HP A7533A HP StorageWorks Fabric OS 6.x administrator guide (5697-0015, May 20 - Page 384
Zone types
UPC - 829160830858
View all HP A7533A manuals
Add to My Manuals
Save this manual to your list of manuals |
Page 384 highlights
Zone types Table 85 summarizes the types of zoning available. Table 85 Types of zoning Zone type Description Storage-based Storage units typically implement LUN-based zoning, also called LUN masking. LUN-based zoning limits access to the LUNs on the storage port to the specific WWN of the server HBA. It is needed in most SANs. It functions during the probe portion of SCSI initialization. The server probes the storage port for a list of available LUNs and their properties. The storage system compares the WWN of the requesting HBA to the defined zone list, and returns the LUNs assigned to the WWN. Other LUNs on the storage port are not made available to the server. Host-based Host-based zoning can implement WWN or LUN masking. Fabric-based Fabric switches implement fabric-based zoning, in which the zone members are identified by WWN or port location in the fabric. Fabric-based zoning is also called name server-based or soft zoning. When a device queries the fabric name server, the name server determines the zones in which the device belongs. The server returns information on all members of the zones in the fabric to the device. Devices in the zone are identified by node WWN, port WWN, or domain,port of the switch to which the device is connected. The primary approaches to fabric-based zoning are summarized in Table 86. NOTE: Fabric OS has several types of zones that do not behave like the "regular" zones described here. These special zones include broadcast zones, traffic isolation zones, and QoS zones. See "Broadcast zones" on page 391, "Traffic isolation" on page 331, and "QoS: SID/DID traffic prioritization" on page 339 for information about these special zones. Table 86 lists the various approaches you can take when implementing zoning in a fabric. Table 86 Approaches to fabric-based zoning Zoning approach Description Recommended approach Single HBA Zoning by single HBA most closely re-creates the original SCSI bus. Each zone created has only one HBA (initiator) in the zone; each of the target devices is added to the zone. Typically, a zone is created for the HBA and the disk storage ports are added. If the HBA also accesses tape devices, a second zone is created with the HBA and associated tape devices in it. In the case of clustered systems, it could be appropriate to have an HBA from each of the cluster members included in the zone; this is equivalent to having a shared SCSI bus between the cluster members and assumes that the clustering software can manage access to the shared devices. In a large fabric, zoning by single HBA requires the creation of possibly hundreds of zones; however, each zone contains only a few members. Zone changes affect the smallest possible number of devices, minimizing the impact of an incorrect zone change. This zoning philosophy is the preferred method. 384 Administering Advanced Zoning