.
• Admin State, Oper State: Administrative or operational values of the
actor’s state parameters:
Expired – The actor’s receive machine is in the expired state;
Defaulted – The actor’s receive machine is using defaulted operational
partner information, administratively configured for the partner.
Distributing – If false, distribution of outgoing frames on this link is
disabled; i.e., distribution is currently disabled and is not expected to be
enabled in the absence of administrative changes or changes in received
protocol information.
Collecting – Collection of incoming frames on this link is enabled; i.e.,
collection is currently enabled and is not expected to be disabled in the
absence of administrative changes or changes in received protocol
information.
Synchronization – The System considers this link to be IN_SYNC; i.e., it
has been allocated to the correct Link Aggregation Group, the group has
been associated with a compatible Aggregator, and the identity of the
Link Aggregation Group is consistent with the System ID and operational
Key information transmitted.
Aggregation – The system considers this link to be aggregatable; i.e., a
potential candidate for aggregation.
Long timeout – Periodic transmission of LACPDUs uses a slow
transmission rate.
LACP-Activity – Activity control value with regard to this link.
(0: Passive; 1: Active)
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CLI (Command Line Interface)
Link Aggregation Commands (Cont.)
Command
Function
show lacp (Cont.)
Example:
Console#show lacp 1 neighbors
Channel group 1 neighbors
-------------------------------------------------------------
------------
Eth 1/1
-------------------------------------------------------------
------------
Partner Admin System ID : 32768, 00-00-00-00-00-00
Partner Oper System ID : 32768, 00-00-00-00-00-01
Partner Admin Port Number : 1
Partner Oper Port Number : 1
Port Admin Priority : 32768
Port Oper Priority : 32768
Admin Key : 0
Oper Key : 4
Admin State : defaulted, distributing, collecting,
synchronization,
long timeout,
Oper State : distributing, collecting, synchronization,
aggregation,
long timeout, LACP-activity
.
.
.
• Partner Admin System ID: LAG partner’s system ID assigned by the user.
• Partner Oper System ID: LAG partner’s system ID assigned by the LACP
protocol.
• Partner Admin Port Number: Current administrative value of the port
number for the protocol Partner.
• Partner Oper Port Number: Operational port number assigned to this
aggregation port by the port’s protocol partner.
• Port Admin Priority: Current administrative value of the port priority for the
protocol partner.
• Port Oper Priority: Priority value assigned to this aggregation port by the
partner.
• Admin Key: Current administrative value of the Key for the protocol
partner.
• Oper Key: Current operational value of the Key for the protocol partner.
• Admin State: Administrative values of the partner’s state parameters.
(See preceding table.)
• Oper State: Operational values of the partner’s state parameters. (See
preceding table.)
Example:
Console#show lacp sysid
Port Channel
System Priority
System MAC Address
-------------------------------------------------------------
------------
1
2
3
4
5
6
32768
32768
32768
32768
32768
32768
00-30-F1-8F-2C-A7
00-30-F1-8F-2C-A7
00-30-F1-8F-2C-A7
00-30-F1-8F-2C-A7
00-30-F1-8F-2C-A7
00-30-F1-8F-2C-A7
Console#
• Channel group: A link aggregation group configured on this switch.
• System Priority: LACP system priority for this channel group.
• System MAC Address: System MAC address.
Note: The LACP system priority and system MAC address are
concatenated to form the LAG system ID.
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CLI (Command Line Interface)
Address Table Commands
These commands are used to configure the address table for filtering specified addresses, displaying current
entries, clearing the table, or setting the aging time.
Address Table Commands
Command
Function
mac-address-table static
Syntax:
mac-address-table static mac-address interface interface vlan
vlan-id [action]
no mac-address-table static mac-address vlan vlan-id
This command maps a static
address to a destination port
in a VLAN.
• mac-address - MAC address.
• interface:
Use the no form to remove
an address.
ethernet unit/port
unit - Stack unit. (Range: 1-8)
port - Port number. (Range: 1-26)
port-channel channel-id (Range: 1-4)
• vlan-id - VLAN ID (Range: 1-4094)
• action -
delete-on-reset - Assignment lasts until the switch is reset.
permanent - Assignment is permanent.
Default Setting: No static addresses are defined. The default mode is
permanent.
Command Mode: Global Configuration
Command Usage: The static address for a host device can be assigned to a
specific port within a specific VLAN. Use this command to add static addresses
to the MAC Address Table. Static addresses have the following characteristics:
• Static addresses will not be removed from the address table when a given
interface link is down.
• Static addresses are bound to the assigned interface and will not be moved.
When a static address is seen on another interface, the address will be
ignored and will not be written to the address table.
• A static address cannot be learned on another port until the address is
removed with the no form of this command.
Example:
Console(config)#mac-address-table static 00-e0-29-94-34-de
interface ethernet 1/1 vlan 1 delete-on-reset
clear mac-address-table
dynamic
Default Setting: None
Command Mode: Privileged Exec
Example:
This command removes any
learned entries from the for-
warding database and clears
the transmit and receive
counts for any static or
Console#clear mac-address-table dynamic
system configured entries.
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CLI (Command Line Interface)
Address Table Commands (Cont.)
Command
Function
show mac-address-table
Syntax:
show mac-address-table [address mac-address [mask]] [interface
interface] [vlan vlan-id] [sort {address | vlan | interface}]
This command shows
classes of entries in the
bridge-forwarding database.
• mac-address - MAC address.
• mask - Bits to match in the address.
• interface
ethernet unit/port
unit - Stack unit. (Range: 1-8)
port - Port number. (Range: 1-26)
port-channel channel-id (Range: 1-4)
• vlan-id - VLAN ID (Range: 1-4094)
• sort - Sort by address, vlan or interface.
Default Setting: None
Command Mode: Privileged Exec
Command Usage: The MAC Address Table contains the MAC addresses
associated with each interface.
mac-address-table aging- Syntax:
time
mac-address-table aging-time seconds
no mac-address-table aging-time
This command sets the
aging time for entries in the
address table.
• seconds - Aging time. (Range: 10-30000 seconds; 0 to disable aging)
Default Setting: 300 seconds
Command Mode: Global Configuration
Use the no form to restore
the default aging time.
Command Usage: The aging time is used to age out dynamically learned
forwarding information.
Example:
Console(config)#mac-address-table aging-time 100
Console(config)#
show mac-address-table
aging-time
Default Setting: None
Command Mode: Privileged Exec
Example:
This command shows the
aging time for entries in the
address table.
Console#show mac-address-table aging-time
Aging time: 100 sec.
Console#
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CLI (Command Line Interface)
Spanning Tree Commands
This section includes commands that configure the Spanning Tree Algorithm (STA) globally for the switch,
and commands that configure STA for the selected interface.
Spanning Tree Commands
Command
Function
spanning-tree
Syntax:
[no] spanning-tree
This command enables the
Spanning Tree Algorithm
globally for the switch.
Default Setting: Spanning tree is enabled.
Command Mode: Global Configuration
Use the no form to disable it.
Command Usage: The Spanning Tree Algorithm (STA) can be used to
detect and disable network loops, and to provide backup links between
switches, bridges or routers. This allows the switch to interact with other
bridging devices (that is, an STA-compliant switch, bridge or router) in your
network to ensure that only one route exists between any two stations on
the network, and provide backup links which automatically take over when a
primary link goes down.
Example: This example shows how to enable the Spanning Tree Algorithm
for the switch:
Console(config)#spanning-tree
Console(config)#
spanning-tree mode
Syntax:
spanning-tree mode {stp | rstp}
no spanning-tree mode
This command selects the
spanning tree mode for this
switch.
• stp - Spanning Tree Protocol (IEEE 802.1D)
• rstp - Rapid Spanning Tree Protocol (IEEE 802.1w)
Default Setting: rstp
Use the no form to restore the
default.
Command Mode: Global Configuration
Command Usage:
• Spanning Tree Protocol: Uses RSTP for the internal state machine, but
sends only 802.1D BPDUs.
• Rapid Spanning Tree Protocol: RSTP supports connections to either STP
or RSTP nodes by monitoring the incoming protocol messages and
dynamically adjusting the type of protocol messages the RSTP node
transmits, as described below:
STP Mode – If the switch receives an 802.1D BPDU after a port’s
migration delay timer expires, the switch assumes it is connected to an
802.1D bridge and starts using only 802.1D BPDUs.
RSTP Mode – If RSTP is using 802.1D BPDUs on a port and receives an
RSTP BPDU after the migration delay expires, RSTP restarts the
migration delay timer and begins using RSTP BPDUs on that port.
Example: The following example configures the switch to use Rapid
Spanning Tree:
Console(config)#spanning-tree mode rstp
Console(config)#
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CLI (Command Line Interface)
Spanning Tree Commands (Cont.)
Command
Function
spanning-tree forward-time
Syntax:
spanning-tree forward-time seconds
no spanning-tree forward-time
This command configures the
spanning tree bridge forward
time globally for this switch.
• seconds - Time in seconds. (Range: 4-30 seconds). The minimum value
is the higher of 4 or [(max-age / 2) + 1].
Use the no form to restore the
default.
Default Setting: 15 seconds
Command Mode: Global Configuration
Command Usage: This command sets the maximum time (in seconds) the
root device will wait before changing states (i.e., discarding to learning to
forwarding). This delay is required because every device must receive
information about topology changes before it starts to forward frames. In
addition, each port needs time to listen for conflicting information that would
make it return to the discarding state; otherwise, temporary data loops
might result.
Example:
Console(config)#spanning-tree forward-time 20
Console(config)#
spanning-tree hello-time
Syntax:
spanning-tree hello-time time
no spanning-tree hello-time
This command configures the
spanning tree bridge hello time
globally for this switch.
• time - Time in seconds. (Range: 1-10 seconds). The maximum value is
the lower of 10 or [(max-age / 2) -1].
Use the no form to restore the
default.
Default Setting: 2 seconds
Command Mode: Global Configuration
Command Usage: This command sets the time interval (in seconds) at
which the root device transmits a configuration message.
