Rack Server Tasks

This chapter contains the following sections:

Add Firmware Image Profile

Summary
Create a new firmware image profile in UCS Director.
Description
This task creates a new firmware image profile in UCS Director.
Inputs
Input Description Mappable To Type Mandatory
Profile Name Enter the firmware image profile name gen_​text_​input Y
Select Platform Choose the server platform cimc_​rack_​server_​firmware_​platform_​type Y
Select Mount Type Choose an image mount type cimc_​rack_​server_​firmware_​server_​type Y
Location Link Enter the location link gen_​text_​input Y
Remote IP Enter the remote IP of the image location gen_​text_​input Y
Remote Share Path Enter the remote share path gen_​text_​input Y
Remote file Name Enter the remote image file name gen_​text_​input Y
User Name Enter the username for accessing the image available in the remote path gen_​text_​input
Password Enter the password for accessing the image available in the remote path password
Mount Options Choose the mount options cimc_​rack_​server_​firmware_​mount_​types
Outputs
Output Description Type
OUTPUT_​RACK_​SERVER_​FIRMWARE_​IMAGE_​PROFILE_​NAME CIMC_​RACK_​SERVER_​FIRWARE_​IMAGE_​PROFILE cimc_​rack_​server_​firmware_​image_​profile

Assign Rack Server to Group

Summary
Assign a rack server to a group.
Description
This task assigns a rack server to a group.
Inputs
Input Description Mappable To Type Mandatory
Select Rack Server Choose the rack server cimc​Server​Identity Y
Assign To Users Check to allow users to assign resources.​
User Group ID Choose the user group to assign to the rack server user​Group Y
Comments Enter comments gen_​text_​input
Outputs
Output Description Type
OUTPUT_​CIMC_​SERVER_​IDENTITY CIMC_​SERVER cimc​Server​Identity

