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This chapter describes how to configure Fiber Distributed Data Interface/Copper Distributed Data Interface (FDDI/CDDI) switching.
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Note For complete information on installing Catalyst 5000 family FDDI/CDDI modules, refer to the Catalyst 5000 Family Module Installation Guide. |
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Note For information on configuring FDDI IEEE 802.10 VLAN trunks, see "Configuring FDDI 802.10 Trunks." |
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Note For complete syntax and usage information for the commands used in this chapter, refer to the Command Reference publication for your switch. |
This chapter consists of these sections:
The Catalyst 5000 family FDDI module functions as an FDDI-Ethernet translation bridge. It translates packets on the external FDDI ring into Ethernet packets within the Catalyst 5000 family switch. Inside a Catalyst 5000 family switch, Ethernet virtual LAN (VLAN) packets are translated into FDDI VLAN packets and encoded in 802.10 format with a Security Association Identifier (SAID) value before they are transmitted across an external FDDI trunk to another switch.
The switch that receives the packets from the trunk decodes the 802.10 format using the SAID value and internally translates the FDDI VLAN packets into Ethernet VLAN packets. Each Ethernet VLAN requires a corresponding, unique FDDI VLAN for translation.
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Note When you insert or replace FDDI modules in the switch, clear the module configuration information using the command clear config mod_num (where mod_num is the FDDI slot number) to obtain the correct spanning-tree parameters for the modules. |
Table 38-1 shows the FDDI/CDDI default configuration.
| Feature | Default Value |
|---|---|
Port enable state | All ports are enabled |
User-data string | Catalyst 5000 |
IP fragmentation | Enabled |
ICMP unreachable message | Enabled |
Native VLAN | VLAN 1 |
Ethernet-FDDI mapping | None |
TL_MIN | 40 microseconds |
TNotify | 30 seconds |
TRequest | 165,000 microseconds |
LER-Alarm | 8 (10¯8) |
LER-Cutoff | 7 (10¯7) |
Novell IPX1 protocol translations |
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| 1IPX=Internetwork Packet Exchange 2SNAP=Subnetwork Access Protocol |
These sections describe how to configure FDDI/CDDI switching:
The user-data string identifies the user-data string in the Station Management (SMT) Management Information Base (MIB) of an FDDI module. The default value is Catalyst 5000. You should modify this value to a more meaningful description.
To modify the user-data string, perform this task in privileged mode:
| Task | Command | |
|---|---|---|
Step 1 | Enter a module number and a unique description or name to identify the FDDI module. | set fddi userdata mod_num userdata_string |
Step 2 | Verify the user-data string setting. | show fddi |
This example shows how to set the user-data string and verify the setting:
Console> (enable) set fddi userdata 4 Engineering Module 4 userdata set to Engineering. Console> (enable) show fddi Mod SMT User-Data T-Notify TReq --- -------------------------- -------- ------- 4 Engineering 15 3500 5 abc 20 150000 Port Tlmin Ler-CutOff Ler-Alarm ----- -------- ---------- --------- 4/1 40 10 11 4/2 40 10 11 5/1 40 10 11 5/2 40 9 12 Console> (enable)
To set an FDDI/CDDI port name, perform this task in privileged mode:
| Task | Command | |
|---|---|---|
Step 1 | Configure a name for a port. | set port name mod_num/port_num [name_string] |
Step 2 | Verify the port name assignment. | show port [mod_num[/port_num]] |
This example shows how to set the name of a port and verify the configuration:
Console> (enable) set port name 4/1 FDDI Backbone
Port 4/1 name set.