Example:
Console(config)#spanning-tree hello-time 5
Console(config)
spanning-tree max-age
Syntax:
spanning-tree max-age seconds
no spanning-tree max-age
This command configures the
spanning tree bridge maximum
age globally for this switch.
• seconds - Time in seconds. (Range: 6-40 seconds)
The minimum value is the higher of 6 or [2 x (hello-time + 1)].
The maximum value is the lower of 40 or [2 x (forward-time - 1)].
Default Setting: 20 seconds
Use the no form to restore the
default.
Command Mode: Global Configuration
Command Usage: This command sets the maximum time (in seconds) a
device can wait without receiving a configuration message before
attempting to reconfigure. All device ports (except for designated ports)
should receive configuration messages at regular intervals. Any port that
ages out STA information (provided in the last configuration message)
becomes the designated port for the attached LAN. If it is a root port, a new
root port is selected from among the device ports attached to the network.
Example:
Console(config)#spanning-tree max-age 40
Console(config)#
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CLI (Command Line Interface)
Spanning Tree Commands (Cont.)
Command
Function
spanning-tree priority
Syntax:
spanning-tree priority priority
no spanning-tree priority
This command configures the
spanning tree priority globally for
this switch.
• priority - Priority of the bridge.
Range – 0-61440, in steps of 4096;
Options: 0, 4096, 8192, 12288, 16384, 20480, 24576, 28672, 32768,
36864, 40960, 45056, 49152, 53248, 57344, 61440
Use the no form to restore the
default.
Default Setting: 32768
Command Mode: Global Configuration
Command Usage: Bridge priority is used in selecting the root device, root
port, and designated port. The device with the highest priority becomes the
STA root device. However, if all devices have the same priority, the device
with the lowest MAC address will then become the root device.
Example:
Console(config)#spanning-tree priority 40960
Console(config)#
spanning-tree pathcost
method
Syntax:
spanning-tree pathcost method {long | short}
no spanning-tree pathcost method
This command configures the
path cost method used for Rapid
Spanning Tree.
• long - Specifies 32-bit based values that range from 0-200,000,000.
• short - Specifies 16-bit based values that range from 0-65535.
Default Setting: Long method
Use the no form to restore the
default.
Command Mode: Global Configuration
Command Usage: The path cost method is used to determine the best
path between devices. Therefore, lower values should be assigned to ports
attached to faster media, and higher values assigned to ports with slower
Example:
Console(config)#spanning-tree pathcost method long
Console(config)#
spanning-tree transmission-
limit
Syntax:
spanning-tree transmission-limit count
no spanning-tree transmission-limit
This command configures the
minimum interval between the
transmission of consecutive
RSTP BPDUs.
• count - The transmission limit in seconds. (Range: 1-10)
Default Setting: 3
Command Mode: Global Configuration
Use the no form to restore the
default.
Command Usage: This command limits the maximum transmission rate for
BPDUs.
Example:
Console(config)#spanning-tree transmission-limit 4
Console(config)#
spanning-tree spanning-
disabled
Syntax:
[no] spanning-tree spanning-disabled
Default Setting: Enabled
This command disables the
Spanning Tree Algorithm for the
specified interface.
Command Mode: Interface Configuration (Ethernet, Port Channel)
Example: This example disables the Spanning Tree Algorithm for port 5:
Use the no form to re-enable the
Spanning Tree Algorithm for the
specified interface.
Console(config)#interface ethernet 1/5
Console(config-if)#spanning-tree spanning-disabled
Console(config-if)#
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CLI (Command Line Interface)
Spanning Tree Commands (Cont.)
Command
Function
spanning-tree cost
Syntax:
spanning-tree cost cost
no spanning-tree cost
This command configures the
spanning tree path cost for the
specified interface.
• cost - The path cost for the port. (Range: 1-200,000,000))
The recommended range is:
Use the no form to restore the
default.
Ethernet: 200,000-20,000,000
Fast Ethernet: 20,000-2,000,000
Gigabit Ethernet: 2,000-200,000
Default Settings:
• Ethernet – half duplex: 2,000,000; full duplex: 1,000,000; trunk: 500,000
• Fast Ethernet – half duplex: 200,000; full duplex: 100,000; trunk: 50,000
• Gigabit Ethernet – full duplex: 10,000; trunk: 5,000
Command Mode: Interface Configuration (Ethernet, Port Channel)
Command Usage: This command is used by the Spanning Tree Algorithm
to determine the best path between devices. Therefore, lower values
should be assigned to ports attached to faster media, and higher values
assigned to ports with slower media.
Note: Path cost takes precedence over port priority.
When the spanning-tree pathcost method (page 4-141) is set to short, the
maximum value for path cost is 65,535.
Example:
Console(config)#interface ethernet 1/5
Console(config-if)#spanning-tree cost 5000
Console(config-if)#
spanning-tree port-priority
Syntax:
spanning-tree port-priority priority
no spanning-tree port-priority
This command configures the
priority for the specified
interface.
• priority - The priority for a port. (Range: 0-240, in steps of 16)
Default Setting: 128
Use the no form to restore the
default.
Command Mode: Interface Configuration (Ethernet, Port Channel)
Command Usage: This command defines the priority for the use of a port
in the Spanning Tree Algorithm. If the path cost for all ports on a switch are
the same, the port with the highest priority (that is, lowest value) will be con-
figured as an active link in the spanning tree.
Where more than one port is assigned the highest priority, the port with the
lowest numeric identifier will be enabled.
Example:
Console(config)#interface ethernet 1/5
Console(config-if)#spanning-tree port-priority 128
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CLI (Command Line Interface)
Spanning Tree Commands (Cont.)
Command
Function
spanning-tree edge-port
Syntax:
[no] spanning-tree edge-port
Default Setting: Disabled
This command specifies an
interface as an edge port.
Command Mode: Interface Configuration (Ethernet, Port Channel)
Use the no form to restore the
default.
Command Usage: You can enable this option if an interface is attached to
a LAN segment that is at the end of a bridged LAN or to an end node. Since
end nodes cannot cause forwarding loops, they can pass directly through to
the spanning tree forwarding state. Specifying Edge Ports provides quicker
convergence for devices such as workstations or servers, retains the cur-
rent forwarding database to reduce the amount of frame flooding required to
rebuild address tables during reconfiguration events, does not cause the
spanning tree to initiate reconfiguration when the interface changes state,
and also overcomes other STA-related timeout problems. However, remem-
ber that Edge Port should only be enabled for ports connected to an end-
node device.
This command has the same effect as the spanning-tree portfast.
Example:
Console(config)#interface ethernet ethernet 1/5
Console(config-if)#spanning-tree edge-port
Console(config-if)#
spanning-tree portfast
Syntax:
[no] spanning-tree portfast
Default Setting: Disabled
This command sets an interface
to fast forwarding.
Command Mode: Interface Configuration (Ethernet, Port Channel)
Use the no form to disable fast
forwarding.
Command Usage: This command is used to enable/disable the fast span-
ning-tree mode for the selected port. In this mode, ports skip the Discarding
and Learning states, and proceed straight to Forwarding.
Since end-nodes cannot cause forwarding loops, they can be passed
through the spanning tree state changes more quickly than allowed by stan-
dard convergence time. Fast forwarding can achieve quicker convergence
for end-node workstations and servers, and also overcome other STA
related timeout problems. (Remember that fast forwarding should only be
enabled for ports connected to a LAN segment that is at the end of a
bridged LAN or for an end-node device.)
This command is the same as spanning-tree edge-port, and is only included
for backward compatibility with earlier products. Note that this command
may be removed for future software versions.
Example:
Console(config)#interface ethernet 1/5
Console(config-if)#spanning-tree portfast
Console(config-if)#
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CLI (Command Line Interface)
Spanning Tree Commands (Cont.)
Command
Function
Syntax:
spanning-tree link-type
spanning-tree link-type {auto | point-to-point | shared}
no spanning-tree link-type
This command configures the
link type for Rapid Spanning
Tree.
• auto - Automatically derived from the duplex mode setting.
• point-to-point - Point-to-point link.
Use the no form to restore the
default.
• shared - Shared medium.
Default Setting: auto
Command Mode: Interface Configuration (Ethernet, Port Channel)
Command Usage: Specify a point-to-point link if the interface can only be
connected to exactly one other bridge, or a shared link if it can be con-
nected to two or more bridges.
When automatic detection is selected, the switch derives the link type from
the duplex mode. A full-duplex interface is considered a point-to-point link,
while a half-duplex interface is assumed to be on a shared link.
RSTP only works on point-to-point links between two bridges. If you desig-
nate a port as a shared link, RSTP is forbidden.
Example:
Console(config)#interface ethernet 1/5
Console(config-if)#spanning-tree link-type point-to-point
spanning-tree protocol-
migration
Syntax:
spanning-tree protocol-migration interface
• interface
This command re-checks the
appropriate BPDU format to
send on the selected interface.
ethernet unit/port
unit - Stack unit. (Range: 1-8)
port - Port number. (Range: 1-26)
port-channel channel-id (Range: 1-6)
Command Mode: Privileged Exec
Command Usage: If at any time the switch detects STP BPDUs, including
Configuration or Topology Change Notification BPDUs, it will automatically
set the selected interface to forced STP-compatible mode. However, you
can also use the spanning-tree protocol-migration command at any time to
manually re-check the appropriate BPDU format to send on the selected
interfaces (i.e., RSTP or STP-compatible).
Example:
Console#spanning-tree protocol-migration ethernet 1/5
Console#
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CLI (Command Line Interface)
Spanning Tree Commands (Cont.)
Command
Function
show spanning-tree
Syntax:
show spanning-tree [interface]
This command shows the
configuration for the spanning
tree.
• interface
ethernet unit/port
unit - Stack unit. (Range: 1-8)
port - Port number. (Range: 1-26)
port-channel channel-id (Range: 1-4)
Default Setting: None
Command Mode: Privileged Exec
Command Usage: Use the show spanning-tree command with no parame-
ters to display the spanning tree configuration for the switch and for every
interface in the tree.