Configure Rack Server

Summary
Associate a Rack server Profile.
Description
This task associates the selected rack server profile with the CIMC server.
Inputs
Input Description Mappable To Type Mandatory
Policy Type Choose the rack server policy type Y
Rack Server Profile Choose a rack server profile cimc_​rack_​server_​profile Y
Select Rack Server Choose the rack server to which to apply the rack server profile cimc​Server​Identity Y
Outputs
Output Description Type
OUTPUT_​CIMC_​SERVER_​IDENTITY CIMC_​SERVER cimc​Server​Identity
OUTPUT_​RACK_​SERVER_​PROFILE_​NAME CIMC_​RACK_​SERVER_​PROFILE cimc_​rack_​server_​profile
OUTPUT_​CIMC_​SERVER_​SLOT_​MAC_​ADDRESS MAC Address of the Server Slots.​ gen_​text_​input
OUTPUT_​CIMC_​SERVER_​SLOT_​1_​MAC_​ADDRESS MAC Address of the C Server Slot 1.​ gen_​text_​input
OUTPUT_​RACK_​SP_​SLOT_​1_​VHBA_​1_​VLAN Name and FCo​E VLAN of the virtual Host Bus Adapter that was created as part of rack server profile.​ (Example: vhba1@20) gen_​text_​input
OUTPUT_​RACK_​SP_​SLOT_​1_​VHBA_​1_​WWPN Name and WWPN of the virtual Host Bus Adapter that was created as part of rack server profile.​ (Example: vhba1@20:00:00:25:b5:00:aa:a1) gen_​text_​input
OUTPUT_​RACK_​SP_​SLOT_​1_​VHBA_​2_​VLAN Name and FCo​E VLAN of the virtual Host Bus Adapter that was created as part of rack server profile.​ (Example: vhba1@20) gen_​text_​input
OUTPUT_​RACK_​SP_​SLOT_​1_​VHBA_​2_​WWPN Name and WWPN of the virtual Host Bus Adapter that was created as part of rack server profile.​ (Example: vhba1@20:00:00:25:b5:00:aa:a1) gen_​text_​input
OUTPUT_​CIMC_​SERVER_​SLOT_​2_​MAC_​ADDRESS MAC Address of the C Server slot 2.​ gen_​text_​input
OUTPUT_​CIMC_​SERVER_​SLOT_​3_​MAC_​ADDRESS MAC Address of the C Server slot 3.​ gen_​text_​input
OUTPUT_​CIMC_​SERVER_​SLOT_​4_​MAC_​ADDRESS MAC Address of the C Server slot 4.​ gen_​text_​input
OUTPUT_​CIMC_​SERVER_​SLOT_​5_​MAC_​ADDRESS MAC Address of the C Server slot 5.​ gen_​text_​input
OUTPUT_​CIMC_​SERVER_​SLOT_​6_​MAC_​ADDRESS MAC Address of the C Server slot 6.​ gen_​text_​input
OUTPUT_​CIMC_​SERVER_​SLOT_​7_​MAC_​ADDRESS MAC Address of the C Server slot 7.​ gen_​text_​input
OUTPUT_​CIMC_​SERVER_​SLOT_​8_​MAC_​ADDRESS MAC Address of the C Server slot 8.​ gen_​text_​input
OUTPUT_​RACK_​SP_​SLOT_​2_​VHBA_​1_​VLAN Name and FCo​E VLAN of the virtual Host Bus Adapter that was created as part of rack server profile.​ (Example: vhba1@20) gen_​text_​input
OUTPUT_​RACK_​SP_​SLOT_​2_​VHBA_​1_​WWPN Name and WWPN of the virtual Host Bus Adapter that was created as part of rack server profile.​ (Example: vhba1@20:00:00:25:b5:00:aa:a1) gen_​text_​input
OUTPUT_​RACK_​SP_​SLOT_​2_​VHBA_​2_​VLAN Name and FCo​E VLAN of the virtual Host Bus Adapter that was created as part of rack server profile.​ (Example: vhba1@20) gen_​text_​input
OUTPUT_​RACK_​SP_​SLOT_​2_​VHBA_​2_​WWPN Name and WWPN of the virtual Host Bus Adapter that was created as part of rack server profile.​ (Example: vhba1@20:00:00:25:b5:00:aa:a1) gen_​text_​input
OUTPUT_​CIMC_​SERVER_​SLOT_​L_​MAC_​ADDRESS MAC Address of the C Server Slot L.​ gen_​text_​input
OUTPUT_​CIMC_​SERVER_​SLOT_​M_​MAC_​ADDRESS MAC Address of the C Server Slot M.​ gen_​text_​input
OUTPUT_​CIMC_​SERVER_​SLOT_​HBA_​MAC_​ADDRESS MAC Address of the C Server Slot HBA.​ gen_​text_​input
OUTPUT_​CIMC_​SERVER_​SLOT_​MLOM_​MAC_​ADDRESS MAC Address of the C Server Slot MLOM.​ gen_​text_​input

Delete Firmware Image Profile

Summary
Delete one or more firmware image profiles in UCS Director.
Description
This task deletes one or more firmware image profiles in UCS Director.
Inputs
Input Description Mappable To Type Mandatory
Select Image Profile Choose the firmware image profiles to delete cimc_​rack_​server_​firmware_​image_​profile Y
Outputs
No Outputs

Monitor Rack Server Firmware Upgrade

Summary
Monitor the firmware upgrade status of a rack server.
Description
This task monitors the firmware upgrade status of a rack server for a specified time limit. If the time limit is reached, the task fails with a timeOut error.
Inputs
Input Description Mappable To Type Mandatory
Select Image Profile Choose the firmware image profile name with which to upgrade the server cimc_​rack_​server_​firmware_​image_​profile Y
Server Choose the rack server.​ The firmware upgrade is monitored on the selected server.​ cimc​Server​Identity Y
Timeout (minutes) Enter the timeout value for the monitor task.​ The default value is 75 minutes.​ The minimum value is 30 minutes and the maximum value is 150 minutes.​ gen_​text_​input Y
Outputs
Output Description Type
OUTPUT_​CIMC_​SERVER_​IDENTITY CIMC_​SERVER cimc​Server​Identity

