2008년 2월 24일 일요일

[cisco.com] Configuring VTP and Virtual LANs

[Source] Configuring VTP and Virtual LANs

Configuring VTP and Virtual LANs

This chapter describes how to configure VLAN Trunk Protocol (VTP) and virtual LANs (VLANs).

Note For complete syntax and usage information for the commands used in this chapter, refer to the Catalyst 5000 Series Command Reference publication.

This chapter consists of these sections:

Using VTP

These sections describe how to use VTP with the Catalyst 5000 series switches:

Before you create VLANs, you must decide whether to use VTP in your network. With VTP, you can make configuration changes centrally on a single Catalyst 5000 series switch and have those changes automatically communicated to all the other switches in the network.

VTP is a Layer 2 messaging protocol that maintains VLAN configuration consistency by managing the addition, deletion, and renaming of VLANs on a network-wide basis. VTP minimizes misconfigurations and configuration inconsistencies that can result in a number of problems, such as duplicate VLAN names, incorrect VLAN-type specifications, and security violations.

These sections describe how VTP works on the Catalyst 5000 series switches:

Understanding the VTP Domain

A VTP domain (also called a VLAN management domain) is made up of one or more interconnected switches that share the same VTP domain name. A switch can be configured to be in one and only one VTP domain. You make global VLAN configuration changes for the domain using either the command-line interface (CLI) or Simple Network Management Protocol (SNMP).

By default, the Catalyst 5000 series switch is in VTP server mode and is in the no-management domain state until the switch receives an advertisement for a domain over a trunk link or you configure a management domain. You cannot create or modify VLANs on a VTP server until the management domain name is specified or learned.

If the switch receives a VTP advertisement over a trunk link, it inherits the management domain name and configuration revision number. The switch ignores advertisements with a different management domain name or an earlier configuration revision number.

If you configure the switch as VTP transparent, you can create and modify VLANs but the changes affect only the individual switch.

When you make a change to the VLAN configuration on a VTP server, the change is propagated to all switches in the VTP domain. VTP advertisements are transmitted out all trunk connections, including Inter-Switch Link (ISL), IEEE 802.1Q, IEEE 802.10, and ATM LAN Emulation (LANE).

VTP maps VLANs dynamically across multiple LAN types with unique names and internal index associations. Mapping eliminates excessive device administration required from network administrators.

Understanding VTP Modes

You can configure a Catalyst 5000 series switch to operate in any one of these VTP modes:

Server--In VTP server mode, you can create, modify, and delete VLANs and specify other configuration parameters (such as VTP version and VTP pruning) for the entire VTP domain. VTP servers advertise their VLAN configuration to other switches in the same VTP domain and synchronize their VLAN configuration with other switches based on advertisements received over trunk links. VTP server is the default mode.
Client --VTP clients behave the same way as VTP servers, but you cannot create, change, or delete VLANs on a VTP client.
Transparent --VTP transparent switches do not participate in VTP. A VTP transparent switch does not advertise its VLAN configuration and does not synchronize its VLAN configuration based on received advertisements. However, in VTP version 2, transparent switches do forward VTP advertisements that they receive out their trunk ports.

Understanding VTP Advertisements

Each Catalyst 5000 series switch in the VTP domain sends periodic advertisements out each trunk port to a reserved multicast address. VTP advertisements are received by neighboring switches, which update their VTP and VLAN configurations as necessary.

The following global configuration information is distributed in VTP advertisements:

VLAN IDs (ISL and 802.1Q)
Emulated LAN names (for ATM LANE)
802.10 SAID values (FDDI)
VTP domain name
VTP configuration revision number
VLAN configuration, including maximum transmission unit (MTU) size for each VLAN
Frame format

Understanding VTP Version 2

If you use VTP in your network, you must decide whether to use VTP version 1 or version 2. VTP version 1 is supported in Catalyst 5000 series supervisor engine software release 2.1 or later and ATM software release 3.1 or later. VTP version 2 is supported in Catalyst 5000 series software release 3.1(1) and later.

Note If you are using VTP in a Token Ring environment, you must use version 2.

VTP version 2 supports the following features not supported in version 1:

Token Ring support--VTP version 2 supports Token Ring LAN switching and VLANs (Token Ring Bridge Relay Function [TrBRF] and Token Ring Concentrator Relay Function [TrCRF]). For more information about Token Ring VLANs, refer to the "Understanding How VLANs Work" section.
Unrecognized Type-Length-Value (TLV) Support--A VTP server or client propagates configuration changes to its other trunks, even for TLVs it is not able to parse. The unrecognized TLV is saved in nonvolatile RAM (NVRAM).
Version-Dependent Transparent Mode--In VTP version 1, a VTP transparent switch inspects VTP messages for the domain name and version, and forwards a message only if the version and domain name match. Since only one domain is supported in the Catalyst 5000 series software, VTP version 2 forwards VTP messages in transparent mode, without checking the version.
Consistency Checks--In VTP version 2, VLAN consistency checks (such as VLAN names and values) are performed only when you enter new information through the CLI or SNMP. Consistency checks are not performed when new information is obtained from a VTP message, or when information is read from NVRAM. If the digest on a received VTP message is correct, its information is accepted without consistency checks.

Understanding VTP Pruning

VTP pruning enhances network bandwidth use by reducing unnecessary flooded traffic, such as broadcast, multicast, unknown, and flooded unicast packets. VTP pruning increases available bandwidth by restricting flooded traffic to those trunk links that the traffic must use to access the appropriate network devices. By default, VTP pruning is disabled.

Make sure that all devices in the management domain support VTP pruning before enabling it. VTP pruning is supported in Catalyst 5000 series software release 2.3 and later.