Use the show spanning-tree interface command to display the spanning
tree configuration for a specific interface.
For a description of the items displayed under “Spanning-tree information,”
For a description of the items displayed for specific interfaces, see Display-
Example:
Console#show spanning-tree
Spanning-tree information
--------------------------------------------------------------
-
Spanning tree mode:
RSTP
Spanning tree enabled/disabled:
Priority:
enabled
40960
Bridge Hello Time (sec.):
Bridge Max Age (sec.):
Bridge Forward Delay (sec.):
Root Hello Time (sec.):
Root Max Age (sec.):
Root Forward Delay (sec.):
Designated Root:
2
20
15
2
20
15
32768.0.0000ABCD0000
Current root port:
1
Current root cost:
Number of topology changes:
50000
5
Last topology changes time (sec.):226
Transmission limit:
Path Cost Method:
3
long
--------------------------------------------------------------
-
Eth 1/ 1 information
--------------------------------------------------------------
-
Admin status:
Role:
enabled
root
State:
Path cost:
forwarding
100000
Priority:
128
Designated cost:
Designated port:
Designated root:
Designated bridge:
Fast forwarding:
Forward transitions: 1
Admin edge port:
Oper edge port:
Admin Link type:
Oper Link type:
200000
128.24
32768.0.0000ABCD0000
32768.0.0030F1552000
enabled
enabled
disabled
auto
point-to-point
Spanning Tree Status: enabled
.
.
.
Console#
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CLI (Command Line Interface)
VLAN Commands
A VLAN is a group of ports that can be located anywhere in the network, but communicate as though they
belong to the same physical segment. This section describes commands used to create VLAN groups, add port
members, specify how VLAN tagging is used, and enable automatic VLAN registration for the selected
interface.
Editing VLAN Groups
Editing VLAN Groups
Command
Function
vlan database
Default Setting: None
Command Mode: Global Configuration
This command enters
VLAN database mode.
Command Usage: Use the VLAN database command mode to add, change, and
delete VLANs. After finishing configuration changes, you can display the VLAN set-
tings by entering the show vlan command.
All commands in this
mode will take effect
immediately.
Use the interface vlan command mode to define the port membership mode and add
or remove ports from a VLAN. The results of these commands are written to the run-
ning-configuration file, and you can display this file by entering the show running-con-
fig command.
Example:
Console(config)#vlan database
Console(config-vlan)#
vlan
Syntax:
vlan vlan-id [name vlan-name] media ethernet [state {active | suspend}]
no vlan vlan-id [name | state]
This command
configures a VLAN.
• vlan-id - ID of configured VLAN. (Range: 1-4094, no leading zeroes)
• name - Keyword to be followed by the VLAN name.
• vlan-name - ASCII string from 1 to 32 characters.
• media ethernet - Ethernet media type.
Use the no form to
restore the default set-
tings or delete a VLAN.
• state - Keyword to be followed by the VLAN state.
• active - VLAN is operational.
• suspend - VLAN is suspended. Suspended VLANs do not pass packets.
Default Setting: By default only VLAN 1 exists and is active.
Command Mode: VLAN Database Configuration
Command Usage:
• no vlan vlan-id deletes the VLAN.
• no vlan vlan-id name removes the VLAN name.
• no vlan vlan-id state returns the VLAN to the default state (i.e., active).
• You can configure up to 255 VLANs on the switch.
Example: The following example adds a VLAN, using VLAN ID 105 and name RD5.
The VLAN is activated by default:
Console(config)#vlan database
Console(config-vlan)#vlan 105 name RD5 media ethernet
Console(config-vlan)#
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CLI (Command Line Interface)
Configuring VLAN Interfaces
Configuring VLAN Interfaces
Command
Function
interface vlan
Syntax:
interface vlan vlan-id
This command enters interface
configuration mode for VLANs, which
is used to configure VLAN parameters
for a physical interface.
• vlan-id - ID of the configured VLAN. (Range: 1-4094, no leading
zeroes)
Default Setting: None
Command Mode: Global Configuration
Example: The following example shows how to set the interface con-
figuration mode to VLAN 1, and then assign an IP address to the
VLAN:
Console(config)#interface vlan 1
Console(config-if)#ip address 192.168.1.254 255.255.255.0
Console(config-if)#
switchport mode
Syntax:
switchport mode {trunk | hybrid | private-vlan}
no switchport mode
This command configures the VLAN
membership mode for a port. Use the
no form to restore the default.
• trunk - Specifies a port as an end-point for a VLAN trunk. A trunk is a
direct link between two switches, so the port transmits tagged
frames that identify the source VLAN. Note that frames belonging to
the port’s default VLAN (i.e., associated with the PVID) are also
transmitted as tagged frames.
• hybrid - Specifies a hybrid VLAN interface. The port may transmit
tagged or untagged frames.
• private-vlan - For an explanation of this command see switchport
Default Setting: All ports are in hybrid mode with the PVID set to
VLAN 1.
Command Mode: Interface Configuration (Ethernet, Port Channel)
Example: The following shows how to set the configuration mode to
port 1, and then set the switchport mode to hybrid:
Console(config)#interface ethernet 1/1
Console(config-if)#switchport mode hybrid
Console(config-if)#
switchport acceptable-frame-types Syntax:
switchport acceptable-frame-types {all | tagged}
no switchport acceptable-frame-types
This command configures the accept-
able frame types for a port.
• all - The port accepts all frames, tagged or untagged.
Use the no form to restore the default.
• tagged - The port only receives tagged frames.
Default Setting: All frame types
Command Mode: Interface Configuration (Ethernet, Port Channel)
Command Usage: When set to receive all frame types, any received
frames that are untagged are assigned to the default VLAN.
Example: The following example shows how to restrict the traffic
received on port 1 to tagged frames:
Console(config)#interface ethernet 1/1
Console(config-if)#switchport acceptable-frame-types
tagged
Console(config-if)#
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CLI (Command Line Interface)
Configuring VLAN Interfaces (Cont.)
Command
Function
switchport ingress-filtering
Syntax:
[no] switchport ingress-filtering
Default Setting: Disabled
This command enables ingress filter-
ing for an interface.
Command Mode: Interface Configuration (Ethernet, Port Channel)
Command Usage: Ingress filtering only affects tagged frames.
Use the no form to restore the default.
• If ingress filtering is disabled and a port receives frames tagged for
VLANs for which it is not a member, these frames will be flooded to
all other ports (except for those VLANs explicitly forbidden on this
port).
• If ingress filtering is enabled and a port receives frames tagged for
VLANs for which it is not a member, these frames will be discarded.
Ingress filtering does not affect VLAN independent BPDU frames,
such as GVRP or STA. However, they do affect VLAN dependent
BPDU frames, such as GMRP.
Example: The following example shows how to set the interface to
port 1 and then enable ingress filtering:
Console(config)#interface ethernet 1/1
Console(config-if)#switchport ingress-filtering
Console(config-if)#
switchport native vlan
Syntax:
switchport native vlan vlan-id
no switchport native vlan
This command configures the PVID
(i.e., default VLAN ID) for a port.
• vlan-id - Default VLAN ID for a port. (Range: 1-4094, no leading
zeroes)
Use the no form to restore the default.
Default Setting: VLAN 1
Command Mode: Interface Configuration (Ethernet, Port Channel)
Command Usage: If an interface is not a member of VLAN 1 and you
assign its PVID to this VLAN, the interface will automatically be added
to VLAN 1 as an untagged member. For all other VLANs, an interface
must first be configured as an untagged member before you can
assign its PVID to that group.
If acceptable frame types is set to all or switchport mode is set to
hybrid, the PVID will be inserted into all untagged frames entering the
ingress port.
Example: The following example shows how to set the PVID for port 1
to VLAN 3:
Console(config)#interface ethernet 1/1
Console(config-if)#switchport native vlan 3
Console(config-if)#
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CLI (Command Line Interface)
Configuring VLAN Interfaces (Cont.)
Command
Function
switchport allowed vlan
Syntax:
switchport allowed vlan {add vlan-list [tagged | untagged]
| remove vlan-list}
no switchport allowed vlan
This command configures VLAN
groups on the selected interface.
Use the no form to restore the default.
• add vlan-list - List of VLAN identifiers to add.
• remove vlan-list - List of VLAN identifiers to remove.
• vlan-list - Separate nonconsecutive VLAN identifiers with a comma
and no spaces; use a hyphen to designate a range of IDs. Do not
enter leading zeros. (Range: 1-4094).
Default Setting: All ports are assigned to VLAN 1 by default. The
default frame type is untagged.
Command Mode: Interface Configuration (Ethernet, Port Channel)
Command Usage: A port, or a trunk with switchport mode set to
hybrid, must be assigned to at least one VLAN as untagged.
If a trunk has switchport mode set to trunk (i.e., 1Q Trunk), then you
can only assign an interface to VLAN groups as a tagged member.
Frames are always tagged within the switch. The tagged/untagged
parameter used when adding a VLAN to an interface tells the switch
whether to keep or remove the tag from a frame on egress.
If none of the intermediate network devices nor the host at the other
end of the connection supports VLANs, the interface should be added
to these VLANs as an untagged member. Otherwise, it is only neces-
sary to add at most one VLAN as untagged, and this should corre-
spond to the native VLAN for the interface.
If a VLAN on the forbidden list for an interface is manually added to
that interface, the VLAN is automatically removed from the forbidden
list for that interface.
Example: The following example shows how to add VLANs 1, 2, 5
and 6 to the allowed list as tagged VLANs for port 1:
Console(config)#interface ethernet 1/1
Console(config-if)#switchport allowed vlan add 1,2,5,6
tagged
Console(config-if)#
switchport gvrp
switchport forbidden vlan
Syntax:
switchport forbidden vlan {add vlan-list | remove vlan-
list}
no switchport forbidden vlan
This command configures forbidden
VLANs.
Use the no form to remove the list of
forbidden VLANs.
• add vlan-list - List of VLAN identifiers to add.
• remove vlan-list - List of VLAN identifiers to remove.
