Cisco MDS 9000 Family Configuration Guide, Release 1.3 (from Release 1.3(1) through Release 1.3(6)) - Configuring and Managing VSANs [Cisco MDS 9000 NX-OS and SAN-OS Software]

Table Of Contents

Configuring and Managing VSANs

How VSANs Work

VSANs Versus Zones

Default and Isolated VSANs

Default VSANs

Isolated VSANs

Displaying Isolated VSANs

VSAN Membership

VSAN Attributes

Operational State of a VSAN

Creating and Configuring VSANs

Assigning VSAN Membership

VSAN Deletion

Deleting VSANs

Displaying VSAN Configurations

Default Settings

Configuring and Managing VSANs

You can achieve higher security and greater stability in Fibre Channel fabrics by using virtual SANs (VSANs). VSANs provide isolation among devices that are physically connected to the same fabric. With VSANs you can create multiple logical SANs over a common physical infrastructure. Each VSAN can contain up to 239 switches and has an independent address space that allows identical Fibre Channel IDs (FCIDs) to be used simultaneously in different VSANs. VSANs offer the following advantages:

•Traffic isolation—Traffic is contained within VSAN boundaries and devices reside only in one VSAN ensuring absolute separation between user groups, if desired.

•Scalability—VSANs are overlaid on top of a single physical fabric. The ability to create several logical VSAN layers increases the scalability of the SAN.

•Per VSAN fabric services—Replication of fabric services on a per VSAN basis provides increased scalability and availability.

•Redundancy—Several VSANs created on the same physical SAN ensure redundancy. If one VSAN fails, redundant protection is provided (to another VSAN in the same physical SAN) by a configured backup path between the host and the device.

•Ease of configuration—Users can be added, moved, or changed between VSANs without changing the physical structure of a SAN. Moving a device from one VSAN to another only requires configuration at the port level, not at a physical level.

This chapter includes the following sections:

•How VSANs Work

•VSANs Versus Zones

•Default and Isolated VSANs

•VSAN Membership

•VSAN Attributes

•Creating and Configuring VSANs

•Assigning VSAN Membership

•VSAN Deletion

•Displaying VSAN Configurations

•Default Settings

How VSANs Work

A VSAN is a virtual storage area network (SAN). A SAN is a dedicated network that interconnects hosts and storage devices primarily to exchange SCSI traffic. In SANs you use the physical links to make these interconnections. A set of protocols run over the SAN to handle routing, naming, and zoning. You can design multiple SANs with different topologies.

With the introduction of VSANs, the network administrator can build a single topology containing switches, links, and one or more VSANs. Each VSAN in this topology has the same behavior and property of a SAN. A VSAN has the following additional features:

•Multiple VSANs can share the same physical topology.

•The same Fibre Channel IDs (FCIDs) can be assigned to a host in another VSAN, thus increasing VSAN scalability.

•Every instance of a VSAN runs all required protocols such as FSPF, domain manager, and zoning.

•Fabric-related configurations in one VSAN do not affect the associated traffic in another VSAN.

•Events causing traffic disruptions in one VSAN are contained within that VSAN and are not propagated to other VSANs.

As displayed in both Figure 9-1 and Figure 9-2, the switch icons indicate that these features apply to any switch in the Cisco MDS 9000 Family.

Figure 9-1 shows a fabric with three switches, one on each floor. The geographic location of the switches and the attached devices is independent of their segmentation into logical VSANs. Between VSANs no communication is possible. Within each VSAN, all members can talk to one another.

Figure 9-1 Logical VSAN Segmentation

Figure 9-2 shows a physical Fibre Channel switching infrastructure with two defined VSANs: VSAN 2 (dashed) and VSAN 7 (solid). VSAN 2 includes hosts H1 and H2, application servers AS2 and AS3, and storage arrays SA1 and SA4. VSAN 7 connects H3, AS1, SA2, and SA3.

Figure 9-2 Example of two VSANs

The four switches in this network are interconnected by trunk links that carry both VSAN 2 and VSAN 7 traffic. Thus the inter-switch topology of both VSAN 2 and VSAN 7 are identical. This is not a requirement and a network administrator can enable certain VSANs on certain links to create different VSAN topologies.

