81NOTE:• If two SRPUs are used, the reboot of the active SRPU causes an active/standby switchover.• If one SRPU is used, the reboot of the active SRPU causes the entire switch to reboot.• An LPU always automatically reboots when it detects a software exception.• The exception handling action affects only the failed card.Displaying the exception handling methodUse the display system-failure command to display the exception handling method. display system-failureSystem failure handling method: rebootDisplaying IRF informationDisplaying information about all IRF member switchesUse the display irf command to display information about all IRF member switches. display irfSwitch Slot Role Priority CPU-Mac Description*+1 0 Master 1 00e0-fc0a-15e0 F1Num0011 1 Slave 1 00e0-fc0f-8c02 -----2 1 Slave 1 00e0-fc0f-8c1f F1Num0022 1 Slave 1 00e0-fc0f-8c1g -----------------------------------------------------------------------* indicates the device is the master.+ indicates the device through which the user logs in.The Bridge MAC of the IRF is: 000f-e26a-58edAuto upgrade : noMac persistent : alwaysDomain ID : 30Table 26 Output descriptionField DescriptionSwitchMember ID.• The ID of the master is prefixed with an asterisk (*) sign.• The ID of the switch where you are logged in is prefixed with a plus (+) sign.Slot Number of the slot that holds the active or standby SRPU.RoleThe role of an SRPU in the IRF virtual device, including:• Master—The active SRPU of the IRF virtual device.• Slave—The standby SRPU of the IRF virtual device.• SlaveWait—The standby SRPU of the IRF virtual device. It is joining the IRFvirtual device.• Loading—The standby SRPU of the IRF virtual device. It is loading the systemboot file.