• vlan-list - Separate nonconsecutive VLAN identifiers with a comma
and no spaces; use a hyphen to designate a range of IDs. Do not
enter leading zeros. (Range: 1-4094).
Default Setting: No VLANs are included in the forbidden list.
Command Mode: Interface Configuration (Ethernet, Port Channel)
Command Usage: This command prevents a VLAN from being auto-
matically added to the specified interface via GVRP.
If a VLAN has been added to the set of allowed VLANs for an inter-
face, then you cannot add it to the set of forbidden VLANs for that
same interface.
Example: The following example shows how to prevent port 1 from
being added to VLAN 3:
Console(config)#interface ethernet 1/1
Console(config-if)#switchport forbidden vlan add 3
Console(config-if)#
switchport priority default
Sets a port priority for incoming untagged frames
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CLI (Command Line Interface)
Displaying VLAN Information
Displaying VLAN Information
Command
Function
Syntax:
show vlan
show vlan [id vlan-id | name vlan-name | private-vlan private-
vlan-type]
This command shows VLAN
information.
• id - Keyword to be followed by the VLAN ID.
• vlan-id - ID of the configured VLAN. (Range: 1-4094, no leading zeroes)
• name - Keyword to be followed by the VLAN name.
• vlan-name - ASCII string from 1 to 32 characters.
• private-vlan - For an explanation of this command see “show vlan private-
vlan” on page 4-162
Default Setting: Shows all VLANs.
Command Mode: Normal Exec, Privileged Exec
Example: The following example shows how to display information for VLAN 1:
Console#show vlan id 1
Vlan ID:
Type:
Name:
1
Static
DefaultVlan
Active
Status:
Ports/Port channel: Eth1/ 1(S) Eth1/ 2(S) Eth1/ 3(S) Eth1/ 4(S)
Eth1/ 5(S)
Eth1/ 6(S) Eth1/ 7(S) Eth1/ 8(S) Eth1/ 9(S)
Eth1/10(S)
Eth1/11(S) Eth1/12(S) Eth1/13(S) Eth1/14(S)
Eth1/15(S)
Eth1/16(S) Eth1/17(S) Eth1/18(S) Eth1/19(S)
Eth1/20(S)
Eth1/21(S) Eth1/22(S) Eth1/23(S) Eth1/24(S)
Eth1/25(S)
Eth1/26(S)
Console#
Configuring Private VLANs
Private VLANs provide port-based security and isolation between ports within the assigned VLAN. This
switch supports two types of private VLAN ports: promiscuous, and community ports.
ꢀ
ꢀ
A promiscuous port can communicate with all interfaces within a private VLAN.
Community ports can only communicate with other ports in their own community VLAN, and with
their designated promiscuous ports.
This section describes commands used to configure private VLANs.
To configure private VLANs, follow these steps:
1. Use the private-vlan command to designate one or more community VLANs and the primary VLAN that
will channel traffic outside the community groups.
2. Use the private-vlan association command to map the secondary
(i.e., community) VLAN(s) to the primary VLAN.
3. Use the switchport mode private-vlan command to configure ports as promiscuous (i.e., having access
to all ports in the primary VLAN) or host (i.e., having access restricted to community VLAN members,
and channeling all other traffic through a promiscuous port).
4. Use the switchport private-vlan host-association command to assign a port to a secondary VLAN.
5. Use the switchport private-vlan mapping command to assign a port to a primary VLAN.
6. Use the show vlan private-vlan command to verify your configuration settings.
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CLI (Command Line Interface)
Edit Private VLAN Groups
Edit Private VLAN Groups
Command
Function
private-vlan
Syntax:
private-vlan vlan-id {community | primary | isolated}
no private-vlan vlan-id
Use this command to create a primary,
isolated or community private VLAN.
• vlan-id - ID of private VLAN. (Range: 1-4094, no leading zeroes).
Use the no form to remove the specified
private VLAN.
• community - A VLAN in which traffic is restricted to port
members.
• primary - A VLAN which can contain one or more community
VLANs, and serves to channel traffic between community
VLANs and other locations.
• isolated – Specifies an isolated VLAN. Ports assigned to an
isolated VLAN can only communicate with promiscuous ports
within their own VLAN.
Default Setting: None
Command Mode: VLAN Configuration
Command Usage: Private VLANs are used to restrict traffic to
ports within the same VLAN “community,” and channel traffic
passing outside the community through promiscuous ports that
have been mapped to the associated “primary” VLAN.
Port membership for private VLANs is static. Once a port has
been assigned to a private VLAN, it cannot be dynamically moved
to another VLAN via GVRP.
Private VLAN ports cannot be set to trunked mode. (See switch-
Example:
Console(config)#vlan database
Console(config-vlan)#private-vlan 2 primary
Console(config-vlan)#private-vlan 3 community
Console(config)#
private vlan association
Syntax:
private-vlan primary-vlan-id association {secondary-
vlan-id | add secondary-vlan-id | remove secondary-
vlan-id}
Use this command to associate a primary
VLAN with a secondary (i.e., community)
VLAN.
no private-vlan primary-vlan-id association
Use the no form to remove all
associations for the specified primary
VLAN.
• primary-vlan-id - ID of primary VLAN.
(Range: 1-4094, no leading zeroes).
• secondary-vlan-id - ID of secondary (i.e, community) VLAN.
(Range: 1-4094, no leading zeroes).
Default Setting: None
Command Mode: VLAN Configuration
Command Usage: Secondary VLANs provide security for group
members. The associated primary VLAN provides a common
interface for access to other network resources within the primary
VLAN (e.g., servers configured with promiscuous ports) and to
resources outside of the primary VLAN (via promiscuous ports).
Example:
Console(config-vlan)#private-vlan 2 association 3
Console(config)#
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CLI (Command Line Interface)
Configure Private VLAN Interfaces
Configure Private VLAN Interfaces
Command
Function
Syntax:
switchport mode private-vlan
switchport mode private-vlan {host | promiscuous}
no switchport mode private-vlan
Use this command to set the private
VLAN mode for an interface.
• host – This port type can communicate with all other host ports
assigned to the same secondary VLAN. All communications
outside of this VLAN must pass through a promiscuous port in the
associated primary VLAN.
Use the no form to restore the default
setting.
• promiscuous – This port type can communicate with all other
promiscuous ports in the same primary VLAN, as well as with all
the ports in the associated secondary VLANs.
Default Setting: Normal VLAN
Command Mode: Interface Configuration (Ethernet, Port Channel)
Command Usage: Promiscuous ports assigned to a primary VLAN
can communicate with all other promiscuous ports in the same
VLAN, as well as with all the ports in the associated secondary
VLANs.
Example:
Console(config)#interface ethernet 1/2
Console(config-if)#switchport mode private-vlan
promiscuous
Console(config-if)#exit
Console(config)#interface ethernet 1/3
Console(config-if)#switchport mode private-vlan host
Console(config-if)#
switchport private-vlan host-
association
Syntax:
switchport private-vlan host-association secondary-vlan-
id
no switchport private-vlan host-association
Use this command to associate an
interface with a secondary VLAN.
• secondary-vlan-id - ID of secondary (i.e, community) VLAN.
(Range: 2-4094, no leading zeroes).
Use the no form to remove this
association.
Default Setting: None
Command Mode: Interface Configuration (Ethernet, Port Channel)
Command Usage: All ports assigned to a secondary (i.e., commu-
nity) VLAN can pass traffic between group members, but must com-
municate with resources outside of the group via a promiscuous port.
Example"
Console(config)#interface ethernet 1/3
Console(config-if)#switchport private-vlan host-
association 3
Console(config-if)#
switchport private-vlan mapping
Syntax:
switchport private-vlan mapping primary-vlan-id
no switchport private-vlan mapping
Use this command to map an interface
to a primary VLAN.
• primary-vlan-id – ID of primary VLAN.
(Range: 1-4094, no leading zeroes).
Use the no form to remove this
mapping.
Default Setting: None
Command Mode: Interface Configuration (Ethernet, Port Channel)
Command Usage: Promiscuous ports assigned to a primary VLAN
can communicate with any other promiscuous ports in the same
VLAN, and with the group members within any associated secondary
VLANs.
Example:
Console(config)#interface ethernet 1/2
Console(config-if)#switchport private-vlan mapping 2
Console(config-if)#
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CLI (Command Line Interface)
Display Private VLAN Information
Display Private VLAN Information
Command
Function
show vlan private-vlan
Syntax:
show vlan private-vlan [community | isolated |
primary]
Use this command to show the private
VLAN configuration settings on this
switch.
• community – Displays all community VLANs, along with their
associated primary VLAN and assigned host interfaces.
• isolated – Displays all isolated VLANs, along with their associate
primary VLAN and assigned host interfaces.
• primary – Displays all primary VLANs, along with any assigned
promiscuous interfaces.
Default Setting: None
Command Mode: Privileged Executive
Example:
Console#show vlan private-vlan
Primary
Secondary
Type
Interfaces
-------- ----------- ---------- -------------------
-----------
5
primary
Eth1/ 3
5
0
6
8
community
isolated
Eth1/ 4 Eth1/ 5
Console#
GVRP and Bridge Extension Commands
GARP VLAN Registration Protocol defines a way for switches to exchange VLAN information in order to
automatically register VLAN members on interfaces across the network. This section describes how to enable
GVRP for individual interfaces and globally for the switch, as well as how to display default configuration
settings for the Bridge Extension MIB.
GVRP and Bridge Extension Commands
Command
Function
bridge-ext gvrp
Syntax:
[no] bridge-ext gvrp
Default Setting: Disabled
This command enables
GVRP globally for the switch.
Use the no form to disable it.
Command Mode: Global Configuration
Command Usage: GVRP defines a way for switches to exchange VLAN infor-
mation in order to register VLAN members on ports across the network. This
function should be enabled to permit automatic VLAN registration, and to sup-
port VLANs which extend beyond the local switch.
Example:
Console(config)#bridge-ext gvrp
Console(config)#
show bridge-ext
Default Setting: None
Command Mode: Privileged Exec
This command shows the
configuration for bridge
extension commands.
description of the displayed items.