Power On/Off CIMC Server

Summary
Power On or Power Off a CIMC server.
Description
This task changes the power state of a CIMC server.
Inputs
Input Description Mappable To Type Mandatory
CIMC Server Select CIMC Server cimc​Server​Identity Y
Power Action Select Power Action Y
Outputs
Output Description Type
OUTPUT_​CIMC_​SERVER_​IDENTITY CIMC_​SERVER cimc​Server​Identity
OUTPUT_​CIMC_​SERVER_​SLOT_​MAC_​ADDRESS MAC Address of the Server Slots.​ gen_​text_​input
OUTPUT_​CIMC_​SERVER_​SLOT_​1_​MAC_​ADDRESS MAC Address of the C Server Slot 1.​ gen_​text_​input
OUTPUT_​RACK_​SP_​SLOT_​1_​VHBA_​1_​VLAN Name and FCo​E VLAN of the virtual Host Bus Adapter that was created as part of rack server profile.​ (Example: vhba1@20) gen_​text_​input
OUTPUT_​RACK_​SP_​SLOT_​1_​VHBA_​1_​WWPN Name and WWPN of the virtual Host Bus Adapter that was created as part of rack server profile.​ (Example: vhba1@20:00:00:25:b5:00:aa:a1) gen_​text_​input
OUTPUT_​RACK_​SP_​SLOT_​1_​VHBA_​2_​VLAN Name and FCo​E VLAN of the virtual Host Bus Adapter that was created as part of rack server profile.​ (Example: vhba1@20) gen_​text_​input
OUTPUT_​RACK_​SP_​SLOT_​1_​VHBA_​2_​WWPN Name and WWPN of the virtual Host Bus Adapter that was created as part of rack server profile.​ (Example: vhba1@20:00:00:25:b5:00:aa:a1) gen_​text_​input
OUTPUT_​CIMC_​SERVER_​SLOT_​2_​MAC_​ADDRESS MAC Address of the C Server slot 2.​ gen_​text_​input
OUTPUT_​CIMC_​SERVER_​SLOT_​3_​MAC_​ADDRESS MAC Address of the C Server slot 3.​ gen_​text_​input
OUTPUT_​CIMC_​SERVER_​SLOT_​4_​MAC_​ADDRESS MAC Address of the C Server slot 4.​ gen_​text_​input
OUTPUT_​CIMC_​SERVER_​SLOT_​5_​MAC_​ADDRESS MAC Address of the C Server slot 5.​ gen_​text_​input
OUTPUT_​CIMC_​SERVER_​SLOT_​6_​MAC_​ADDRESS MAC Address of the C Server slot 6.​ gen_​text_​input
OUTPUT_​CIMC_​SERVER_​SLOT_​7_​MAC_​ADDRESS MAC Address of the C Server slot 7.​ gen_​text_​input
OUTPUT_​CIMC_​SERVER_​SLOT_​8_​MAC_​ADDRESS MAC Address of the C Server slot 8.​ gen_​text_​input
OUTPUT_​RACK_​SP_​SLOT_​2_​VHBA_​1_​VLAN Name and FCo​E VLAN of the virtual Host Bus Adapter that was created as part of rack server profile.​ (Example: vhba1@20) gen_​text_​input
OUTPUT_​RACK_​SP_​SLOT_​2_​VHBA_​1_​WWPN Name and WWPN of the virtual Host Bus Adapter that was created as part of rack server profile.​ (Example: vhba1@20:00:00:25:b5:00:aa:a1) gen_​text_​input
OUTPUT_​RACK_​SP_​SLOT_​2_​VHBA_​2_​VLAN Name and FCo​E VLAN of the virtual Host Bus Adapter that was created as part of rack server profile.​ (Example: vhba1@20) gen_​text_​input
OUTPUT_​RACK_​SP_​SLOT_​2_​VHBA_​2_​WWPN Name and WWPN of the virtual Host Bus Adapter that was created as part of rack server profile.​ (Example: vhba1@20:00:00:25:b5:00:aa:a1) gen_​text_​input
OUTPUT_​CIMC_​SERVER_​SLOT_​L_​MAC_​ADDRESS MAC Address of the C Server Slot L.​ gen_​text_​input
OUTPUT_​CIMC_​SERVER_​SLOT_​M_​MAC_​ADDRESS MAC Address of the C Server Slot M.​ gen_​text_​input
OUTPUT_​CIMC_​SERVER_​SLOT_​HBA_​MAC_​ADDRESS MAC Address of the C Server Slot HBA.​ gen_​text_​input
OUTPUT_​CIMC_​SERVER_​SLOT_​MLOM_​MAC_​ADDRESS MAC Address of the C Server Slot MLOM.​ gen_​text_​input