Console> (enable) show port 4
Port Name Status Vlan Level Duplex Speed Type
---- -------------------- -------- ---------- ------ ------ ----- ------------
4/1 FDDI Backbone connect 1 half 100 FDDI
4/2 standby 1 half 100 FDDI
Ler
Port CE-State Conn-State Type Neig Con Est Alm Cut Lem-Ct Lem-Rej-Ct Tl-Min
---- -------- ---------- ---- ---- --------------- ---------- ---------- ------
4/1 isolated active B U yes 9 11 10 0 0 1340000
4/2 isolated standby A U yes 9 11 10 0 0 40
Last-Time-Cleared
----------------------------
Fri May 1 1998, 18:28:51
Console> (enable)
When ports request simultaneous access to the switching bus, the switch uses the port priority level to determine the order in which ports have access to the switching bus.
To set the priority level, enter this command in privileged mode:
| Task | Command | |
|---|---|---|
Step 1 | Configure the priority level for each CDDI or FDDI port. | set port level mod_num/port_num normal | high |
Step 2 | Verify the port priority configuration. | show port [mod_num[/port_num]] |
This example shows how to set the port priority of an FDDI/CDDI port to high and verify the configuration:
Console> (enable) set port level 4/1 high
Port 4/1 level set to high.
Console> (enable) show port 4
Port Name Status Vlan Level Duplex Speed Type
---- -------------------- -------- ---------- ------ ------ ----- ------------
4/1 FDDI Backbone connect 1 high half 100 FDDI
4/2 standby 1 half 100 FDDI
Ler
Port CE-State Conn-State Type Neig Con Est Alm Cut Lem-Ct Lem-Rej-Ct Tl-Min
---- -------- ---------- ---- ---- --------------- ---------- ---------- ------
4/1 isolated active B U yes 9 11 10 0 0 1340000
4/2 isolated standby A U yes 9 11 10 0 0 40
Last-Time-Cleared
----------------------------
Fri May 1 1998, 18:28:51
Console> (enable)
To assign an Ethernet VLAN to map to the native VLAN on an FDDI port, perform the following task. The native VLAN must be an Ethernet type. The FDDI module translates all native (non-802.10) FDDI traffic to the assigned Ethernet VLAN.
To set up a native VLAN on FDDI, perform this task in privileged mode:
| Task | Command | |
|---|---|---|
Step 1 | Assign a VLAN to map to native traffic on an FDDI port. The VLAN specified must be an Ethernet type VLAN. | set vlan vlan_num mod_num/port_num |
Step 2 | Verify the VLAN configuration. | show vlan |
This example shows how to set VLAN 50 as the native VLAN for FDDI port 4/1 and how to verify the configuration:
Console> (enable) set vlan 50 4/1
VLAN 50 modified.
VLAN 1 modified.
VLAN Mod/Ports
---- -----------------------
50 4/1
Console> (enable) show vlan 50
VLAN Name Type Status Mod/Ports
---- -------------------------- ----- --------- ----------------
50 VLAN0050 enet active 4/1-2
VLAN SAID MTU RingNo BridgeNo StpNo Parent Trans1 Trans2
---- ---------- ----- ------ -------- ----- ------ ------ ------
50 100050 1500 0 0 0 0 0 0
Console> (enable)
IP fragmentation allows the switch to fragment large FDDI IP frames (frames greater than 1514 bytes) into multiple smaller packets so that they can be transmitted on an Ethernet segment. IP fragmentation is enabled by default.
If you disable IP fragmentation, large IP packets are dropped instead of fragmented and forwarded.