Example:
Console#show bridge-ext
Max support vlan numbers:
Max support vlan ID:
255
4094
Extended multicast filtering services: No
Static entry individual port:
VLAN learning:
Yes
IVL
Configurable PVID tagging:
Local VLAN capable:
Traffic classes:
Global GVRP status:
GMRP:
Yes
No
Enabled
Enabled
Disabled
Console#
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CLI (Command Line Interface)
GVRP and Bridge Extension Commands (Cont.)
Command
Function
switchport gvrp
Syntax:
[no] switchport gvrp
Default Setting: Disabled
This command enables
GVRP for a port.
Command Mode: Interface Configuration (Ethernet, Port Channel)
Example:
Use the no form to disable it.
Console(config)#interface ethernet 1/6
Console(config-if)#switchport gvrp
Console(config-if)#
switchport forbidden vlan
show gvrp configuration
Syntax:
show gvrp configuration [interface]
This command shows if
GVRP is enabled.
• interface
ethernet unit/port
unit - Stack unit. (Range: 1-8)
port - Port number. (Range: 1-26)
port-channel channel-id (Range: 1-4)
Default Setting: Shows both global and interface-specific configuration.
Command Mode: Normal Exec, Privileged Exec
Example:
Console#show gvrp configuration ethernet 1/6
Eth 1/ 6:
GVRP configuration: Enabled
Console#
garp timer
Syntax:
garp timer {join | leave | leaveall} timer_value
no garp timer {join | leave | leaveall}
{join | leave | leaveall} - Which timer to set.
This command sets the
values for the join, leave and
leaveall timers.
• timer_value - Value of timer.
Ranges:
Use the no form to restore the
timers’ default values.
• join: 20-1000 centiseconds
• leave: 60-3000 centiseconds
• leaveall: 500-18000 centiseconds
Default Settings:
• join: 20 centiseconds
• leave: 60 centiseconds
• leaveall: 1000 centiseconds
Command Mode: Interface Configuration (Ethernet, Port Channel)
Command Usage: Group Address Registration Protocol is used by GVRP and
GMRP to register or deregister client attributes for client services within a
bridged LAN. The default values for the GARP timers are independent of the
media access method or data rate. These values should not be changed
unless you are experiencing difficulties with GMRP or GVRP registration/
deregistration.
• Timer values are applied to GVRP for all the ports on all VLANs.
• Timer values must meet the following restrictions:
leave >= (2 x join)
leaveall > leave
Set GVRP timers on all Layer 2 devices connected in the same network to the
same values. Otherwise, GVRP may not operate successfully.
Example:
Console(config)#interface ethernet 1/1
Console(config-if)#garp timer join 100
Console(config-if)#
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CLI (Command Line Interface)
GVRP and Bridge Extension Commands (Cont.)
Command
Function
show garp timer
Syntax:
show garp timer [interface]
• interface
This command shows the
GARP timers for the selected
interface.
ethernet unit/port
unit - Stack unit. (Range: 1-8)
port - Port number. (Range: 1-26)
port-channel channel-id (Range: 1-4)
Default Setting: Shows all GARP timers.
Command Mode: Normal Exec, Privileged Exec
Example:
Console#show garp timer ethernet 1/1
Eth 1/ 1 GARP timer status:
Join timer:
Leave timer:
100 centiseconds
60 centiseconds
Leaveall timer: 1000 centiseconds
Console#
Priority Commands
The commands described in this section allow you to specify which data packets have greater precedence
when traffic is buffered in the switch due to congestion. This switch supports CoS with four priority queues for
each port. Data packets in a port’s high-priority queue will be transmitted before those in the lower-priority
queues. You can set the default priority for each interface, the relative weight of each queue, and the mapping
of frame priority tags to the switch’s priority queues.
Priority Commands (Layer 2)
Configures default priority for untagged frames, sets queue weights, and maps class of service tags to
hardware queues
Priority Commands (Layer 2)
Command
Function
queue mode
Syntax:
queue mode {strict | wrr}
no queue mode
This command sets the
queue mode to strict
priority or Weighted
Round-Robin (WRR) for
the class of service (CoS)
priority queues.
• strict - Services the egress queues in sequential order, transmitting all traffic in
the higher priority queues before servicing lower priority queues.
• wrr - Weighted Round-Robin shares bandwidth at the egress ports by using
scheduling weights 1, 2, 4, 6 for queues 0 - 3 respectively.
Default Setting: Weighted Round Robin
Command Mode: Global Configuration
Use the no form to restore
the default value.
Command Usage: You can set the switch to service the queues based on a strict
rule that requires all traffic in a higher priority queue to be processed before lower
priority queues are serviced, or use Weighted Round-Robin (WRR) queuing that
specifies a relative weight of each queue. WRR uses a predefined relative weight
for each queue that determines the percentage of service time the switch services
each queue before moving on to the next queue. This prevents the head-of-line
blocking that can occur with strict priority queuing.
Example: The following example sets the queue mode to strict priority service
mode:
Console(config)#queue mode strict
Console(config)#
show queue mode
Default Setting: None
Command Mode: Privileged Exec
Example:
This command shows the
current queue mode.
Console#show queue mode
Queue mode: wrr
Console#
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CLI (Command Line Interface)
Priority Commands (Layer 2 - Cont.)
Command
Function
switchport priority
default
Syntax:
switchport priority default default-priority-id
no switchport priority default
This command sets a
priority for incoming
untagged frames.
• default-priority-id - The priority number for untagged ingress traffic.
The priority is a number from 0 to 7. Seven is the highest priority.
Default Setting: The priority is not set, and the default value for untagged frames
received on the interface is zero.
Use the no form to restore
the default value.
Command Mode: Interface Configuration (Ethernet, Port Channel)
Command Usage: The precedence for priority mapping is IP Port, IP Prece-
dence or IP DSCP, and default switchport priority.
The default priority applies for an untagged frame received on a port set to accept
all frame types (i.e, receives both untagged and tagged frames). This priority does
not apply to IEEE 802.1Q VLAN tagged frames. If the incoming frame is an IEEE
802.1Q VLAN tagged frame, the IEEE 802.1p User Priority bits will be used.
This switch provides eight priority queues for each port. It is configured to use
Weighted Round Robin, which can be viewed with the show queue bandwidth
command. Inbound frames that do not have VLAN tags are tagged with the input
port’s default ingress user priority, and then placed in the appropriate priority
queue at the output port. The default priority for all ingress ports is zero. There-
fore, any inbound frames that do not have priority tags will be placed in queue 0 of
the output port. (Note that if the output port is an untagged member of the associ-
ated VLAN, these frames are stripped of all VLAN tags prior to transmission.)
Example: The following example shows how to set a default priority on port 3 to
5:
Console(config)#interface ethernet 1/3
Console(config-if)#switchport priority default 5
queue bandwidth
Syntax:
queue bandwidth weight1...weight4
no queue bandwidth
This command assigns
weighted round-robin
(WRR) weights to the four
class of service (CoS)
priority queues.
• weight1...weight4 - The ratio of weights for queues 0-3 determines the weights
used by the WRR scheduler. However, note that Queue 0 is fixed at a weight of
1, and cannot be configured. (Range: 1-31)
Default Setting: Weights 1, 2, 4, 6 are assigned to queues 0-3 respectively.
Queue 0 is non-configurable.
Use the no form to restore
the default weights.
Command Mode: Global Configuration
Command Usage: WRR controls bandwidth sharing at the egress port by defin-
ing scheduling weights.
Example: This example shows how to assign WRR weights to priority queues
1 - 3:
Console(config)#queue bandwidth 6 9 12
Console(config)#
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CLI (Command Line Interface)
Priority Commands (Layer 2 - Cont.)
Command
Function
queue cos-map
Syntax:
queue cos-map queue_id [cos1 ... cosn]
no queue cos-map
This command assigns
class of service (CoS)
values to the priority
queues (i.e., hardware
output queues 0 - 3).
• queue_id - The ID of the priority queue. Ranges are 0 to 3, where 3 is the
highest priority queue.
• cos1 .. cosn - The CoS values that are mapped to the queue ID. It is a space-
separated list of numbers. The CoS value is a number from 0 to 7, where 7 is
the highest priority.
Use the no form set the
CoS map to the default
values.
Default Setting: This switch supports Class of Service by using four priority
queues, with Weighted Round Robin queuing for each port. Eight separate traffic
classes are defined in IEEE 802.1p. The default priority levels are assigned
according to recommendations in the IEEE 802.1p standard as shown below:
Command Mode: Interface Configuration (Ethernet, Port Channel)
Command Usage: CoS values assigned at the ingress port are also used at the
egress port.
This command sets the CoS priority for all interfaces.
Example: The following example shows how to map CoS values 0, 1 and 2 to
egress queue 0, value 3 to egress queue 1, values 4 and 5 to egress queue 2,
and values 6 and 7 to egress queue 3:
Console(config)#interface ethernet 1/1
Console(config-if)#queue cos-map 0 0 1 2
Console(config-if)#queue cos-map 1 3
Console(config-if)#queue cos-map 2 4 5
Console(config-if)#queue cos-map 3 6 7
Console(config-if)#end
Console#show queue cos-map ethernet 1/1
Information of Eth 1/1
CoS Value
: 0 1 2 3 4 5 6 7
Priority Queue: 0 0 0 1 2 2 3 3
Console#
show queue bandwidth
Default Setting: None
Command Mode: Privileged Exec
Example:
This command displays
the weighted round-robin
(WRR) bandwidth
allocation for the four
priority queues.
Console#show queue bandwidth
Queue ID Weight
-------- ------
0
1
2
3
1
2
4
6
Console#
show queue cos-map
Syntax:
show queue cos-map [interface]
This command shows the
class of service priority
map.
• interface
ethernet unit/port
unit - Stack unit. (Range: 1-8)
port - Port number. (Range: 1-26)
port-channel channel-id (Range: 1-4)
Default Setting: None
Command Mode: Privileged Exec
Example:
Console#show queue cos-map ethernet 1/1
Information of Eth 1/1
CoS Value
: 0 1 2 3 4 5 6 7
Priority Queue: 0 0 0 1 2 2 3 3
Console#
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CLI (Command Line Interface)
Priority Commands (Layer 2 - Cont.)