Figure 13-1 shows a switched network without VTP pruning enabled. Port 1 on Switch 1 and port 2 on Switch 4 are assigned to the Red VLAN. A broadcast is sent from the host connected to Switch 1. Switch 1 floods the broadcast and every switch in the network receives it, even though Switches 3, 5, and 6 have no ports in the Red VLAN.

Figure 13-1: Flooding Traffic without VTP Pruning

Figure 13-2 shows the same switched network with VTP pruning enabled. The broadcast traffic from Switch 1 is not forwarded to Switches 3, 5, and 6 because traffic for the Red VLAN has been pruned on the links indicated (port 5 on Switch 2 and port 4 on Switch 4).

Figure 13-2: Flooding Traffic with VTP Pruning

Enabling VTP pruning on a VTP server enables pruning for the entire management domain. VTP pruning takes effect several seconds after you enable it. By default, VLANs 2 through 1000 are pruning-eligible. VTP pruning does not prune traffic from VLANs that are pruning-ineligible. VLAN 1 is always pruning-ineligible; traffic from VLAN 1 cannot be pruned.

To make a VLAN pruning ineligible, enter the clear vtp pruneeligible command. To make a VLAN pruning eligible again, enter the set vtp pruneeligible command. You can set VLAN pruning-eligibility regardless of whether VTP pruning is enabled or disabled for the domain. Pruning eligibility always applies to the local device only, not for the entire VTP domain.

VTP Default Configuration

Table 13-1 shows the default VTP configuration.

Table 13-1: VTP Default Configuration

Feature	Default Value
VTP domain name	Null
VTP mode	Server
VTP version 2 enable state	Version 2 is disabled
VTP password	None
VTP pruning	Disabled

VTP Configuration Guidelines

Follow these guidelines when implementing VTP in your network:

All switches in a VTP domain must run the same VTP version.
You must configure a password on each Catalyst 5000 series switch in the management domain when in secure mode.

Caution If you configure VTP in secure mode, the management domain will not function properly if you do not assign a management domain password to each Catalyst 5000 series switch in the domain.
A VTP version 2-capable switch can operate in the same VTP domain as a switch running VTP version 1 provided VTP version 2 is disabled on the VTP version 2-capable switch (VTP version 2 is disabled by default).
Do not enable VTP version 2 on a switch unless all of the switches in the same VTP domain are version 2-capable. When you enable VTP version 2 on a switch, all of the version 2-capable switches in the domain enable VTP version 2.
In a Token Ring environment, you must enable VTP version 2 for Token Ring VLAN switching to function properly.
Enabling or disabling VTP pruning on a VTP server enables or disables VTP pruning for the entire management domain.
Making VLANs pruning-eligible or pruning-ineligible on a switch affects pruning-eligibility for those VLANs on that device only (not on all switches in the VTP domain).

Configuring VTP

These sections describe how to configure VTP on the Catalyst 5000 series switches:

Configuring a VTP Server

When a switch is in VTP server mode, you can change the VLAN configuration and have it propagate throughout the network.

To configure the switch as a VTP server, perform this task in privileged mode:

Task	Command
Step 1 Define the VTP domain name.	set vtp domain name
Step 2 Place the switch in VTP server mode.	set vtp mode server
Step 3 (Optional) Set a password for the VTP domain.	set vtp passwd passwd
Step 4 Verify the VTP configuration.	show vtp domain

This example shows how to configure the switch as a VTP server and verify the configuration:

Console> (enable) set vtp domain Lab_Network
VTP domain Lab_Network modified
Console> (enable) set vtp mode server
VTP domain Lab_Network modified
Console> (enable) show vtp domain
Domain Name                      Domain Index VTP Version Local Mode  Password
-------------------------------- ------------ ----------- ----------- ----------
Lab_Network                      1            2           server      -
Vlan-count Max-vlan-storage Config Revision Notifications
---------- ---------------- --------------- -------------
10         1023             40              enabled
Last Updater    V2 Mode  Pruning  PruneEligible on Vlans
--------------- -------- -------- -------------------------
172.20.52.70    disabled disabled 2-1000
Console> (enable)

Configuring a VTP Client

When a switch is in VTP client mode, you cannot change the VLAN configuration on the switch. The client switch receives VTP updates from a VTP server in the management domain and modifies its configuration accordingly.

To configure the switch as a VTP client, perform this task in privileged mode:

Task	Command
Step 1 Define the VTP domain name.	set vtp domain name
Step 2 Place the switch in VTP client mode.	set vtp mode client
Step 3 Verify the VTP configuration.	show vtp domain

This example shows how to configure the switch as a VTP client and verify the configuration:

Console> (enable) set vtp domain Lab_Network
VTP domain Lab_Network modified
Console> (enable) set vtp mode client
VTP domain Lab_Network modified
Console> (enable) show vtp domain
Domain Name                      Domain Index VTP Version Local Mode  Password
-------------------------------- ------------ ----------- ----------- ----------
Lab_Network                      1            2           client      -
Vlan-count Max-vlan-storage Config Revision Notifications
---------- ---------------- --------------- -------------
10         1023             40              enabled
Last Updater    V2 Mode  Pruning  PruneEligible on Vlans
--------------- -------- -------- -------------------------
172.20.52.70    disabled disabled 2-1000
Console> (enable)

Disabling VTP

When you configure the switch as VTP transparent, you disable VTP on the switch. A VTP transparent switch does not send VTP updates and does not act on VTP updates received from other switches. However, a VTP transparent switch running VTP version 2 does forward received VTP advertisements out all of its trunk links.