To disable IP fragmentation, perform this task in privileged mode:
| Task | Command | |
|---|---|---|
Step 1 | Disable IP fragmentation. | |
Step 2 | Verify that IP fragmentation is disabled. | show ip route |
After entering the set ip fragmentation disable command, you see this display:
Console> (enable) set ip fragmentation disable IP fragmentation disabled for module 4 Console> (enable) show ip route Fragmentation Redirect Unreachable ------------- -------- ----------- disabled enabled disabled The primary gateway: 172.16.52.65 Destination Gateway Flags Use Interface ----------------------- ----------------------- ------ ---------- --------- default 172.16.52.65 UG 8761 sc0 172.16.52.64 172.16.52.70 U 9734 sc0 default default UH 0 sl0 Console> (enable)
To enable IP fragmentation, perform this task in privileged mode:
| Task | Command | |
|---|---|---|
Step 1 | Enable IP fragmentation. | set ip fragmentation enable |
Step 2 | Verify that IP fragmentation is enabled. | show ip route |
When you enable Internet Control Message Protocol (ICMP) unreachable messages, the switch returns an ICMP unreachable message to the Internet source host whenever it receives an IP datagram that it cannot deliver. When you disable ICMP unreachable messages, the switch does not notify the Internet source host when it receives an IP datagram that it cannot deliver. ICMP unreachable messages are enabled by default.
To disable ICMP unreachable messages, perform this task in privileged mode:
| Task | Command | |
|---|---|---|
Step 1 | Disable ICMP unreachable messages. | |
Step 2 | Verify that ICMP unreachable messages are disabled. | show ip route |
This example shows how to disable ICMP unreachable messages and verify the configuration:
Console> (enable) set ip unreachable disable ICMP Unreachable message disabled. Console> (enable) show ip route Fragmentation Redirect Unreachable ------------- -------- ----------- enabled enabled disabled The primary gateway: 172.16.52.65 Destination Gateway Flags Use Interface ----------------------- ----------------------- ------ ---------- --------- default 172.16.52.65 UG 8761 sc0 172.16.52.64 172.16.52.70 U 9734 sc0 default default UH 0 sl0 Console> (enable)
To enable ICMP unreachable messages, perform this task in privileged mode:
| Task | Command | |
|---|---|---|
Step 1 | Enable ICMP unreachable messages. | set ip unreachable enable |
Step 2 | Verify that ICMP unreachable messages are enabled. | show ip route |
The link error rate (LER)-alarm value defines the LER at which a link connection exceeds a preset alarm threshold. This value is used in the LER threshold test. The default setting of 8 (10¯8) link errors per second is sufficient for most networks.
To modify the setting for the LER-alarm, perform this task in privileged mode:
| Task | Command | |
|---|---|---|
Step 1 | Change the LER-alarm setting. | set fddi alarm mod_num/port_num value |
Step 2 | Verify the LER-alarm setting. | show fddi |
This example shows how to change the LER-alarm setting to 11 (10-11) and verify the configuration:
Console> (enable) set fddi alarm 4/1 11 Port 4/1 alarm value set to 11. Console> (enable) show fddi Mod SMT User-Data T-Notify TReq --- -------------------------- -------- ------- 4 Engineering 15 3500 5 abc 20 150000 Port Tlmin Ler-CutOff Ler-Alarm ----- -------- ---------- --------- 4/1 40 10 11 4/2 40 10 8 5/1 40 10 8 5/2 40 9 8 Console> (enable)
The LER-cutoff value determines the LER at which a connection is considered faulty. This value is used in the LER threshold test. The default setting of 7 (10¯7) is sufficient for most networks.
To modify the LER-cutoff setting, perform this task in privileged mode:
| Task | Command | |
|---|---|---|
Step 1 | Change the LER-cutoff setting. | set fddi cutoff mod_num/port_num value |
Step 2 | Verify the LER-cutoff setting. | show fddi |
This example shows how to change the LER-cutoff value to 10 (10-10) and verify the configuration:
Console> (enable) set fddi cutoff 4/1 10 Port 4/1 cutoff value set to 10. Console> (enable) show fddi Mod SMT User-Data T-Notify TReq --- -------------------------- -------- ------- 4 Engineering 15 3500 5 abc 20 150000 Port Tlmin Ler-CutOff Ler-Alarm ----- -------- ---------- --------- 4/1 40 10 11 4/2 40 7 8 5/1 40 7 8 5/2 40 7 8 Console> (enable)
The TNotify parameter sets the interval (in seconds) between neighbor notification frames. These frames are sent out to notify neighboring devices of FDDI module Media Access Control (MAC) addresses. Usually, the default of 30 seconds is sufficient. By shortening the interval, you cause more notification frames to be sent.