Command
Function
show interfaces
switchport
Priority Commands (Layer 3 and 4)
Maps TCP ports, IP precedence tags, or IP DSCP tags to class of service values
Priority Commands (Layer 3 and 4)
Command
Function
map ip port
Syntax:
(Global Configuration)
[no] map ip port
Default Setting: Disabled
This command enables IP
port mapping (i.e., class of
service mapping for TCP/
UDP sockets).
Command Mode: Global Configuration
Command Usage: The precedence for priority mapping is IP Port, IP Prece-
dence or IP DSCP, and default switchport priority.
Use the no form to disable
IP port mapping.
Example: The following example shows how to enable TCP/UDP port mapping
globally:
Console(config)#map ip port
Console(config)#
map ip port
Syntax:
(Interface Configuration)
map ip port port number cos cos-value
no map ip port port-number
This command set IP port
priority (i.e., TCP/UDP port
priority).
• port-number - 16-bit TCP/UDP port number.(Range 1-65535)
• cos-value - Class-of-Service value. (Range: 0-7)
Default Setting: None
Use the no form to remove
a specific setting.
Command Mode: Interface Configuration (Ethernet, Port Channel)
Command Usage: The precedence for priority mapping is IP Port, IP Prece-
dence or IP DSCP, and default switchport priority.
This command sets the IP port priority for all interfaces.
Example: The following example shows how to map HTTP traffic to CoS value 0:
Console(config)#interface ethernet 1/5
Console(config-if)#map ip port 80 cos 0
Console(config-if)#
map ip precedence
Syntax:
(Global Configuration)
[no] map ip precedence
Default Setting: Disabled
This command enables IP
precedence mapping (i.e.,
IP Type of Service).
Command Mode: Global Configuration
Command Usage: The precedence for priority mapping is IP Port, IP
Use the no form to disable
IP precedence mapping.
Precedence or IP DSCP, and default switchport priority.
IP Precedence and IP DSCP cannot both be enabled. Enabling one of these
priority types will automatically disable the other type.
Example: The following example shows how to enable IP precedence mapping
globally:
Console(config)#map ip precedence
Console(config)#
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CLI (Command Line Interface)
Priority Commands ((Layer 3 and 4)- Cont.)
Command
Function
map ip precedence
Syntax:
(Interface Configuration)
map ip precedence ip-precedence-value cos cos-value
no map ip precedence
This command sets IP
precedence priority (i.e., IP
Type of Service priority).
• precedence-value - 3-bit precedence value. (Range: 0-7)
• cos-value - Class-of-Service value (Range: 0-7)
Default Setting: The list below shows the default priority mapping
Mapping IP Precedence Values
Use the no form to restore
the default table.
Command Mode: Interface Configuration (Ethernet, Port Channel)
Command Usage: The precedence for priority mapping is IP Port, IP
Precedence or IP DSCP, and default switchport priority.
IP Precedence values are mapped to default Class of Service values on a one-to-
one basis according to recommendations in the IEEE 802.1p standard, and then
subsequently mapped to the eight hardware priority queues.
This command sets the IP Precedence for all interfaces.
Example: The following example shows how to map IP precedence value 1 to
CoS value 0:
Console(config)#interface ethernet 1/5
Console(config-if)#map ip precedence 1 cos 0
Console(config-if)#
map ip dscp
Syntax:
(Global Configuration)
[no] map ip dscp
Default Setting: Disabled
This command enables IP
DSCP mapping (i.e.,
Command Mode: Global Configuration
Differentiated Services
Code Point mapping).
Command Usage: The precedence for priority mapping is IP Port, IP Prece-
dence or IP DSCP, and default switchport priority.
Use the no form to disable
IP DSCP mapping.
IP Precedence and IP DSCP cannot both be enabled. Enabling one of these
priority types will automatically disable the other type.
Example: The following example shows how to enable IP DSCP mapping
globally:
Console(config)#map ip dscp
Console(config)#
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CLI (Command Line Interface)
Priority Commands ((Layer 3 and 4)- Cont.)
Command
Function
map ip dscp
Syntax:
(Interface Configuration)
map ip dscp dscp-value cos cos-value
no map ip dscp
This command sets IP
DSCP priority (i.e.,
Differentiated Services
Code Point priority).
• dscp-value - 8-bit DSCP value. (Range: 0-63)
• cos-value - Class-of-Service value (Range: 0-7)
Default Setting: The DSCP default values are defined in the following table. Note
that all the DSCP values that are not specified are mapped to CoS value 0
Use the no form to restore
the default table.
IP DSCP to CoS Values
Command Mode: Interface Configuration (Ethernet, Port Channel)
Command Usage: The precedence for priority mapping is IP Port, IP Prece-
dence or IP DSCP, and default switchport priority.
DSCP priority values are mapped to default Class of Service values according to
recommendations in the IEEE 802.1p standard, and then subsequently mapped
to the four hardware priority queues.
This command sets the IP DSCP priority for all interfaces.
Example: The following example shows how to map IP DSCP value 1 to CoS
value 0:
Console(config)#interface ethernet 1/5
Console(config-if)#map ip dscp 1 cos 0
Console(config-if)#
show map ip port
Syntax:
show map ip port [interface]
Use this command to show
the IP port priority map.
• interface
ethernet unit/port
unit - Stack unit. (Range: 1-8)
port - Port number. (Range: 1-26)
port-channel channel-id (Range: 1-4)
Default Setting: None
Command Mode: Privileged Exec
Example: The following shows that HTTP traffic has been mapped to CoS value
0:
Console#show map ip port
TCP port mapping status: disabled
Port
Port no. COS
--------- -------- ---
Eth 1/ 5
Console#
80
0
map access-list ip
map access-list mac
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CLI (Command Line Interface)
Priority Commands ((Layer 3 and 4)- Cont.)
Command
Function
show map ip precedence Syntax:
show map ip precedence [interface]
This command shows the
IP precedence priority
map.
• interface
ethernet unit/port
unit - Stack unit. (Range: 1-8)
port - Port number. (Range: 1-26)
port-channel channel-id (Range: 1-4)
Default Setting: None
Command Mode: Privileged Exec
Example:
Console#show map ip precedence ethernet 1/5
Precedence mapping status: disabled
Port
Precedence COS
--------- ---------- ---
Eth 1/ 5
Eth 1/ 5
Eth 1/ 5
Eth 1/ 5
Eth 1/ 5
Eth 1/ 5
Eth 1/ 5
Eth 1/ 5
Console#
0
1
2
3
4
5
6
7
0
1
2
3
4
5
6
7
show map ip dscp
Syntax:
show map ip dscp [interface]
This command shows the
IP DSCP priority map.
• interface
ethernet unit/port
unit - Stack unit. (Range: 1-8)
port - Port number. (Range: 1-26)
port-channel channel-id (Range: 1-4)
Default Setting: None
Command Mode: Privileged Exec
Example:
Console#show map ip dscp ethernet 1/1
DSCP mapping status: disabled
Port
DSCP COS
--------- ---- ---
Eth 1/ 1
Eth 1/ 1
Eth 1/ 1
Eth 1/ 1
0
1
2
3
0
0
0
0
.
.
.
Eth 1/ 1
Eth 1/ 1
Eth 1/ 1
61
62
63
0
0
0
Console#
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CLI (Command Line Interface)
Multicast Filtering Commands
This switch uses IGMP (Internet Group Management Protocol) to query for any attached hosts that want to
receive a specific multicast service. It identifies the ports containing hosts requesting a service and sends data
out to those ports only. It then propagates the service request up to any neighboring multicast switch/router to
ensure that it will continue to receive the multicast service.
IGMP Snooping Commands
IGMP Snooping Commands
Command
Function
ip igmp snooping
Syntax:
[no] ip igmp snooping
Default Setting: Enabled
This command enables IGMP
snooping on this switch.
Command Mode: Global Configuration
Use the no form to disable it.
Example: The following example enables IGMP snooping:
Console(config)#ip igmp snooping
Console(config)#
ip igmp snooping vlan static
Syntax:
[no] ip igmp snooping vlan vlan-id static ip-address
interface
This command adds a port to a
multicast group.
• vlan-id - VLAN ID (Range: 1-4094)
• ip-address - IP address for multicast group
• interface
Use the no form to remove the port.
ethernet unit/port
unit - Stack unit. (Range: 1-8)
port - Port number. (Range: 1-26)
port-channel channel-id (Range: 1-4)
Default Setting: None
Command Mode: Global Configuration
Example: The following shows how to statically configure a multicast
group on a port:
Console(config)#ip igmp snooping vlan 1 static 224.0.0.12
ethernet 1/5
Console(config)#
ip igmp snooping version
Syntax:
ip igmp snooping version {1 | 2}
no ip igmp snooping version
This command configures the IGMP
snooping version.
• 1 - IGMP Version 1
Use the no form to restore the
default.
• 2 - IGMP Version 2
Default Setting: IGMP Version 2
Command Mode: Global Configuration
Command Usage: All systems on the subnet must support the same
version. If there are legacy devices in your network that only support
Version 1, you will also have to configure this switch to use Version 1.
Some commands are only enabled for IGMPv2, including ip igmp query-
max-response-time and ip igmp query-timeout.
Example: The following configures the switch to use IGMP Version 1:
Console(config)#ip igmp snooping version 1
Console(config)#
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CLI (Command Line Interface)
IGMP Snooping Commands (Cont.)
Command
Function
show ip igmp snooping
Default Setting: None
Command Mode: Privileged Exec
This command shows the IGMP
snooping configuration.
Command Usage: See “Configuring IGMP Snooping and Query
Parameters” on page 3-137 for a description of the displayed items.