Without VSANs, a network administrator would need separate switches and links for separate SANs. By enabling VSANs, the same switches and links may be shared by multiple VSANs. VSANs allow SANs to be built on port granularity instead of switch granularity. Figure 9-2 illustrates that a VSAN is a group of hosts or storage devices that communicate with each other using a virtual topology defined on the physical SAN.

The criteria for creating such groups differ based on the VSAN topology:

•VSANs can separate traffic based on the following requirements:

–Different customers in storage provider data centers

–Production or test in an enterprise network

–Low and high security requirements

–Backup traffic on separate VSANs

–Replicating data from user traffic

•VSANs can meet the needs of a particular department or application.

VSANs Versus Zones

You can define multiple zones in a VSAN. Because two VSANs are equivalent to two nonconnected SANs, zone A on VSAN 1 is different and separate from zone A in VSAN 2. Table 9-1 lists the differences between VSANs and zones.

Table 9-1 VSAN and Zone Comparison

VSANs

Zones

VSANs equal SANs with routing, naming, and zoning protocols.

Routing, naming, and zoning protocols are not available on a per-zone basis.

—

Zones are always contained within a VSAN. Zones never span two VSANs.

VSANs limit unicast, multicast, and broadcast traffic.

Zones limit unicast traffic.

Membership is typically defined using the VSAN ID to Fx ports.

Membership is typically defined by the pWWN.

An HBA or a storage device can belong only to a single VSAN—the VSAN associated with the Fx port.

An HBA or storage device can belong to multiple zones.

VSANs enforce membership at each E port, source port, and destination port.

Zones enforce membership only at the source and destination ports.

VSANs are defined for larger environments (storage service providers).

Zones are defined for a set of initiators and targets not visible outside the zone.

VSANs encompass the entire fabric.

Zones are configured at the fabric edge.

Figure 9-3 shows the possible relationships between VSANs and zones. In VSAN 2, three zones are defined: zone A, zone B, and zone C. Zone C overlaps both zone A and zone B as permitted by Fibre Channel standards. In VSAN 7, two zones are defined: zone A and zone D. No zone crosses the VSAN boundary—they are completely contained within the VSAN. Zone A defined in VSAN 2 is different and separate from zone A defined in VSAN 7.

Figure 9-3 VSANS with Zoning

Default and Isolated VSANs

Up to 256 VSANs can be configured in a switch. Of these, one is a default VSAN (VSAN 1), and another is an isolated VSAN (VSAN 4094). User-specified VSAN IDs range from 2 to 4093.

Default VSANs

The factory settings for switches in the Cisco MDS 9000 Family have only the default VSAN 1 enabled. If you do not need more than one VSAN for a switch, use this default VSAN as the implicit parameter during configuration. If no VSANs are configured, all devices in the fabric are considered part of the default VSAN. By default, all ports are assigned to the default VSAN.

Note VSAN 1 cannot be deleted, but it can be suspended.

Isolated VSANs

VSAN 4094 is an isolated VSAN. All non-trunking ports are transferred to this VSAN when the VSAN to which they belong is deleted. This avoids an implicit transfer of ports to the default VSAN or to another configured VSAN. All ports in the deleted VSAN are isolated (disabled).

Note When you configure a port in VSAN 4094 or move a port to VSAN 4094, that port is immediately isolated.

Caution Do not use an isolated VSAN to configure ports.

Displaying Isolated VSANs

The show vsan 4094 membership command displays all ports associated with the isolated VSAN.

VSAN Membership

Port VSAN membership on the switch is assigned on a port-by-port basis.

By default each port belongs to the default VSAN. You can change the VSAN membership by using the vsan number interface type port/slot command.

Trunking ports have an associated list of VSANs that are part of an allowed list (see "Configuring Trunking").

VSAN Attributes

VSANs have the following attributes:

•VSAN ID—The VSAN ID identifies the VSAN as the default VSAN (VSAN 1), user-defined VSANs (VSAN 2 to 4093), and the isolated VSAN (VSAN 4094).

•State—The administrative state of a VSAN can be configured to an active (default) or suspended state. Once VSANs are created, they may exist in various conditions or states.