Run Rack Server Firmware Upgrade

Summary
Trigger a firmware upgrade on a rack server.
Description
This task triggers a firmware upgrade on a rack server based on the image profile selected.
Inputs
Input Description Mappable To Type Mandatory
Select Image Profile Choose a firmware image profile.​ cimc_​rack_​server_​firmware_​image_​profile Y
Choose the server platform.​ Only servers matching the platform are listed in the server's field
Server Choose a rack server.​ The firmware upgrade is triggered on the selected server.​ cimc​Server​Identity Y
Outputs
Output Description Type
OUTPUT_​CIMC_​SERVER_​IDENTITY CIMC_​SERVER cimc​Server​Identity
OUTPUT_​RACK_​SERVER_​FIRMWARE_​IMAGE_​PROFILE_​NAME CIMC_​RACK_​SERVER_​FIRWARE_​IMAGE_​PROFILE cimc_​rack_​server_​firmware_​image_​profile

Select Rack Server

Summary
Select a rack server profile.
Description
This task selects a rack server profile.
Inputs
Input Description Mappable To Type Mandatory
Select Rack Server Choose the rack server cimc​Server​Identity Y
Outputs
Output Description Type
OUTPUT_​CIMC_​SERVER_​IDENTITY CIMC_​SERVER cimc​Server​Identity
OUTPUT_​CIMC_​SERVER_​SLOT_​MAC_​ADDRESS MAC Address of the Server Slots.​ gen_​text_​input
OUTPUT_​CIMC_​SERVER_​SLOT_​L_​1G_​NIC1_​MAC_​ADDRESS MAC Address output of 1G NIC1 (SLOT L) (Example: L@20:00:00:25:b5:00:aa:a1) gen_​text_​input
OUTPUT_​CIMC_​SERVER_​SLOT_​L_​1G_​NIC2_​MAC_​ADDRESS MAC Address output of 1G NIC2 (SLOT L) (Example: vhba1@20:00:00:25:b5:00:aa:a1) gen_​text_​input
OUTPUT_​CIMC_​SERVER_​SLOT_​MLOM_​10G_​v​NIC1_​MAC_​ADDRESS MAC Address output of 10G v​NIC1 (VIC on MLOM SLOT) (Example: MLOM@20:00:00:25:b5:00:aa:a1) gen_​text_​input
OUTPUT_​CIMC_​SERVER_​SLOT_​MLOM_​10G_​v​NIC2_​MAC_​ADDRESS MAC Address output of 10G v​NIC2 (VIC on MLOM SLOT) (Example: MLOM@20:00:00:25:b5:00:aa:a1) gen_​text_​input
OUTPUT_​CIMC_​SERVER_​SLOT_​MLOM_​10G_​v​NIC3_​MAC_​ADDRESS MAC Address output of 10G v​NIC3 (VIC on MLOM SLOT) (Example: MLOM@20:00:00:25:b5:00:aa:a1) gen_​text_​input
OUTPUT_​CIMC_​SERVER_​SLOT_​MLOM_​10G_​v​NIC4_​MAC_​ADDRESS MAC Address output of 10G v​NIC4 (VIC on MLOM SLOT) (Example: MLOM@20:00:00:25:b5:00:aa:a1) gen_​text_​input
OUTPUT_​CIMC_​SERVER_​SLOT_​MLOM_​10G_​v​NIC5_​MAC_​ADDRESS MAC Address output of 10G v​NIC5 (VIC on MLOM SLOT) (Example: MLOM@20:00:00:25:b5:00:aa:a1) gen_​text_​input