To adjust the interval between neighbor notification frames, perform this task in privileged mode:
| Task | Command | |
|---|---|---|
Step 1 | Set TNotify to a value between 2 and 30 seconds. | set fddi tnotify mod_num time |
Step 2 | Verify the TNotify setting. | show fddi |
This example shows how to change the TNotify setting to 15 and verify the configuration:
Console> (enable) set fddi tnotify 4 15 Module 4 tnotify set to 15. Console> (enable) show fddi Mod SMT User-Data T-Notify TReq --- -------------------------- -------- ------- 4 Engineering 15 3500 5 abc 30 150000 Port Tlmin Ler-CutOff Ler-Alarm ----- -------- ---------- --------- 4/1 40 10 11 4/2 40 7 8 5/1 40 7 8 5/2 40 7 8 Console> (enable)
The TL_MIN parameter sets the minimum time to transmit an FDDI physical sublayer (PHY) line state before advancing to the next physical connection management (PCM) state. This setting affects the station and switch interoperability and might hinder the implementation of FDDI repeaters. By default, the TL_MIN parameter is set to 40 microseconds. Normally, you do not need to adjust this parameter.
To set the minimum time to transmit a FDDI PHY line state, perform this task in privileged mode:
| Task | Command | |
|---|---|---|
Step 1 | Set TL_MIN to a value between 40 and 1,340,006 microseconds. | set fddi tlmin mod_num/port_num microseconds |
Step 2 | Verify the TL_MIN setting. | show fddi |
This example shows how to change the TL_MIN setting to 30 and verify the configuration:
Console> (enable) set fddi tlmin 4/1 30 Port 4/1 tlmin set to 30. Console> (enable) show fddi Mod SMT User-Data T-Notify TReq --- -------------------------- -------- ------- 4 Engineering 15 3500 5 abc 30 150000 Port Tlmin Ler-CutOff Ler-Alarm ----- -------- ---------- --------- 4/1 30 10 11 4/2 40 7 8 5/1 40 7 8 5/2 40 7 8 Console> (enable)
The TRequest parameter specifies the required value for the Token Ring Timer (TRT) on the FDDI switch. The switch uses this value to negotiate the TRT with other stations. The TRT controls ring scheduling during normal operation and can help detect and recover from serious ring errors. Whenever the TRT value expires, the station uses the TRequest value to negotiate with other stations for the lowest value. The default setting of 165,000 microseconds is sufficient for most networks.
To modify the setting for the TRequest parameter, perform this task in privileged mode:
| Task | Command | |
|---|---|---|
Step 1 | Set TRequest to a value between 2502 and 165,000 microseconds. | set fddi trequest mod_num time |
Step 2 | Verify the TRequest setting. | show fddi |
After entering the set fddi trequest command, you see this display:
Console> (enable) set fddi trequest 4 3500 Mac 4/1 treq set to 3500. Console> (enable) show fddi Mod SMT User-Data T-Notify TReq --- -------------------------- -------- ------- 4 Engineering 15 3500 5 abc 30 165000 Port Tlmin Ler-CutOff Ler-Alarm ----- -------- ---------- --------- 4/1 30 10 11 4/2 40 7 8 5/1 40 7 8 5/2 40 7 8 Console> (enable)
The Catalyst 5000 family switch can forward IPX packets received on FDDI ports to Ethernet ports, or it can forward IPX packets received on Ethernet ports to FDDI ports. To do this, you must configure the switch for specific IPX protocol translations. By default, these IPX protocol translations are configured as follows:
If necessary, you can customize these settings to fit your environment.