–The active state of a VSAN indicates that the VSAN is configured and enabled. By enabling a VSAN, you activate the services for that VSAN.

–The suspended state of a VSAN indicates that the VSAN is configured but not enabled. If a port is configured in this VSAN, it is disabled. Use this state to deactivate a VSAN without losing the VSAN's configuration. All ports in a suspended VSAN are disabled. By suspending a VSAN, you can preconfigure all the VSAN parameters for the whole fabric and activate the VSAN immediately.

•VSAN name—This text string identifies the VSAN for management purposes. The name can be from 1 to 32 characters long and it must be unique across all VSANs. By default, the VSAN name is a concatenation of VSAN and a four-digit string representing the VSAN ID. For example, the default name for VSAN 3 is VSAN0003.

Note A VSAN name must be unique.

•Load balancing attributes—These attributes indicate the use of the source-destination ID (src-dst-id) or the originator exchange OX ID (src-dst-ox-id, the default) for load balancing path selection.

Operational State of a VSAN

A VSAN is in the operational state if the VSAN is active and at least one port is up. This state indicates that traffic can pass through this VSAN. This state cannot be configured.

Creating and Configuring VSANs

You cannot configure any application-specific parameters for a VSAN before creating the VSAN.

To create and configure VSANs, follow these steps:
Command

Purpose
Step 1
switch# config t
Enters configuration mode.
Step 2
switch(config)# vsan database
switch(config-vsan-db)# 
Configures the database for a VSAN. Application specific VSAN parameters cannot be configured from this prompt.
Step 3
switch(config-vsan-db)# vsan 2
switch(config-vsan-db)# 
Creates a VSAN with the specified ID (2) if that VSAN does not exist already.
switch(config-vsan-db)# vsan 2 name TechDoc 
updated vsan 2
switch(config-vsan-db)# 
Updates the VSAN with the assigned name (TechDoc).
Step 4
switch(config-vsan-db)# vsan 2 
loadbalancing src-dst-id 
switch(config-vsan-db)# 
Enables the load balancing guarantee for the selected VSAN and directs the switch to use the source and destination ID for its path selection process.
switch(config-vsan-db)# no vsan 2 
loadbalancing src-dst-id 
switch(config-vsan-db)#
Negates the command issued in the previous step and reverts to the default values of the load-balancing parameters.
switch(config-vsan-db)# vsan 2 
loadbalancing src-dst-ox-id 
switch(config-vsan-db)# 
Changes the path selection setting to use the source ID, the destination ID, and the OX ID (default).
Step 5
switch(config-vsan-db)# vsan 2 suspend 
switch(config-vsan-db)# 
Suspends the selected VSAN.
switch(config-vsan-db)# no vsan 2 suspend
vs.-config-vsan-db# 
Negates the suspend command issued in the previous step.
Step 6
switch(config-vsan-db)# end
switch#
Returns you to EXEC mode.
Assigning VSAN Membership

To assign VSAN membership, follow these steps:
Command

Purpose
Step 1
switch# config t
Enters configuration mode.
Step 2
switch(config)# vsan database 
switch(config-vsan-db)# 
Configures the database for a VSAN.
Step 3
switch(config-vsan-db)# vsan 2
switch(config-vsan-db)# 
Creates a VSAN with the specified ID (2) if that VSAN does not exist already.
Step 4
switch(config-vsan-db)# vsan 2 interface fc1/8
switch(config-vsan-db)# 
Assigns the membership of the fc1/8 interface to the specified VSAN (VSAN 2).
Step 5
switch(config-vsan-db)# vsan 7
switch(config-vsan-db)#
Creates another VSAN with the specified ID (7) if that VSAN does not exist already.
Step 6
switch(config-vsan-db)# vsan 7 interface fc1/8
switch(config-vsan-db)# 
Updates the membership information of the interface to reflect the changed VSAN.
VSAN Deletion

When an active VSAN is deleted, all of its attributes are removed from the running configuration. VSAN-related information is maintained by the system software as follows:

•VSAN attributes and port membership details are maintained by the VSAN manager. This feature is affected when you delete a VSAN from the configuration. When a VSAN is deleted all the ports in that VSAN are made inactive and the ports are moved to the isolated VSAN. If the same VSAN is recreated, the ports do not automatically get assigned to that VSAN. You must explicitly reconfigure the port VSAN membership (see Figure 9-4).