Example: The following shows the current IGMP snooping configura-
tion:
Console#show ip igmp snooping
Service status:
Querier status:
Query count:
Enabled
Enabled
2
Query interval:
125 sec
Query max response time: 10 sec
Router port expire time: 300 sec
IGMP snooping version:
Console#
Version 2
show mac-address-table multicast Syntax:
show mac-address-table multicast [vlan vlan-id] [user |
igmp-snooping]
This command shows known
multicast addresses.
• vlan-id - VLAN ID (1 to 4094)
• user - Display only the user-configured multicast entries.
• igmp-snooping - Display only entries learned through IGMP snooping.
Default Setting: None
Command Mode: Privileged Exec
Command Usage: Member types displayed include IGMP or USER,
depending on selected options.
Example: The following shows the multicast entries learned through
IGMP snooping for VLAN 1:
Console#show mac-address-table multicast vlan 1 igmp-snooping
VLAN M'cast IP addr. Member ports Type
---- --------------- ------------ -------
1
224.1.2.3
Eth1/11
IGMP
Console#
IGMP Query Commands (Layer 2)
IGMP Query Commands (Layer 2)
Command
Function
Syntax:
ip igmp snooping querier
[no] ip igmp snooping querier
This command enables the switch
as an IGMP querier.
Default Setting: Enabled
Command Mode: Global Configuration
Use the no form to disable it.
Command Usage: If enabled, the switch will serve as querier if elected.
The querier is responsible for asking hosts if they want to receive multi-
cast traffic.
Example:
Console(config)#ip igmp snooping querier
Console(config)#
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CLI (Command Line Interface)
IGMP Query Commands (Layer 2 - Cont.)
Command
Function
ip igmp snooping query-count
Syntax:
ip igmp snooping query-count count
no ip igmp snooping query-count
This command configures the query
count.
• count - The maximum number of queries issued for which there has
been no response before the switch takes action to drop a client from
the multicast group. (Range: 2-10)
Use the no form to restore the
default.
Default Setting: 2 times
Command Mode: Global Configuration
Command Usage: The query count defines how long the querier waits
for a response from a multicast client before taking action. If a querier
has sent a number of queries defined by this command, but a client has
not responded, a countdown timer is started using the time defined by ip
igmp snooping query-max- response-time. If the countdown finishes,
and the client still has not responded, then that client is considered to
have left the multicast group.
Example: The following shows how to configure the query count to 10:
Console(config)#ip igmp snooping query-count 10
Console(config)#
ip igmp snooping query-interval
Syntax:
ip igmp snooping query-interval seconds
no ip igmp snooping query-interval
This command configures the query
interval.
• seconds - The frequency at which the switch sends IGMP host-query
messages. (Range: 60-125)
Use the no form to restore the
default.
Default Setting: 125 seconds
Command Mode: Global Configuration
Example: The following shows how to configure the query interval to
100 seconds:
Console(config)#ip igmp snooping query-interval 100
Console(config)#
ip igmp snooping query-max-
response-time
Syntax:
ip igmp snooping query-max-response-time seconds
no ip igmp snooping query-max-response-time
This command configures the query
report delay.
• seconds - The report delay advertised in IGMP queries. (Range: 5-25)
Default Setting: 10 seconds
Use the no form to restore the
default.
Command Mode: Global Configuration
Command Usage: The switch must be using IGMPv2 for this command
to take effect.
This command defines the time after a query, during which a response
is expected from a multicast client. If a querier has sent a number of
queries defined by the ip igmp snooping query-count, but a client has
not responded, a countdown timer is started using an initial value set by
this command. If the countdown finishes, and the client still has not
responded, then that client is considered to have left the multicast
group.
Example: The following shows how to configure the maximum
response time to 20 seconds:
Console(config)#ip igmp snooping query-max-response-time 20
Console(config)#
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CLI (Command Line Interface)
IGMP Query Commands (Layer 2 - Cont.)
Command
Function
ip igmp snooping router-port-
expire-time
Syntax:
ip igmp snooping router-port-expire-time seconds
no ip igmp snooping router-port-expire-time
This command configures the query
timeout.
• seconds - The time the switch waits after the previous querier stops
before it considers the router port (i.e., the interface which had been
receiving query packets) to have expired. (Range: 300-500)
Use the no form to restore the
default.
Default Setting: 300 seconds
Command Mode: Global Configuration
Command Usage: The switch must use IGMPv2 for this command to
take effect.
Example: The following shows how to configure the default timeout to
300 seconds:
Console(config)#ip igmp snooping router-port-expire-time
300
Console(config)#
Static Multicast Routing Commands
Static Multicast Routing Commands
Command
Function
ip igmp snooping vlan mrouter
Syntax:
[no] ip igmp snooping vlan vlan-id mrouter interface
• vlan-id - VLAN ID (Range: 1-4094)
This command statically configures a
multicast router port.
• interface
Use the no form to remove the con-
figuration.
ethernet unit/port
unit - Stack unit. (Range: 1-8)
port - Port number. (Range: 1-26)
port-channel channel-id (Range: 1-4)
Default Setting: No static multicast router ports are configured.
Command Mode: Global Configuration
Command Usage: Depending on your network connections, IGMP
snooping may not always be able to locate the IGMP querier. There-
fore, if the IGMP querier is a known multicast router/switch connected
over the network to an interface (port or trunk) on your router, you can
manually configure that interface to join all the current multicast groups.
Example: The following shows how to configure port 11 as a multicast
router port within VLAN 1:
Console(config)#ip igmp snooping vlan 1 mrouter ethernet 1/
11
Console(config)#
show ip igmp snooping mrouter
Syntax:
show ip igmp snooping mrouter [vlan vlan-id]
• vlan-id - VLAN ID (Range: 1-4094)
This command displays information
on statically configured and
dynamically learned multicast router
ports.
Default Setting: Displays multicast router ports for all configured
VLANs.
Command Mode: Privileged Exec
Command Usage: Multicast router port types displayed include Static.
Example: The following shows that port 11 in VLAN 1 is attached to a
multicast router:
Console#show ip igmp snooping mrouter vlan 1
VLAN M'cast Router Ports Type
---- ------------------- -------
1
2
Eth 1/11 Static
Eth 1/12 Static
Console#
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CLI (Command Line Interface)
IP Interface Commands
There are no IP addresses assigned to this switch by default. You must manually configure a new address to
manage the switch over your network. You may also need to a establish a default gateway between this device
and the management stations.
IP Interface Commands
Command
Function
ip address
Syntax:
ip address {ip-address netmask | bootp | dhcp} [secondary]
no ip address
This command sets the
IP address for the
currently selected
VLAN interface.
• ip-address - IP address
• netmask - Network mask for the associated IP subnet. This mask identifies the host
address bits used for routing to specific subnets.
Use the no form to
restore the default IP
address.
• bootp - Obtains IP address from BOOTP.
• dhcp - Obtains IP address from DHCP.
• secondary - Specifies a secondary IP address.
Default Setting: DHCP
Command Mode: Interface Configuration (VLAN)
Command Usage: If this router is directly connected to end node devices (or con-
nected to end nodes via shared media) that will be assigned to a specific subnet,
then you must create a router interface for each VLAN that will support routing. The
router interface consists of an IP address and subnet mask. This interface address
defines both the network number to which the router interface is attached and the
router’s host number on that network. In other words, a router interface address
defines the network and subnetwork numbers of the segment that is connected to
that interface, and allows you to send IP packets to or from the router.
Before you configure any network interfaces on this router, you should first create a
VLAN for each unique user group, or for each network application and its associated
users. Then assign the ports associated with each of these VLANs.
You must assign an IP address to this device to gain management access over the
network. You can manually configure a specific IP address, or direct the device to
obtain an address from a BOOTP or DHCP server. Valid IP addresses consist of four
numbers, 0 to 255, separated by periods. Anything outside this format will not be
accepted by the configuration program.
An interface can have only one primary IP address, but can have many secondary IP
addresses. In other words, you will need to specify secondary addresses if more than
one IP subnet can be accessed via this interface.
If you select the bootp or dhcp option, IP is enabled but will not function until a
BOOTP or DHCP reply has been received. Requests will be broadcast periodically by
this device in an effort to learn its IP address. (BOOTP and DHCP values can include
the IP address, default gateway, and subnet mask).
You can start broadcasting BOOTP or DHCP requests by entering an ip dhcp restart
command, or by rebooting the router switch.
Only one VLAN interface can be assigned an IP address (the default is VLAN 1). This
defines the management VLAN, the only VLAN through which you can gain manage-
ment access to the switch. If you assign an IP address to any other VLAN, the new IP
address overrides the original IP address and this becomes the new management
VLAN.
Example: In the following example, the device is assigned an address in VLAN 1:
Console(config)#interface vlan 1
Console(config-if)#ip address 192.168.1.5 255.255.255.0
Console(config-if)#
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CLI (Command Line Interface)
IP Interface Commands (Cont.)
Command
Function
ip default-gateway
Syntax:
ip default-gateway gateway
no ip default-gateway
This command estab-
lishes a static route
between this switch
and devices that exist
on another network
segment.
• gateway - IP address of the default gateway
Default Setting: No static route is established.
Command Mode: Global Configuration
Command Usage: A gateway must be defined if the management station is located
Use the no form to
in a different IP segment.
remove the static route.
Example: The following example defines a default gateway for this device:
Console(config)#ip default-gateway 10.1.1.254
Console(config)#
ip dhcp restart
Default Setting: None
Command Mode: Privileged Exec
This command sub-
mits a BOOTP or
DHCP client request.
Command Usage: This command issues a BOOTP or DHCP client request for any
IP interface that has been set to BOOTP or DHCP mode via the ip address com-
mand.
DHCP requires the server to reassign the client’s last address if available.
If the BOOTP or DHCP server has been moved to a different domain, the network
portion of the address provided to the client will be based on this new domain.
Example: In the following example, the device is reassigned the same address:
Console(config)#interface vlan 1
Console(config-if)#ip address dhcp
Console(config-if)#end
Console#ip dhcp restart
Console#show ip interface
IP address and netmask: 192.168.1.54 255.255.255.0 on VLAN 1,
and address mode: DHCP.
Console#
show ip interface
Default Setting: All interfaces
Command Mode: Privileged Exec
Example:
This command
displays the settings of
an IP interface.