To disable VTP on the switch, perform this task in privileged mode:

Task	Command
Step 1 Place the switch in VTP transparent mode (disabling VTP on the switch).	set vtp mode transparent
Step 2 Verify the VTP configuration.	show vtp domain

This example shows how to configure the switch as VTP transparent and verify the configuration:

Console> (enable) set vtp mode transparent
VTP domain Lab_Net modified
Console> (enable) show vtp domain
Domain Name                      Domain Index VTP Version Local Mode  Password
-------------------------------- ------------ ----------- ----------- ----------
Lab_Net                          1            2           Transparent -
Vlan-count Max-vlan-storage Config Revision Notifications
---------- ---------------- --------------- -------------
10         1023             0               enabled
Last Updater    V2 Mode  Pruning  PruneEligible on Vlans
--------------- -------- -------- -------------------------
172.20.52.70    disabled disabled 2-1000
Console> (enable)

Enabling VTP Version 2

VTP version 2 is disabled by default on VTP version 2-capable switches. When you enable VTP version 2 on a switch, every VTP version 2-capable switch in the VTP domain will enable version 2 as well.

Caution VTP version 1 and VTP version 2 are not interoperable on switches in the same VTP domain. Every switch in the VTP domain must use the same VTP version. Do not enable VTP version 2 unless every switch in the VTP domain supports version 2.

Note In a Token Ring environment, you must enable VTP version 2 for Token Ring VLAN switching to function properly.

To enable VTP version 2, perform this task in privileged mode:

Task	Command
Step 1 Enable VTP version 2 on the switch.	set vtp v2 enable
Step 2 Verify that VTP version 2 is enabled.	show vtp domain

This example shows how to enable VTP version 2 and verify the configuration (shown by the arrow):

Console> (enable) set vtp v2 enable
This command will enable the version 2 function in the entire management domain.
All devices in the management domain should be version2-capable before enabling.
Do you want to continue (y/n) [n]? y
VTP domain Lab_Net modified
Console> (enable) show vtp domain
Domain Name                      Domain Index VTP Version Local Mode  Password
-------------------------------- ------------ ----------- ----------- ----------
Lab_Net                          1            2           server      -
Vlan-count Max-vlan-storage Config Revision Notifications
---------- ---------------- --------------- -------------
10         1023             1               enabled
Last Updater    V2 Mode  Pruning  PruneEligible on Vlans
--------------- -------- -------- -------------------------



  
172.20.52.70    enabled  disabled 2-1000
Console> (enable)

Disabling VTP Version 2

To disable VTP version 2, perform this task in privileged mode:

Task	Command
Step 1 Disable VTP version 2.	set vtp v2 disable
Step 2 Verify that VTP version 2 is disabled.	show vtp domain

This example shows how to disable VTP version 2:

Console> (enable) set vtp v2 disable
This command will disable the version 2 function in the entire management domain.
Warning: trbrf & trcrf vlans will not work properly in this mode.
Do you want to continue (y/n) [n]? y
VTP domain Lab_Net modified
Console> (enable)

Configuring VTP Pruning

To configure VTP pruning, perform this task in privileged mode:

Task	Command
Step 1 Enable VTP pruning in the management domain.	set vtp pruning enable
Step 2 (Optional) Make specific VLANs pruning-ineligible on the device. (By default, VLANs 2-1000 are pruning-eligible.)	clear vtp pruneeligible vlan_range
Step 3 (Optional) Make specific VLANs pruning-eligible on the device.	set vtp pruneeligible vlan_range
Step 4 Verify the VTP pruning configuration.	show vtp domain
Step 5 Verify that the appropriate VLANs are being pruned on trunk ports.	show trunk

This example shows how to enable VTP pruning in the management domain and how to make VLANs 2-99, 250-255, and 501-1000 pruning-eligible on the particular device:

Console> (enable) set vtp pruning enable
This command will enable the pruning function in the entire management domain.
All devices in the management domain should be pruning-capable before enabling.
Do you want to continue (y/n) [n]? y
VTP domain Lab_Network modified
Console> (enable) clear vtp pruneeligible 100-500
Vlans 1,100-500,1001-1005 will not be pruned on this device.
VTP domain Lab_Network modified.
Console> (enable) set vtp pruneeligible 250-255
Vlans 2-99,250-255,501-1000 eligible for pruning on this device.
VTP domain Lab_Network modified.
Console> (enable) show vtp domain
Domain Name                      Domain Index VTP Version Local Mode  Password
-------------------------------- ------------ ----------- ----------- ----------
Lab_Network                      1            2           server      -
 
Vlan-count Max-vlan-storage Config Revision Notifications
---------- ---------------- --------------- -------------
8          1023             16              disabled
 
Last Updater    V2 Mode  Pruning  PruneEligible on Vlans
--------------- -------- -------- -------------------------
172.20.52.2     disabled enabled  2-99,250-255,501-1000
Console> (enable) show trunk
Port      Mode         Encapsulation  Status        Native vlan
--------  -----------  -------------  ------------  -----------
 1/1      auto         isl            trunking      523
 
Port      Vlans allowed on trunk
--------  ---------------------------------------------------------------------
 1/1      1-1005
 
Port      Vlans allowed and active in management domain
--------  ---------------------------------------------------------------------
 1/1      1,522-524
 
Port      Vlans in spanning tree forwarding state and not pruned
--------  ---------------------------------------------------------------------
 1/1      1,522-524
Console> (enable)

Disabling VTP Pruning

To disable VTP pruning, perform this task in privileged mode:

Task	Command
Step 1 Disable VTP pruning in the management domain.	set vtp pruning disable
Step 2 Verify that VTP pruning is disabled.	show vtp domain

This example shows how to disable VTP pruning in the management domain:

Console> (enable) set vtp pruning disable
This command will disable the pruning function in the entire management domain.
Do you want to continue (y/n) [n]? y
VTP domain Lab_Network modified
Console> (enable)

Monitoring VTP

To monitor VTP activity, including VTP advertisements sent and received and VTP errors, perform this task:

Task	Command
Display VTP statistics for the switch.	show vtp statistics

This example shows how to display VTP statistics on the switch:

Console> (enable) show vtp statistics
VTP statistics:
summary advts received          4690
subset  advts received          7
request advts received          0
summary advts transmitted       4397
subset  advts transmitted       8
request advts transmitted       0
No of config revision errors    0
No of config digest errors      0
VTP pruning statistics:
Trunk     Join Trasmitted  Join Received  Summary advts received from
                                          non-pruning-capable device
--------  ---------------  -------------  ---------------------------
 1/1      0                0              0
 1/2      0                0              0
Console> (enable)

Using VLANs

These sections describe how to use VLANs on the Catalyst 5000 series switches:

Understanding How VLANs Work

A VLAN is a group of end stations with a common set of requirements, independent of physical location. VLANs have the same attributes as a physical LAN but allow you to group end stations even if they are not located physically on the same LAN segment.