FDDI SNAP frames can be translated into these Ethernet frames:
To specify the Ethernet frame type to which FDDI SNAP frames are translated, perform this task in privileged mode:
| Task | Command | |
|---|---|---|
Step 1 | Configure the desired IPX translation for FDDI SNAP frames. | |
Step 2 | Verify the IPX translation. |
This example shows how to specify FDDI SNAP-to-Ethernet 802.3 translation and verify the configuration:
Console> (enable) set bridge ipx snaptoether 8023
Bridge snaptoether default IPX translation set.
Console> (enable) show bridge
APaRT Enabled
FDDICHECK Disabled
IP fragmentation Enabled
Default IPX translations:
FDDI SNAP to Ethernet 8023
FDDI 802.2 to Ethernet 8023
Ethernet 802.3 Raw to FDDI snap
Console> (enable)
FDDI 802.2 frames can be translated into these Ethernet frames:
To specify the Ethernet frame type to which FDDI 802.2 packets are translated, perform this task in privileged mode:
| Task | Command | |
|---|---|---|
Step 1 | 1. Configure the desired IPX translation for FDDI 802.2 frames. | set bridge ipx 8022toether {8023 | snap | eii | 8023raw} |
Step 2 | 2. Verify the IPX translation. |
This example shows how to specify FDDI 802.2-to-Ethernet SNAP translation and verify the configuration:
Console> (enable) set bridge ipx 8022toether snap
8022 to ETHER translation set.
Console> (enable) show bridge
APaRT Enabled
FDDICHECK Disabled
IP fragmentation Enabled
Default IPX translations:
FDDI SNAP to Ethernet 8023
FDDI 802.2 to Ethernet snap
Ethernet 802.3 Raw to FDDI snap
Console> (enable)
Ethernet 802.3 RAW frames can be translated into these FDDI frames:
To specify the FDDI frame type to which Ethernet 802.3 RAW frames are translated, perform this task in privileged mode:
| Task | Command | |
|---|---|---|
Step 1 | Configure the desired IPX translation for Ethernet 802.3 RAW frames. | set bridge ipx 8023rawtofddi {8022 | snap | fddiraw} |
Step 2 | Verify the IPX translation. | show bridge |
This example shows how to specify Ethernet 802.3 RAW-to-FDDI 802.2 translation and verify the configuration:
Console> (enable) set bridge ipx 8023rawtofddi 8022
8023RAW to FDDI translation set.
Console> (enable) show bridge
APaRT Enabled
FDDICHECK Disabled
IP fragmentation Enabled
Default IPX translations:
FDDI SNAP to Ethernet 8023
FDDI 802.2 to Ethernet snap
Ethernet 802.3 Raw to FDDI 8022
Console> (enable)
To increase throughput performance, you can disable the software content-addressable memory (CAM) of the FDDI module. The CAM stores IPX translation information to support Automatic Packet Recognition/Translation (APaRT). Disabling the CAM disables APaRT, which automatically disables fddicheck. When APaRT is disabled, you can configure FDDI-to-Ethernet translation values using the set bridge ipx command. However, the Enhanced Address Recognition Logic (EARL) CAM continues to provide packet forwarding functionality. To enable fddicheck, first enable APaRT.
