Dell Brocade 6520 Fabric OS Troubleshooting and Diagnostics Guide v7.1.0 - Page 40

3 Port initialization and FCP auto-discovery process • VEX_Port-A virtual EX_Port. It connects a Fibre Channel router to an edge fabric. From the point of view of a switch in an edge fabric, a VEX_Port appears as a normal VE_Port. It follows the same Fibre Channel protocol as other VE_Ports. However, the router terminates VEX_Ports rather than allowing different fabrics to merge as would happen on a switch with regular VE_Ports. Figure 2 shows the process behind port initialization. Understanding this process can help you determine where a problem resides. For example, if your switch cannot form an E_Port, you understand that the process never got to that point or does not recognize the switch as an E_Port. Possible solutions would be to look at licensing and port configuration. Verify that the correct licensing is installed or that the port is not configured as a loop port, a G_Port, or the port speed is not set. FIGURE 2 Simple port initialization process The FCP auto-discovery process enables private storage devices that accept the process login (PRLI) to communicate in a fabric. If device probing is enabled, the embedded port logs in (PLOGI) and attempts a PRLI into the device to retrieve information to enter into the name server. This enables private devices that do not perform a fabric login (FLOGI), but accept PRLI, to be entered in the name server and receive full fabric citizenship. A fabric-capable device registers information with the Name Server during a FLOGI. These devices typically register information with the name server before querying for a device list. The embedded port still PLOGI and attempt PRLI with these devices. To display the contents of a switch's Name Server, use the nsShow or nsAllShow command. For more information about these name server commands, refer to Fabric OS Command Reference. 24 Fabric OS Troubleshooting and Diagnostics Guide 53-1002751-01