OUTPUT_​CIMC_​SERVER_​SLOT_​MLOM_​10G_​v​NIC6_​MAC_​ADDRESS MAC Address output of 10G v​NIC6 (VIC on MLOM SLOT) (Example: MLOM@20:00:00:25:b5:00:aa:a1) gen_​text_​input
OUTPUT_​CIMC_​SERVER_​SLOT_​1_​VIC_​10G_​v​NIC1_​MAC_​ADDRESS MAC Address output of 10G v​NIC1 (VIC on PCI SLOT) (Example: 1@20:00:00:25:b5:00:aa:a1) gen_​text_​input
OUTPUT_​CIMC_​SERVER_​SLOT_​1_​VIC_​10G_​v​NIC2_​MAC_​ADDRESS MAC Address output of 10G v​NIC2 (VIC on PCI SLOT) (Example: 1@20:00:00:25:b5:00:aa:a1) gen_​text_​input
OUTPUT_​CIMC_​SERVER_​SLOT_​2_​VIC_​10G_​v​NIC1_​MAC_​ADDRESS MAC Address output of 10G v​NIC1 (VIC on PCI SLOT) (Example: 2@20:00:00:25:b5:00:aa:a1) gen_​text_​input
OUTPUT_​CIMC_​SERVER_​SLOT_​2_​VIC_​10G_​v​NIC2_​MAC_​ADDRESS MAC Address output of 10G v​NIC2 (VIC on PCI SLOT) (Example: 2@20:00:00:25:b5:00:aa:a1) gen_​text_​input
OUTPUT_​CIMC_​SERVER_​SLOT_​3_​VIC_​10G_​v​NIC1_​MAC_​ADDRESS MAC Address output of 10G v​NIC1 (VIC on PCI SLOT) (Example: 3@20:00:00:25:b5:00:aa:a1) gen_​text_​input
OUTPUT_​CIMC_​SERVER_​SLOT_​3_​VIC_​10G_​v​NIC2_​MAC_​ADDRESS MAC Address output of 10G v​NIC2 (VIC on PCI SLOT) (Example: 3@20:00:00:25:b5:00:aa:a1) gen_​text_​input
OUTPUT_​CIMC_​SERVER_​SLOT_​4_​VIC_​10G_​v​NIC1_​MAC_​ADDRESS MAC Address output of 10G v​NIC1 (VIC on PCI SLOT) (Example: 4@20:00:00:25:b5:00:aa:a1) gen_​text_​input
OUTPUT_​CIMC_​SERVER_​SLOT_​4_​VIC_​10G_​v​NIC2_​MAC_​ADDRESS MAC Address output of 10G v​NIC2 (VIC on PCI SLOT) (Example: 4@20:00:00:25:b5:00:aa:a1) gen_​text_​input
OUTPUT_​CIMC_​SERVER_​SLOT_​5_​VIC_​10G_​v​NIC1_​MAC_​ADDRESS MAC Address output of 10G v​NIC1 (VIC on PCI SLOT) (Example: 5@20:00:00:25:b5:00:aa:a1) gen_​text_​input
OUTPUT_​CIMC_​SERVER_​SLOT_​5_​VIC_​10G_​v​NIC2_​MAC_​ADDRESS MAC Address output of 10G v​NIC2 (VIC on PCI SLOT) (Example: 5@20:00:00:25:b5:00:aa:a1) gen_​text_​input
OUTPUT_​CIMC_​SERVER_​SLOT_​6_​VIC_​10G_​v​NIC1_​MAC_​ADDRESS MAC Address output of 10G v​NIC1 (VIC on PCI SLOT) (Example: 6@20:00:00:25:b5:00:aa:a1) gen_​text_​input
OUTPUT_​CIMC_​SERVER_​SLOT_​6_​VIC_​10G_​v​NIC2_​MAC_​ADDRESS MAC Address output of 10G v​NIC2 (VIC on PCI SLOT) (Example: 6@20:00:00:25:b5:00:aa:a1) gen_​text_​input
OUTPUT_​CIMC_​SERVER_​SLOT_​7_​VIC_​10G_​v​NIC1_​MAC_​ADDRESS MAC Address output of 10G v​NIC1 (VIC on PCI SLOT) (Example: 7@20:00:00:25:b5:00:aa:a1) gen_​text_​input