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Note There are serious drawbacks to disabling the CAM in the FDDI software that could impact system performance. When you disable APaRT, only default IPX translations are used. Also, FDDI module hardware filtering is disabled, and all traffic from the FDDI ring is translated and forwarded to the Catalyst 5000 family switch backplane before the EARL CAM can filter it. |
To disable APaRT, perform this task in privileged mode:
| Task | Command | |
|---|---|---|
Step 1 | Disable APaRT on the FDDI module. | set bridge apart disable |
Step 2 | Verify that APaRT is disabled. | show bridge |
This example shows how to disable APaRT and verify the configuration:
Console> (enable) set bridge apart disable
APaRT disabled
Console> (enable) show bridge
APaRT Disabled
FDDICHECK Disabled
IP fragmentation Enabled
Default IPX translations:
FDDI SNAP to Ethernet 8023
FDDI 802.2 to Ethernet snap
Ethernet 802.3 Raw to FDDI 8022
Console> (enable)
To enable APaRT, perform this task in privileged mode:
| Task | Command | |
|---|---|---|
Step 1 | Enable APaRT on the FDDI module. | set bridge apart enable |
Step 2 | Verify that APaRT is enabled. | show bridge |
This example shows how to enable APaRT and verify the configuration:
Console> (enable) set bridge apart enable
APaRT enabled
Console> (enable) show bridge
APaRT Enabled
FDDICHECK Disabled
IP fragmentation Enabled
Default IPX translations:
FDDI SNAP to Ethernet 8023
FDDI 802.2 to Ethernet snap
Ethernet 802.3 Raw to FDDI 8022
Console> (enable)
You can specify whether an FDDI interface learns MAC addresses that it previously learned from an Ethernet interface. Disabling MAC address learning resolves the problem that occurs when void frames on the FDDI ring and translated Ethernet frames sent by the FDDI interface are received and learned on the same FDDI interface instead of being stripped by the MAC hardware.
To reject MAC address learning, perform this task in privileged mode:
| Task | Command | |
|---|---|---|
Step 1 | Ensure that APaRT is enabled. You must enable APaRT before you enable fddicheck. | set bridge apart enable |
Step 2 | Set the switch to reject MAC address learning. | set bridge fddicheck enable |
Step 3 | Verify the MAC address learning configuration. | show bridge |
This example shows how to reject MAC address learning on the switch and verify the configuration:
Console> (enable) set bridge apart enable
APaRT enabled
Console> (enable) set bridge fddicheck enable
FDDICHECK enabled
Console> (enable) show bridge
APaRT Enabled
FDDICHECK Enabled
IP fragmentation Enabled
Default IPX translations:
FDDI SNAP to Ethernet 8023
FDDI 802.2 to Ethernet snap
Ethernet 802.3 Raw to FDDI 8022
Console> (enable)
To allow MAC address learning, perform this task in privileged mode:
| Task | Command | |
|---|---|---|
Step 1 | Set the switch to reject MAC address learning. | set bridge fddicheck disable |
Step 2 | Verify the MAC address learning configuration. | show bridge |
This example shows how to enable MAC address learning on the switch and verify the configuration:
Console> (enable) set bridge fddicheck disable
FDDICHECK disabled
Console> (enable) show bridge
APaRT Enabled
FDDICHECK Disabled
IP fragmentation Enabled
Default IPX translations:
FDDI SNAP to Ethernet 8023
FDDI 802.2 to Ethernet snap
Ethernet 802.3 Raw to FDDI 8022
Console> (enable)
Use the ping and traceroute commands to test connectivity out FDDI/CDDI ports.
To check connectivity out a port, perform this task in privileged mode:
| Task | Command | |
|---|---|---|
Step 1 | Ping a remote host that is located out the port you want to test. | ping [-s] host [packet_size] [packet_count] |
Step 2 | Trace the hop-by-hop route of packets from the switch to a remote host located out the port you want to test. | traceroute host |
Step 3 | If the host is unresponsive, check the IP address and default gateway configured on the switch. | show interface |
This example shows how to ping a remote host and how to trace the hop-by-hop path of packets through the network using the traceroute command:
Console> (enable) ping somehost somehost is alive Console> (enable) traceroute somehost traceroute to somehost.company.com (10.1.2.3), 30 hops max, 40 byte packets 1 engineering-1.company.com (173.31.192.206) 2 ms 1 ms 1 ms 2 engineering-2.company.com (173.31.196.204) 2 ms 3 ms 2 ms 3 gateway_a.company.com (173.16.1.201) 6 ms 3 ms 3 ms 4 somehost.company.com (10.1.2.3) 3 ms * 2 ms
These sections show examples of FDDI/CDDI switching configurations:
Figure 38-1 shows a simple Catalyst 5000 family switch configuration and includes these elements:
You can set up VLAN groups across multiple switches without trunking if the switches have any two ports of the same VLAN connected, as shown in Figure 38-2. You need to configure the VLANs individually for both switches using the set vlan command.