The following sections describe how VLANs work on the Catalyst 5000 series switches:

Understanding VLANs in a VTP Domain

VLANs allow you to group ports on Catalyst 5000 series switches to limit unicast, multicast, and broadcast traffic flooding. Flooded traffic originating from a particular VLAN is only flooded out other ports belonging to that VLAN.

Note Before you create VLANs, you must decide whether to use VTP to maintain global VLAN configuration information for your network. For complete information on VTP, refer to the "Using VTP" section.

Figure 13-3 shows an example of VLANs segmented into logically defined networks.

Figure 13-3: VLANs as Logically Defined Networks

VLANs are often associated with IP subnetworks. For example, all the end stations in a particular IP subnet belong to the same VLAN. Traffic between VLANs must be routed. Port VLAN membership on the switch is assigned manually on a port-by-port basis. When you assign switch ports to VLANs using this method, it is known as port-based, or static, VLAN membership.

Note Catalyst 5000 series switches support dynamic VLAN membership using the VLAN Membership Policy Server (VMPS). For information on how to configure VMPS and dynamic port VLAN membership, refer to the "Configuring Dynamic Port VLAN Membership with VMPS" chapter.

The in-band (sc0) interface of a Catalyst 5000 series switch can be assigned to any VLAN, so you can access another Catalyst 5000 series switch on the same VLAN directly without a router. Only one IP address at a time can be assigned to the in-band interface. If you change the IP address and assign the interface to a different VLAN, the previous IP address and VLAN assignment are overwritten.

You can set these parameters when you create a VLAN in the management domain:

VLAN number
VLAN name
VLAN type (Ethernet, Fiber Disributed Data Interface [FDDI], FDDI network entity title [NET], TrBRF, or TrCRF)
VLAN state (active or suspended)
Maximum transmission unit (MTU) for the VLAN
Security Association Identifier (SAID)
Bridge identification number for TrBRF VLANs
Ring number for FDDI and TrCRF VLANs
Parent VLAN number for TrCRF VLANs
Spanning-Tree Protocol (STP) type for TrCRF VLANs
VLAN number to use when translating from one VLAN type to another

Note When translating from one VLAN type to another, the Catalyst 5000 series switch requires a different VLAN number for each media type.

Understanding Token Ring VLANs

Two Token Ring VLAN types are supported on Catalyst 5000 series switches running VTP version 2:

Token Ring TrBRF VLANs

Token Ring Bridge Relay Function (TrBRF) VLANs interconnect multiple Token Ring Concentrator Relay Function (TrCRF) VLANs in a switched Token Ring network (see Figure 13-4). The TrBRF can be extended across a network of switches interconnected via trunk links. The connection between the TrCRF and the TrBRF is referred to as a logical port.

Figure 13-4: Interconnected Token Ring TrBRF and TrCRF VLANs

For source routing, the switch appears as a single bridge between the logical rings. The TrBRF can function as a source-route bridge (SRB) or source-route transparent (SRT) bridge running either the IBM or IEEE STP. If SRB is used, you can define duplicate Media Access Control (MAC) addresses on different logical rings.

The Catalyst 5000 series Token Ring software runs an instance of STP for each TrBRF VLAN and each TrCRF VLAN. For TrCRF VLANs, STP removes loops in the logical ring. For TrBRF VLANs, STP interacts with external bridges to remove loops from the bridge topology, similar to STP operation on Ethernet VLANs.

Caution Certain parent TrBRF STP and TrCRF bridge mode configurations can place the logical ports (the connection between the TrBRF and the TrCRF) of the TrBRF in a blocked state. For more information, refer to the "VLAN Configuration Guidelines" section.

For source routing, the switch appears as a single bridge between the logical rings. The TrBRF can function as an SRB or SRT bridge running either the IBM or IEEE STP. If SRB is used, duplicate MAC addresses can be defined on different logical rings.

To accommodate IBM System Network Architecture (SNA) traffic, you can use a combination of SRT and SRB modes. In a mixed mode, the TrBRF considers some ports (logical ports connected to TrCRFs) to operate in SRB mode while others operate in SRT mode.

Token Ring TrCRF VLANs

Token Ring Concentrator Relay Function (TrCRF) VLANs define port groups with the same logical ring number. You can configure two types of TrCRFs in your network: undistributed and backup.

Typically, TrCRFs are undistributed, which means each TrCRF is limited to the ports on a single Catalyst 5000 series switch. Multiple undistributed TrCRFs on the same or separate switches can be associated with a single parent TrBRF (see Figure 13-5). The parent TrBRF acts as a multiport bridge, forwarding traffic between the undistributed TrCRFs.

Note To pass data between rings located on separate switches, you can associate the rings to the same TrBRF and configure the TrBRF for SRB.

Figure 13-5: Undistributed TrCRFs

Note By default, Token Ring ports are associated with the default TrCRF (VLAN 1003, trcrf-default), which has the default TrBRF (VLAN 1005, trbrf-default) as its parent. In this configuration, a distributed TrCRF is possible (see Figure 13-6), and traffic is passed between the default TrCRFs located on separate switches provided that the switches are connected via an ISL trunk.