OUTPUT_​CIMC_​SERVER_​SLOT_​7_​VIC_​10G_​v​NIC2_​MAC_​ADDRESS MAC Address output of 10G v​NIC2 (VIC on PCI SLOT) (Example: 7@20:00:00:25:b5:00:aa:a1) gen_​text_​input
OUTPUT_​CIMC_​SERVER_​SLOT_​8_​VIC_​10G_​v​NIC1_​MAC_​ADDRESS MAC Address output of 10G v​NIC1 (VIC on PCI SLOT) (Example: 8@20:00:00:25:b5:00:aa:a1) gen_​text_​input
OUTPUT_​CIMC_​SERVER_​SLOT_​8_​VIC_​10G_​v​NIC2_​MAC_​ADDRESS MAC Address output of 10G v​NIC2 (VIC on PCI SLOT) (Example: 8@20:00:00:25:b5:00:aa:a1) gen_​text_​input
OUTPUT_​CIMC_​SERVER_​SLOT_​M_​VIC_​10G_​v​NIC1_​MAC_​ADDRESS MAC Address output of 10G v​NIC1 (VIC on PCI SLOT) (Example: M@20:00:00:25:b5:00:aa:a1) gen_​text_​input
OUTPUT_​CIMC_​SERVER_​SLOT_​M_​VIC_​10G_​v​NIC2_​MAC_​ADDRESS MAC Address output of 10G v​NIC2 (VIC on PCI SLOT) (Example: M@20:00:00:25:b5:00:aa:a1) gen_​text_​input
OUTPUT_​CIMC_​SERVER_​SLOT_​HBA_​VIC_​10G_​v​NIC1_​MAC_​ADDRESS MAC Address output of 10G v​NIC1 (VIC on PCI SLOT) (Example: HBA@20:00:00:25:b5:00:aa:a1) gen_​text_​input
OUTPUT_​CIMC_​SERVER_​SLOT_​HBA_​VIC_​10G_​v​NIC2_​MAC_​ADDRESS MAC Address output of 10G v​NIC2 (VIC on PCI SLOT) (Example: HBA@20:00:00:25:b5:00:aa:a1) gen_​text_​input
OUTPUT_​CIMC_​SERVER_​SLOT_​MLOM_​VIC_​10G_​v​NIC1_​MAC_​ADDRESS MAC Address output of 10G v​NIC1 (VIC on PCI SLOT) (Example: MLOM@20:00:00:25:b5:00:aa:a1) gen_​text_​input
OUTPUT_​CIMC_​SERVER_​SLOT_​MLOM_​VIC_​10G_​v​NIC2_​MAC_​ADDRESS MAC Address output of 10G v​NIC2 (VIC on PCI SLOT) (Example: MLOM@20:00:00:25:b5:00:aa:a1) gen_​text_​input
OUTPUT_​CIMC_​SERVER_​SLOTS_​VHBA_​WWNNADDRESS Name and WWNN of the virtual Host Bus Adapter that was created as part of rack server profile.​ (Example: L@20:00:00:25:b5:00:aa:a1) gen_​text_​input
OUTPUT_​CIMC_​SERVER_​SLOTS_​VHBA_​WWPNADDRESS Name and WWPN of the virtual Host Bus Adapter that was created as part of rack server profile.​ (Example: L@20:00:00:25:b5:00:aa:a1) gen_​text_​input
OUTPUT_​CIMC_​SERVER_​SLOT_​MLOM_​10G_​VHBA1_​WWNN_​ADDRESS WWNN Address output of 10G v​HBA1 (VIC on MLOM SLOT) (Example: MLOM@20:00:00:25:b5:00:aa:a1) gen_​text_​input
OUTPUT_​CIMC_​SERVER_​SLOT_​MLOM_​10G_​VHBA2_​WWNN_​ADDRESS WWNN Address output of 10G v​HBA2 (VIC on MLOM SLOT) (Example: MLOM@20:00:00:25:b5:00:aa:a1) gen_​text_​input
OUTPUT_​CIMC_​SERVER_​SLOT_​MLOM_​10G_​VHBA1_​WWPN_​ADDRESS WWPN Address output of 10G v​HBA1 (VIC on MLOM SLOT) (Example: MLOM@20:00:00:25:b5:00:aa:a1) gen_​text_​input