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Note You can set up VLAN groups across multiple switches using trunking, as described in "Configuring FDDI 802.10 Trunks." |
This example sets VLAN 10 for the Catalyst 5000 family switch in building A:
System1> (enable) set vlan 10 4/1-2
VLAN 10 modified.
VLAN 1 modified.
VLAN Mod/Ports
---- -----------------------
10 4/1-2
This example sets VLAN 10 for the Catalyst 5000 family switch in building B:
System2> (enable) set vlan 10 4/1-2 VLAN 10 modified. VLAN 1 modified. VLAN Mod/Ports ---- ----------------------- 10 4/1-2
This example displays the VLAN 10 setting for the Catalyst 5000 family switch in building A:
System1> (enable) show vlan 10
VLAN Name Type Status Mod/Ports
---- -------------------------- ----- --------- ----------------
10 VLAN0010 enet active 4/1-2
VLAN SAID MTU RingNo BridgeNo StpNo Parent Trans1 Trans2
---- ---------- ----- ------ -------- ----- ------ ------ ------
10 100010 1500 0 0 0 0 0 0
This example displays the VLAN settings for the Catalyst 5000 family switch in building A:
System1> (enable) show vlan VLAN Name Type Status Mod/Ports ---- -------------------------- ----- --------- ---------------- 1 default enet active 1/1-2 10 VLAN0010 enet active 4/1-2 20 VLAN0020 enet active 2/1-24 1002 fddi-default fddi active 1003 token-ring-default tring active 1004 fddinet-default fdnet active 1005 trnet-default trnet active VLAN SAID MTU RingNo BridgeNo StpNo Parent Trans1 Trans2 ---- ---------- ----- ------ -------- ----- ------ ------ ------ 1 100001 1500 0 0 0 0 0 0 10 100010 1500 0 0 0 0 0 0 20 100020 1500 0 0 0 0 0 0 1002 101002 1500 0 0 0 0 0 0 1003 101003 1500 0 0 0 0 0 0 1004 101004 1500 0 0 0 0 0 0 1005 101005 1500 0 0 0 0 0 0 System1> (enable)
This example displays the VLAN 10 setting for the Catalyst 5000 family switch in building B:
System2> (enable) show vlan 10 VLAN Name Type Status Mod/Ports ---- -------------------------- ----- --------- ---------------- 10 VLAN0010 enet active 4/1-2 VLAN SAID MTU RingNo BridgeNo StpNo Parent Trans1 Trans2 ---- ---------- ----- ------ -------- ----- ------ ------ ------ 10 100010 1500 0 0 0 0 0 0
This example displays the VLAN settings for the Catalyst 5000 family switch in building B:
System2> (enable) show vlan VLAN Name Type Status Mod/Ports ---- -------------------------- ----- --------- ---------------- 1 default enet active 1/1-2 10 VLAN0010 enet active 4/1-2 20 VLAN0020 enet active 2/1-24 1002 fddi-default fddi active 1003 token-ring-default tring active 1004 fddinet-default fdnet active 1005 trnet-default trnet active VLAN SAID MTU RingNo BridgeNo StpNo Parent Trans1 Trans2 ---- ---------- ----- ------ -------- ----- ------ ------ ------ 1 100001 1500 0 0 0 0 0 0 10 100010 1500 0 0 0 0 0 0 20 100020 1500 0 0 0 0 0 0 1002 101002 1500 0 0 0 0 0 0 1003 101003 1500 0 0 0 0 0 0 1004 101004 1500 0 0 0 0 0 0 1005 101005 1500 0 0 0 0 0 0
Posted: Wed Mar 22 12:15:45 PST 2000
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