HP 8/20q HP StorageWorks 8/20q Fibre Channel Switch Command Line Interface Gui - Page 62

You can duplicate a specified port configuration on specified target ports using the clone config port command. The following example configures ports 8-19 based on port 0: 8/20q FC Switch #> admin start 8/20q FC Switch (admin) config edit 8/20q FC Switch (admin) #> clone config port 0 8-19 8/20q FC Switch (admin-config)#> config save 8/20q FC Switch (admin)#> config activate 8/20q FC Switch (admin)#> admin end The following example temporarily changes the administrative state of port 1 to down: 8/20q FC Switch #> admin start 8/20q FC Switch (admin) #> set port 1 state down Configuring transparent routing IMPORTANT: The Simple SAN Connection Manager (SSCM) application version 2.10 can manage 8/20q Fibre Channel Switches with active TR_Ports; however, SSCM cannot manage or discover remote switches or devices in the remote fabric. Use QuickTools or Enterprise Fabric Management Suite and the storage management interface to present Logical Unit Numbers (LUNs) to remote devices. SSCM version 2.0 and earlier versions do not support the management of fabrics that include 8/20q Fibre Channel Switches with active TR_Ports and may disrupt communication between the 8/20q Fibre Channel Switch and the remote fabric. The transparent routing feature provides inter-fabric routing to allow controlled and limited access between devices on a 8/20q Fibre Channel Switch (local) fabric and devices on a remote fabric consisting of switches made by other vendors. For a list of switches that are supported in a remote fabric, see the HP StorageWorks 8/20q Fibre Channel Switch release notes, and the HP StorageWorks SAN Design Reference Guide located at the HP website: http://www.hp.com/go/sandesignguide. This type of inter-fabric connection uses the Fibre Channel industry N-Port ID Virtualization (NPIV), and makes local and remote devices accessible to each other while maintaining the local and remote fabrics as separate fabrics. You can connect multiple 8/20q Fibre Channel Switches to one or more remote fabrics using multiple TR_Ports. Local and remote devices are identified by their respective port worldwide names. Consider the following mapping rules: • A TR_Port can support a maximum of 32 local device/remote device mappings. • A specific local device can be mapped to devices on only one remote fabric. Local devices on the same 8/20q Fibre Channel Switch can each be mapped to different remote fabrics. • For mappings between a specific 8/20q Fibre Channel Switch and a remote fabric, each local device or remote device can be mapped over only one TR_Port. Additional mappings to either device must use that same TR_Port. • Mulitple local devices connected to different local switches can be mapped to the same remote device over one TR_Port on each local switch. • A local device cannot be mapped over an E_Port to another local switch, then over a TR_Port to the remote device. The local switch to which the local device is connected must connect directly to the remote fabric over a TR_Port. NOTE: When a local device is mapped over a TR_Port to a remote device, the local device and its TR_Port appear as an NPIV connected device in the remote fabric. It is possible, though not recommended, to map such a local device over a second TR_Port to a local device in a second local fabric. In this case, if you merge the two local fabrics, the transparent route becomes inactive for the devices that now have a path over an ISL, and an alarm is generated. 62 Port Configuration