Figure 13-6: Distributed TrCRF

Within a TrCRF, source-route switching forwards frames based on either MAC addresses or route descriptors. The entire VLAN can operate as a single ring, with frames switched between ports within a single TrCRF.

You can specify the maximum hop count for All-Routes and Spanning-Tree Explorer frames for each TrCRF. This limits the maximum number of hops an explorer is allowed to traverse. If a port determines that the explorer frame it is receiving has traversed more than the number of hops specified, it does not forward the frame. The TrCRF determines the number of hops an explorer has traversed based on the number of bridge hops in the route information field.

A backup TrCRF enables you to configure an alternate route for traffic between undistributed TrCRFs located on separate switches that are connected by a TrBRF, in the event that the ISL connection between the switches fails. Only one backup TrCRF for a TrBRF is allowed, and only one port per switch can belong to a backup TrCRF.

If the ISL connection between the switches fails, the port in the backup TrCRF on each affected switch automatically becomes active, rerouting traffic between the undistributed TrCRFs through the backup TrCRF. When the ISL connection is reestablished, all but one port in the backup TrCRF is disabled. Figure 13-7 illustrates the backup TrCRF.

Figure 13-7: Backup TrCRF

VLAN Default Configuration

Table 13-2 shows the default VLAN configuration.

Table 13-2: VLAN Default Configuration

Feature	Default Value
Native (default) VLAN	VLAN 1
Port VLAN assignments	All ports assigned to VLAN 1 Token Ring ports assigned to VLAN 1003 (trcrf-default)
VLAN state	Enabled
MTU size	1500 bytes 4472 bytes for Token Ring VLANs
SAID value	100,000 plus the VLAN number (for example, the SAID for VLAN VLAN 3 is 100003)
Pruning eligibility	VLAN 2-1000 are pruning-eligible
Default FDDI VLAN	VLAN 1002
Default FDDI NET VLAN	VLAN 1004
Default Token Ring TrBRF VLAN	VLAN 1005 (trbrf-default) with bridge number 0F
Default Token Ring TrCRF VLAN	VLAN 1003 (trcrf-default)
TrBRF STP	IBM
TrCRF bridge mode	SRB

VLAN Configuration Guidelines

Follow these guidelines when creating and modifying VLANs in your network:

A maximum of 250 VLANs can be active at any time.
Before you can create a VLAN, the switch must be in VTP server mode or VTP transparent mode. If the switch is a VTP server, you must define a VTP domain. For information on configuring VTP, refer to the "Configuring VTP" section.
The default TrBRF (VLAN 1005) can only be the parent of the default TrCRF (VLAN 1003). You cannot specify the default TrBRF as the parent of a user-configured TrCRF.
You must configure a TrBRF before you configure the TrCRF (the parent TrBRF VLAN you specify must exist).
In a Token Ring environment, the logical ports (the connection between the TrBRF and the TrCRF) of the TrBRF are placed in a blocked state if either of these conditions exists:
- The TrBRF is running the IBM STP, and the TrCRF is in SRT mode.
- The TrBRF is running the IEEE STP, and the TrCRF is in SRB mode.

Configuring VLANs

Note VLANs support a number of parameters that are not discussed in detail in this section. For complete information on the set vlan command and its parameters, refer to the Catalyst 5000 Series Command Reference publication.

These sections describe how to configure VLANs on the Catalyst 5000 series switches:

Creating or Modifying an Ethernet VLAN

To create a new Ethernet VLAN, perform this task in privileged mode:

Task	Command
Step 1 Create a new Ethernet VLAN.	set vlan vlan_num [name name] [said said] [mtu mtu] [translationvlan_num]
Step 2 Verify the VLAN configuration.	show vlan [vlan_num]

Note The default VLAN type is Ethernet; if you do not specify the VLAN type, the VLAN is an Ethernet VLAN.

This example shows how to create an Ethernet VLAN and verify the configuration:

Console> (enable) set vlan 500 name Engineering
Vlan 500 configuration successful
Console> (enable) show vlan 500
VLAN Name                             Status    IfIndex Mod/Ports, Vlans
---- -------------------------------- --------- ------- ------------------------
500  Engineering                      active    344
VLAN Type  SAID       MTU   Parent RingNo BrdgNo Stp  BrdgMode Trans1 Trans2
---- ----- ---------- ----- ------ ------ ------ ---- -------- ------ ------
500  enet  100500     1500  -      -      -      -    -        0      0
VLAN AREHops STEHops Backup CRF
---- ------- ------- ----------
Console> (enable)

To modify the VLAN parameters on an existing Ethernet VLAN, perform this task in privileged mode:

Task	Command
Step 1 Modify an existing Ethernet VLAN.	set vlan vlan_num [name name] [state {active \| suspend}] [saidsaid] [mtu mtu] [translation vlan_num]
Step 2 Verify the VLAN configuration.	show vlan [vlan_num]

Creating or Modifying an FDDI VLAN

To create a new FDDI VLAN, perform this task in privileged mode:

Task	Command
Step 1 Create a new FDDI or FDDI NET type VLAN.	set vlan vlan_num [name name] type {fddi \| fddinet} [saidsaid] [mtu mtu]
Step 2 Verify the VLAN configuration.	show vlan [vlan_num]

To modify the VLAN parameters on an existing FDDI VLAN, perform this task in privileged mode:

Task	Command
Step 1 Modify an existing FDDI or FDDI NET type VLAN.	set vlan vlan_num [name name] [state {active \| suspend}] [said said] [mtu mtu]
Step 2 Verify the VLAN configuration.	show vlan [vlan_num]

Creating or Modifying a Token Ring TrBRF VLAN

Note You must enable VTP version 2 before you create Token Ring VLANs. For information on enabling VTP version 2, refer to the "Configuring VTP" section.