Figure 9-4 VSAN Port Membership Details

•VSAN-based runtime (name server), zoning, and configuration (static routes) information is removed when the VSAN is deleted.

•Configured VSAN interface information is removed when the VSAN is deleted.

Note The allowed VSAN list is not affected when a VSAN is deleted (see "Configuring Trunking").

Any commands for a nonconfigured VSAN are rejected. For example, if VSAN 10 is not configured in the system, then a command request to move a port to VSAN 10 is rejected.

Deleting VSANs

To delete a VSAN and its various attributes, follow these steps:
Command

Purpose
Step 1
switch# config t
Enters configuration mode.
Step 2
switch(config)# vsan database 
switch(config-db)# 
Configures the VSAN database.
Step 3
switch-config-db# vsan 2
switch(config-vsan-db)# 
Places you in VSAN configuration mode.
Step 4
switch(config-vsan-db)# no vsan 5 
switch(config-vsan-db)#
Deletes VSAN 5 from the database and switch.
Step 5
switch(config-vsan-db)# end
switch#
Places you in EXEC mode.
Displaying VSAN Configurations

Use the show vsan command to display information about configured VSANs (see Examples 9-1 to 9-6).

Example 9-1 Displays the Configuration for a Specific VSAN
switch# show vsan 100
vsan 100 information
         name:VSAN0100 state:active 
         in-order guarantee:no interoperability mode:no 
         loadbalancing:src-id/dst-id/oxid 
Example 9-2 Displays the VSAN Usage
switch# show vsan usage
4 vsan configured
configured vsans:1-4
vsans available for configuration:5-4093
Example 9-3 Displays All VSANs
switch# show vsan
vsan 1 information
         name:VSAN0001 state:active 
         in-order guarantee:no interoperability mode:no 
         loadbalancing:src-id/dst-id/oxid 
vsan 2 information
         name:VSAN0002 state:active 
         in-order guarantee:no interoperability mode:no 
         loadbalancing:src-id/dst-id/oxid 
vsan 7 information
         name:VSAN0007 state:active 
         in-order guarantee:no interoperability mode:no 
         loadbalancing:src-id/dst-id/oxid 
vsan 100 information
         name:VSAN0100 state:active 
         in-order guarantee:no interoperability mode:no 
         loadbalancing:src-id/dst-id/oxid 
vsan 4094:isolated vsan
Example 9-4 Displays Membership Information for the Specified VSAN
switch # show vsan 1 membership
vsan 1 interfaces:
        fc1/1   fc1/2   fc1/3   fc1/4   fc1/5   fc1/6   fc1/7   fc1/9
        fc1/10  fc1/11  fc1/12  fc1/13  fc1/14  fc1/15  fc1/16  port-channel 99
Note Interface information is not displayed if interfaces are not configured on this VSAN.

Example 9-5 Displays Membership Information for All VSANs
switch # show vsan membership 
vsan 1 interfaces:
        fc2/16  fc2/15  fc2/14  fc2/13  fc2/12  fc2/11  fc2/10  fc2/9
        fc2/8   fc2/7   fc2/6   fc2/5   fc2/4   fc2/3   fc2/2   fc2/1
        fc1/16  fc1/15  fc1/14  fc1/13  fc1/12  fc1/11  fc1/10  fc1/9
        fc1/7   fc1/6   fc1/5   fc1/4   fc1/3   fc1/2   fc1/1
vsan 2 interfaces:
vsan 7 interfaces:
        fc1/8
vsan 100 interfaces:
vsan 4094(isolated vsan) interfaces:
Example 9-6 Displays Membership Information for a Specified Interface
switch # show vsan membership interface fc1/1
fc1/1
        vsan:1
        allowed list:1-4093
Default Settings

Table 9-2 lists the default settings for all configured VSANs.

Table 9-2 Default VSAN Parameters

Parameters

Default

Default VSAN

VSAN 1.

State

Active state.

Name

Concatenation of VSAN and a four-digit string representing the VSAN ID. For example, VSAN 3 is VSAN0003.

Load-balancing attribute

OX ID (src-dst-ox-id).