Console#show ip interface
IP address and netmask: 192.168.1.54 255.255.255.0 on VLAN 1,
and address mode:
Console#
User specified.
show ip redirects
Default Setting: None
Command Mode: Privileged Exec
Example:
This command shows
the default gateway
configured for this
device.
Console#show ip redirects
IP default gateway 10.1.0.254
Console#
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CLI (Command Line Interface)
IP Interface Commands (Cont.)
Command
Function
ping
Syntax:
ping host [size size] [count count]
• host - IP address or IP alias of the host.
This command sends
ICMP echo request
packets to another
node on the network.
• size - Number of bytes in a packet.
(Range: 32-512, default: 32)
The actual packet size will be eight bytes larger than the size specified because the
switch adds header information.
• count - Number of packets to send. (Range: 1-16, default: 5)
Default Setting: This command has no default for the host.
Command Mode: Normal Exec, Privileged Exec
Command Usage: Use the ping command to see if another site on the network can
be reached.
Following are some results of the ping command:
• Normal response - The normal response occurs in one to ten seconds, depending
on network traffic.
• Destination does not respond - If the host does not respond, a “timeout” appears in
ten seconds.
• Destination unreachable - The gateway for this destination indicates that the
destination is unreachable.
• Network or host unreachable - The gateway found no corresponding entry in the
route table.
Press <Esc> to stop pinging.
Example:
Console#ping 10.1.0.9
Type ESC to abort.
PING to 10.1.0.9, by 5 32-byte payload ICMP packets, timeout is 5
seconds
response time: 10 ms
response time: 10 ms
response time: 10 ms
response time: 10 ms
response time: 10 ms
Ping statistics for 10.1.0.9:
5 packets transmitted, 5 packets received (100%), 0 packets lost (0%)
Approximate round trip times:
Minimum = 10 ms, Maximum = 20 ms, Average = 10 ms
Console#
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CLI (Command Line Interface)
DNS Commands
These commands are used to configure Domain Naming System (DNS) services. You can manually configure
entries in the DNS domain name to IP address mapping table, configure default domain names, or specify one
or more name servers to use for domain name to address translation.
Note that domain name services will not be enabled until at least one name server is specified with the ip
DNS Commands
Command
Function
ip host
Syntax:
[no] ip host name address1 [address2 … address8]
• name - Name of the host. (Range: 1-64 characters)
This command creates a
static entry in the DNS
table that maps a host
name to an IP address.
• address1 - Corresponding IP address.
• address2 … address8 - Additional corresponding IP addresses.
Default Setting: No static entries
Use the no form to
remove an entry.
Command Mode: Global Configuration
Command Usage: Servers or other network devices may support one or more
connections via multiple IP addresses. If more than one IP address is associated
with a host name using this command, a DNS client can try each address in suc-
cession, until it establishes a connection with the target device.
Example: This example maps two address to a host name:
Console(config)#ip host rd5 192.168.1.55 10.1.0.55
Console(config)#end
Console#show hosts
Hostname
rd5
Inet address
10.1.0.55 192.168.1.55
Alias
Console#
clear host
Syntax:
clear host {name | *}
This command deletes
entries from the DNS
table.
• name - Name of the host. (Range: 1-64 characters)
• * - Removes all entries.
Default Setting: None
Command Mode: Privileged Exec
Example: This example clears all static entries from the DNS table:
Console(config)#clear host *
Console(config)#
ip domain-name
Syntax:
ip domain-name name
no ip domain-name
This command defines
the default domain name
appended to incomplete
host names (i.e., host
names passed from a
client that are not format-
ted with dotted notation).
• name - Name of the host. Do not include the initial dot that separates the host
name from the domain name. (Range: 1-64 characters)
Default Setting: None
Command Mode: Global Configuration
Example:
Use the no form to
remove the current
domain name.
Console(config)#ip domain-name sample.com
Console(config)#end
Console#show dns
Domain Lookup Status:
DNS disabled
Default Domain Name:
.sample.com
Domain Name List:
Name Server List:
Console#
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CLI (Command Line Interface)
DNS Commands (Cont.)
Command
Function
ip domain-list
Syntax:
[no] ip domain-list name
This command defines a
list of domain names that
can be appended to
incomplete host names
(i.e., host names passed
from a client that are not
formatted with dotted
notation).
• name - Name of the host. Do not include the initial dot that separates the host
name from the domain name. (Range: 1-64 characters)
Default Setting: None
Command Mode: Global Configuration
Command Usage: Domain names are added to the end of the list one at a time.
When an incomplete host name is received by the DNS server on this switch, it will
work through the domain list, appending each domain name in the list to the host
name, and checking with the specified name servers for a match.
Use the no form to
remove a name from this
list.
If there is no domain list, the domain name specified with the ip domain-name com-
mand is used. If there is a domain list, the default domain name is not used.
Example: This example adds two domain names to the current list and then dis-
plays the list:
Console(config)#ip domain-list sample.com.jp
Console(config)#ip domain-list sample.com.uk
Console(config)#end
Console#show dns
Domain Lookup Status:
DNS disabled
Default Domain Name:
.sample.com
Domain Name List:
.sample.com.jp
.sample.com.uk
Name Server List:
Console#
ip name-server
Syntax:
[no] ip name-server server-address1 [server-address2 … server-
address6]
This command specifies
the address of one or
more domain name
• server-address1 - IP address of domain-name server.
• server-address2 … server-address6 - IP address of additional domain-name
servers.
servers to use for name-
to-address resolution.
Default Setting: None
Use the no form to
remove a name server
from this list.
Command Mode: Global Configuration
Command Usage: The listed name servers are queried in the specified sequence
until a response is received, or the end of the list is reached with no response.
Example: This example adds two domain-name servers to the list and then dis-
plays the list:
Console(config)#ip domain-server 192.168.1.55 10.1.0.55
Console(config)#end
Console#show dns
Domain Lookup Status:
DNS disabled
Default Domain Name:
.sample.com
Domain Name List:
.sample.com.jp
.sample.com.uk
Name Server List:
192.168.1.55
10.1.0.55
Console#
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CLI (Command Line Interface)
DNS Commands (Cont.)
Command
Function
ip domain-lookup
Syntax:
[no] ip domain-lookup
Default Setting: Disabled
This command enables
DNS host name-to-
address translation.
Command Mode: Global Configuration
Use the no form to
disable DNS.
Command Usage: At least one name server must be specified before you can
enable DNS. If all name servers are deleted, DNS will automatically be disabled.
Example: This example enables DNS and then displays the configuration:
Console(config)#ip domain-lookup
Console(config)#end
Console#show dns
Domain Lookup Status:
DNS enabled
Default Domain Name:
.sample.com
Domain Name List:
.sample.com.jp
.sample.com.uk
Name Server List:
192.168.1.55
10.1.0.55
Console#
show hosts
Command Mode: Privileged Exec
Example: Note that a host name will be displayed as an alias if it is mapped to the
same address(es) as a previously configured entry:
This command displays
the static host name-to-
address mapping table.
Console#show hosts
Hostname
rd5
Inet address
10.1.0.55 192.168.1.55
Alias
1.rd6
Console#
show dns
Command Mode: Privileged Exec
Example:
This command displays
the configuration of the
DNS server.
Console#show dns
Domain Lookup Status:
DNS enabled
Default Domain Name:
sample.com
Domain Name List:
sample.com.jp
sample.com.uk
Name Server List:
192.168.1.55
10.1.0.55
Console#
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CLI (Command Line Interface)
DNS Commands (Cont.)
Command
Function
show dns cache
Command Mode: Privileged Exec
Example:
This command displays
entries in the DNS cache.
Console#show dns cache
NO
0
1
2
3
4
5
6
FLAG
TYPE
CNAME
CNAME
CNAME
CNAME
CNAME
CNAME
CNAME
CNAME
ALIAS
IP
TTL
893
DOMAIN
4
4
4
4
4
4
4
4
4
10.2.44.96
10.2.44.3
pttch_pc.accton.com.tw
ahten.accton.com.tw
www.yahoo.akadns.net
www.yahoo.akadns.net
www.yahoo.akadns.net
www.yahoo.akadns.net
www.yahoo.akadns.net
www.yahoo.akadns.net
www.yahoo.com
898
298
298
298
298
298
298
298
66.218.71.84
66.218.71.83
66.218.71.81
66.218.71.80
66.218.71.89
66.218.71.86
POINTER TO:7
7
8
Console#
• NO: The entry number for each resource record.
• FLAG: The flag is always “4” indicating a cache entry and therefore unreliable.
TYPE: This field includes CNAME which specifies the canonical or primary name
for the owner, and ALIAS which specifies multiple domain names which are
mapped to the same IP address as an existing entry.
• IP: The IP address associated with this record.
• TTL: The time to live reported by the name server.
• DOMAIN: The domain name associated with this record.
clear dns cache
Command Mode: Privileged Exec
Example:
This command clears all
entries in the DNS cache.
Console#clear dns cache
Console#show dns cache
NO
FLAG
TYPE
IP
TTL
DOMAIN
Console#
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Troubleshooting
Troubleshooting
Troubleshooting Chart
Symptom
Action
Cannot connect using Telnet, • Be sure you have configured the agent with a valid IP address, subnet mask and default gateway.
Web browser, or SNMP soft-
ware
• If you are trying to connect to the agent via the IP address for a tagged VLAN group, your
management station must include the appropriate tag in its transmitted frames.
• Check that you have a valid network connection to the switch and that the port you are using has
not been disabled.
• Check network cabling between the management station and the switch.
• If you cannot connect using Telnet or SSH, you may have exceeded the maximum number of
concurrent Telnet/SSH sessions permitted. Try connecting again at a later time.
Cannot access the on-board • Be sure you have set the terminal emulator program to VT100 compatible, 8 data bits, 1 stop bit,
configuration program via a
serial port connection
no parity and 9600 bps.
• Check that the null-modem serial cable conforms to the pin-out connections provided in the
Installation Guide.
Forgot or lost the password
• Contact your local distributor.
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