To create a new Token Ring TrBRF VLAN, perform this task in privileged mode:

Task	Command
Step 1 Create a new Token Ring TrBRF type VLAN.	set vlan vlan_num [name name] type trbrf [said said] [mtu mtu] bridge bridge_number [stp {ieee \| ibm}]
Step 2 Verify the VLAN configuration.	show vlan [vlan_num]

Note You must specify a bridge number when creating a new TrBRF.

This example shows how to create a new Token Ring TrBRF VLAN and verify the configuration:

Console> (enable) set vlan 999 name TrBRF_999 type trbrf bridge a
Vlan 999 configuration successful
Console> (enable) show vlan 999
VLAN Name                             Status    IfIndex Mod/Ports, Vlans
---- -------------------------------- --------- ------- ------------------------
999  TrBRF_999                        active    
VLAN Type  SAID       MTU   Parent RingNo BrdgNo Stp  BrdgMode Trans1 Trans2
---- ----- ---------- ----- ------ ------ ------ ---- -------- ------ ------
999  trbrf 100999     4472  -      -      0xa    ibm  -        0      0
VLAN AREHops STEHops Backup CRF
---- ------- ------- ----------
Console> (enable)

To modify the VLAN parameters on an existing Token Ring TrBRF VLAN, perform this task in privileged mode:

Task	Command
Step 1 Modify an existing Token Ring TrBRF type VLAN.	set vlan vlan_num [name name] [state {active \| suspend}] [saidsaid] [mtu mtu] [bridge bridge_number] [stp {ieee \| ibm}]
Step 2 Verify the VLAN configuration.	show vlan [vlan_num]

Creating or Modifying a Token Ring TrCRF VLAN

Note You must enable VTP version 2 before you create Token Ring VLANs. For information on enabling VTP version 2, refer to the "Configuring VTP" section.

To create a new Token Ring TrCRF VLAN, perform this task in privileged mode:

Task	Command
Step 1 Create a new Token Ring TrCRF type VLAN.	set vlan vlan_num [name name] type trcrf [said said] [mtu mtu] {ringhex_ring_number \| decring decimal_ring_number} parent vlan_num
Step 2 Verify the VLAN configuration.	show vlan [vlan_num]

Note You must specify a ring number (either in hexadecimal or in decimal) and a parent TrBRF VLAN when creating a new TrCRF.

This example shows how to create a Token Ring TrCRF VLAN and verify the configuration:

Console> (enable) set vlan 998 name TrCRF_998 type trcrf decring 10 parent 999
Vlan 998 configuration successful
Console> (enable) show vlan 998
VLAN Name                             Status    IfIndex Mod/Ports, Vlans
---- -------------------------------- --------- ------- ------------------------
998  TrCRF_998                        active    352     
VLAN Type  SAID       MTU   Parent RingNo BrdgNo Stp  BrdgMode Trans1 Trans2
---- ----- ---------- ----- ------ ------ ------ ---- -------- ------ ------
998  trcrf 100998     4472  999    0xa    -      -    srb      0      0
VLAN AREHops STEHops Backup CRF
---- ------- ------- ----------
998  7       7       off
Console> (enable)

To modify the VLAN parameters on an existing Token Ring TrCRF VLAN, perform this task in privileged mode:

Task	Command
Step 1 Modify an existing Token Ring TrCRF type VLAN.	set vlan vlan_num [name name] [state {active \| suspend}] [said said] [mtu mtu] [ring hex_ring_num] [decring decimal_ring_num] [bridgebridge_num] [parent vlan_num]
Step 2 Verify the VLAN configuration.	show vlan [vlan_num]

To create a backup TrCRF, assign one port on each switch that the TrBRF traverses to the backup TrCRF.

To configure a TrCRF VLAN as a backup TrCRF, perform this task in privileged mode:

Task	Command
Step 1 Configure a TrCRF VLAN as a backup TrCRF.	set vlan vlan_num backupcrf on
Step 2 Verify the VLAN configuration.	show vlan [vlan_num]

Caution If the backup TrCRF port is attached to a Token Ring multistation access unit (MSAU), it does not provide a backup path unless the ring speed and port mode are set by another device. We recommend that you configure the ring speed and port mode for the backup TrCRF.

To specify the maximum number of hops for All-Routes Explorer frames or Spanning-Tree Explorer frames in the TrCRF, perform this task in privileged mode:

Task	Command
Step 1 Specify the maximum number of hops for All-Routes Explorer frames in the TrCRF.	set vlan vlan_num aremaxhop hopcount
Step 2 Specify the maximum number of hops for Spanning-Tree Explorer frames in the TrCRF.	set vlan vlan_num stemaxhop hopcount
Step 3 Verify the VLAN configuration.	show vlan [vlan_num]

This example shows how to limit All-Routes Explorer frames and Spanning-Tree Explorer frames to ten hops, and how to verify the configuration (shown by the arrow):

Console> (enable) set vlan 998 aremaxhop 10 stemaxhop 10
Vlan 998 configuration successful
Console> (enable) show vlan 998
VLAN Name                             Status    IfIndex Mod/Ports, Vlans
---- -------------------------------- --------- ------- ------------------------
998  VLAN0998                         active    357
 
 
VLAN Type  SAID       MTU   Parent RingNo BrdgNo Stp  BrdgMode Trans1 Trans2
---- ----- ---------- ----- ------ ------ ------ ---- -------- ------ ------
998  trcrf 100998     4472  999    0xff   -      -    srb      0      0
 
 
VLAN AREHops STEHops Backup CRF
---- ------- ------- ----------



  
998  10      10      off
Console> (enable)

Assigning Switch Ports to a VLAN

A VLAN created in a management domain remains unused until you assign one or more switch ports to the VLAN. If you specify a VLAN that does not exist, the VLAN is created and the specified ports are assigned to it.

Note Make sure you assign switch ports to a VLAN of the proper type. For example, assign Ethernet, Fast Ethernet, and Gigabit Ethernet ports to Ethernet-type VLANs, Token Ring ports to Token Ring TrCRF-type VLANs, and so forth.

To assign one or more switch ports to a VLAN, perform this task in privileged mode:

Task	Command
Step 1 Assign one or more switch ports to a VLAN.	set vlan vlan_num mod_num/port_num
Step 2 Verify the port VLAN membership.	show vlan [vlan_num] show port [mod_num[/port_num]]

This example shows how to assign switch ports to a VLAN and verify the assignment:

Console> (enable) set vlan 560 4/10
VLAN 560 modified.
VLAN 1 modified.
VLAN  Mod/Ports
---- -----------------------
560   4/10
      
Console> (enable) show vlan 560
VLAN Name                             Status    IfIndex Mod/Ports, Vlans
---- -------------------------------- --------- ------- ------------------------
560  Engineering                      active    348     4/10
VLAN Type  SAID       MTU   Parent RingNo BrdgNo Stp  BrdgMode Trans1 Trans2
---- ----- ---------- ----- ------ ------ ------ ---- -------- ------ ------
560  enet  100560     1500  -      -      -      -    -        0      0
VLAN AREHops STEHops Backup CRF
---- ------- ------- ----------
Console> (enable) show port 4/10
Port  Name               Status     Vlan       Level  Duplex Speed Type
----- ------------------ ---------- ---------- ------ ------ ----- ------------
 4/10                    notconnect 560        normal   half    10 10BaseT
 
<...output truncated...>
 
Last-Time-Cleared
--------------------------
Wed Jun 24 1998, 12:16:41
Console> (enable)

Deleting a VLAN

When you delete a VLAN in VTP server mode, the VLAN is removed from all switches in the VTP domain. When you delete a VLAN in VTP transparent mode, the VLAN is deleted only on the current switch.

Caution When you delete a VLAN, any ports assigned to that VLAN become inactive. Such ports remain associated with the VLAN (and thus inactive) until you assign them to a new VLAN.

To delete a VLAN on the switch, perform this task in privileged mode:

Task	Command
Delete a VLAN.	clear vlan vlan_num

Note You cannot delete a Token Ring TrBRF VLAN without first reassigning its child TrCRFs to another parent TrBRF, or deleting the child TrCRFs.

This example shows how to delete a VLAN (in this case, the switch is a VTP server):

Console> (enable) clear vlan 500
This command will deactivate all ports on vlan 500
in the entire management domain
Do you want to continue(y/n) [n]?y
Vlan 500 deleted
Console> (enable)

2008년 2월 23일 토요일

[cisco.com] Understanding VLAN Trunk Protocol (VTP)

[Source] Understanding VLAN Trunk Protocol (VTP)

Introduction

VLAN Trunk Protocol (VTP) reduces administration in a switched network. When you configure a new VLAN on one VTP server, the VLAN is distributed through all switches in the domain. This reduces the need to configure the same VLAN everywhere. VTP is a Cisco-proprietary protocol that is available on most of the Cisco Catalyst series products.

Note: This document does not cover VTP Version 3. VTP Version 3 differs from VTP Version 1 (V1) and Version 2 (V2), and it is only available on Catalyst OS (CatOS) 8.1(1) or later. VTP Version 3 incorporates many changes from VTP V1 and V2. Make certain that you understand the differences between VTP Version 3 and earlier versions before you alter your network configuration.Refer to one of these sections of Configuring VTP for more information:

Understanding How VTP Version 3 Works
Interaction with VTP Version 1 and VTP Version 2 (VTP Version 3)

Understand VTP

Flash Animation: VTP

Refer to the VLAN Trunk Protocol (VTP) Flash animation, which explains these concepts for VTP V1 and V2:

Introduction to VTP
VTP domain and VTP modes
Common VTP problems and solutions

Note: This document does not cover VTP Version 3. VTP Version 3 differs from VTP V1 and V2 and is only available on CatOS 8.1(1) or later. Refer to one of these sections of Configuring VTP for more information:

Understanding How VTP Version 3 Works
Interaction with VTP Version 1 and VTP Version 2 (VTP Version 3)

VTP Messages in Detail

VTP packets are sent in either Inter-Switch Link (ISL) frames or in IEEE 802.1Q (dot1q) frames. These packets are sent to the destination MAC address 01-00-0C-CC-CC-CC with a logical link control (LLC) code of Subnetwork Access Protocol (SNAP) (AAAA) and a type of 2003 (in the SNAP header). This is the format of a VTP packet that is encapsulated in ISL frames:

Of course, you can have a VTP packet inside 802.1Q frames. In that case, the ISL header and cyclic redundancy check (CRC) is replaced by dot1q tagging.

Now consider the detail of a VTP packet. The format of the VTP header can vary, based on the type of VTP message. But, all VTP packets contain these fields in the header:

VTP protocol version: 1, 2, or 3
VTP message types:
- Summary advertisements
- Subset advertisement
- Advertisement requests
- VTP join messages
Management domain length
Management domain name

Configuration Revision Number

The configuration revision number is a 32-bit number that indicates the level of revision for a VTP packet. Each VTP device tracks the VTP configuration revision number that is assigned to it. Most of the VTP packets contain the VTP configuration revision number of the sender.

This information is used in order to determine whether the received information is more recent than the current version. Each time that you make a VLAN change in a VTP device, the configuration revision is incremented by one. In order to reset the configuration revision of a switch, change the VTP domain name, and then change the name back to the original name.

Summary Advertisements

By default, Catalyst switches issue summary advertisements in five-minute increments. Summary advertisements inform adjacent Catalysts of the current VTP domain name and the configuration revision number.

When the switch receives a summary advertisement packet, the switch compares the VTP domain name to its own VTP domain name. If the name is different, the switch simply ignores the packet. If the name is the same, the switch then compares the configuration revision to its own revision. If its own configuration revision is higher or equal, the packet is ignored. If it is lower, an advertisement request is sent.

This list clarifies what the fields means in the summary advertisement packet:

The Followers field indicates that this packet is followed by a Subset Advertisement packet.
The Updater Identity is the IP address of the switch that is the last to have incremented the configuration revision.
The Update Timestamp is the date and time of the last increment of the configuration revision.
Message Digest 5 (MD5) carries the VTP password, if MD5 is configured and used to authenticate the validation of a VTP update.

Subset Advertisements

When you add, delete, or change a VLAN in a Catalyst, the server Catalyst where the changes are made increments the configuration revision and issues a summary advertisement. One or several subset advertisements follow the summary advertisement. A subset advertisement contains a list of VLAN information. If there are several VLANs, more than one subset advertisement can be required in order to advertise all the VLANs.

This formatted example shows that each VLAN information field contains information for a different VLAN. It is ordered so that lowered-valued ISL VLAN IDs occur first:

Most of the fields in this packet are easy to understand. These are two clarifications:

Code—The format for this is 0x02 for subset advertisement.
Sequence number—This is the sequence of the packet in the stream of packets that follow a summary advertisement. The sequence starts with 1.

Advertisement Requests

A switch needs a VTP advertisement request in these situations:

The switch has been reset.
The VTP domain name has been changed.
The switch has received a VTP summary advertisement with a higher configuration revision than its own.

Upon receipt of an advertisement request, a VTP device sends a summary advertisement. One or more subset advertisements follow the summary advertisement. This is an example:

Code—The format for this is 0x03 for an advertisement request.
Start-Value—This is used in cases in which there are several subset advertisements. If the first (n) subset advertisement has been received and the subsequent one (n+1) has not been received, the Catalyst only requests advertisements from the (n+1)th one.

Other VTP Options

VTP Modes

You can configure a switch to operate in any one of these VTP modes:

Server—In VTP server mode, you can create, modify, and delete VLANs and specify other configuration parameters, such as VTP version and VTP pruning, for the entire VTP domain. VTP servers advertise their VLAN configuration to other switches in the same VTP domain and synchronize their VLAN configuration with other switches based on advertisements received over trunk links. VTP server is the default mode.
Client—VTP clients behave the same way as VTP servers, but you cannot create, change, or delete VLANs on a VTP client.
Transparent—VTP transparent switches do not participate in VTP. A VTP transparent switch does not advertise its VLAN configuration and does not synchronize its VLAN configuration based on received advertisements, but transparent switches do forward VTP advertisements that they receive out their trunk ports in VTP Version 2.
Off (configurable only in CatOS switches)—In the three described modes, VTP advertisements are received and transmitted as soon as the switch enters the management domain state. In the VTP off mode, switches behave the same as in VTP transparent mode with the exception that VTP advertisements are not forwarded.

VTP V2

VTP V2 is not much different than VTP V1. The major difference is that VTP V2 introduces support for Token Ring VLANs. If you use Token Ring VLANs, you must enable VTP V2. Otherwise, there is no reason to use VTP V2.

VTP Password

If you configure a password for VTP, you must configure the password on all switches in the VTP domain. The password must be the same password on all those switches. The VTP password that you configure is translated by algorithm into a 16-byte word (MD5 value) that is carried in all summary-advertisement VTP packets.

VTP Pruning

VTP ensures that all switches in the VTP domain are aware of all VLANs. However, there are occasions when VTP can create unnecessary traffic. All unknown unicasts and broadcasts in a VLAN are flooded over the entire VLAN. All switches in the network receive all broadcasts, even in situations in which few users are connected in that VLAN. VTP pruning is a feature that you use in order to eliminate or prune this unnecessary traffic.

Use VTP in a Network

By default, all switches are configured to be VTP servers. This configuration is suitable for small-scale networks in which the size of the VLAN information is small and the information is easily stored in all switches (in NVRAM). In a large network, the network administrator must make a judgment call at some point, when the NVRAM storage that is necessary is wasteful because it is duplicated on every switch. At this point, the network administrator must choose a few well-equipped switches and keep them as VTP servers. Everything else that participates in VTP can be turned into a client. The number of VTP servers should be chosen in order to provide the degree of redundancy that is desired in the network.

Notes:

If a switch is configured as a VTP server without a VTP domain name, you cannot configure a VLAN on the switch.
If a new Catalyst is attached in the border of two VTP domains, the new Catalyst keeps the domain name of the first switch that sends it a summary advertisement. The only way to attach this switch to another VTP domain is to manually set a different VTP domain name.
Dynamic Trunking Protocol (DTP) sends the VTP domain name in a DTP packet. Therefore, if you have two ends of a link that belong to different VTP domains, the trunk does not come up if you use DTP. In this special case, you must configure the trunk mode as on or nonegotiate, on both sides, in order to allow the trunk to come up without DTP negotiation agreement.
If the domain has a single VTP server and it crashes, the best and easiest way to restore the operation is to change any of the VTP clients in that domain to a VTP server. The configuration revision is still the same in the rest of the clients, even if the server crashes. Therefore, VTP works properly in the domain.

Configure VTP

Refer to Configuring VLAN Trunk Protocol (VTP) for information to configure VTP.

Troubleshoot VTP

Refer to Troubleshooting VLAN Trunk Protocol (VTP) for information to troubleshoot VTP.

Conclusion

There are some disadvantages to the use of VTP. You must balance the ease of VTP administration against the inherent risk of a large STP domain and the potential instability and risks of STP. The greatest risk is an STP loop through the entire campus. When you use VTP, there are two things to which you must pay close attention:

Remember the configuration revision and how to reset it each time that you insert a new switch in your network so that you do not bring down the entire network.
Avoid as much as possible to have a VLAN that spans the entire network.