OUTPUT_​CIMC_​SERVER_​SLOT_​MLOM_​10G_​VHBA2_​WWPN_​ADDRESS WWPN Address output of 10G v​HBA2 (VIC on MLOM SLOT) (Example: MLOM@20:00:00:25:b5:00:aa:a1) gen_​text_​input
OUTPUT_​CIMC_​SERVER_​SLOT_​1_​VIC_​10G_​VHBA1_​WWNN_​ADDRESS WWNN Address output of 10G v​HBA1 (VIC on PCI SLOT) (Example: 1@20:00:00:25:b5:00:aa:a1) gen_​text_​input
OUTPUT_​CIMC_​SERVER_​SLOT_​1_​VIC_​10G_​VHBA2_​WWNN_​ADDRESS WWNN Address output of 10G v​HBA2 (VIC on PCI SLOT) (Example: 1@20:00:00:25:b5:00:aa:a1) gen_​text_​input
OUTPUT_​CIMC_​SERVER_​SLOT_​2_​VIC_​10G_​VHBA1_​WWNN_​ADDRESS WWNN Address output of 10G v​HBA1 (VIC on PCI SLOT) (Example: 2@20:00:00:25:b5:00:aa:a1) gen_​text_​input
OUTPUT_​CIMC_​SERVER_​SLOT_​2_​VIC_​10G_​VHBA2_​WWNN_​ADDRESS WWNN Address output of 10G v​HBA2 (VIC on PCI SLOT) (Example: 2@20:00:00:25:b5:00:aa:a1) gen_​text_​input
OUTPUT_​CIMC_​SERVER_​SLOT_​3_​VIC_​10G_​VHBA1_​WWNN_​ADDRESS WWNN Address output of 10G v​HBA1 (VIC on PCI SLOT) (Example: 3@20:00:00:25:b5:00:aa:a1) gen_​text_​input
OUTPUT_​CIMC_​SERVER_​SLOT_​3_​VIC_​10G_​VHBA2_​WWNN_​ADDRESS WWNN Address output of 10G v​HBA2 (VIC on PCI SLOT) (Example: 3@20:00:00:25:b5:00:aa:a1) gen_​text_​input
OUTPUT_​CIMC_​SERVER_​SLOT_​4_​VIC_​10G_​VHBA1_​WWNN_​ADDRESS WWNN Address output of 10G v​HBA1 (VIC on PCI SLOT) (Example: 4@20:00:00:25:b5:00:aa:a1) gen_​text_​input
OUTPUT_​CIMC_​SERVER_​SLOT_​4_​VIC_​10G_​VHBA2_​WWNN_​ADDRESS WWNN Address output of 10G v​HBA2 (VIC on PCI SLOT) (Example: 4@20:00:00:25:b5:00:aa:a1) gen_​text_​input
OUTPUT_​CIMC_​SERVER_​SLOT_​5_​VIC_​10G_​VHBA1_​WWNN_​ADDRESS WWNN Address output of 10G v​HBA1 (VIC on PCI SLOT) (Example: 5@20:00:00:25:b5:00:aa:a1) gen_​text_​input
OUTPUT_​CIMC_​SERVER_​SLOT_​5_​VIC_​10G_​VHBA2_​WWNN_​ADDRESS WWNN Address output of 10G v​HBA2 (VIC on PCI SLOT) (Example: 5@20:00:00:25:b5:00:aa:a1) gen_​text_​input
OUTPUT_​CIMC_​SERVER_​SLOT_​6_​VIC_​10G_​VHBA1_​WWNN_​ADDRESS WWNN Address output of 10G v​HBA1 (VIC on PCI SLOT) (Example: 6@20:00:00:25:b5:00:aa:a1) gen_​text_​input
OUTPUT_​CIMC_​SERVER_​SLOT_​6_​VIC_​10G_​VHBA2_​WWNN_​ADDRESS WWNN Address output of 10G v​HBA2 (VIC on PCI SLOT) (Example: 6@20:00:00:25:b5:00:aa:a1) gen_​text_​input
OUTPUT_​CIMC_​SERVER_​SLOT_​7_​VIC_​10G_​VHBA1_​WWNN_​ADDRESS WWNN Address output of 10G v​HBA1 (VIC on PCI SLOT) (Example: 7@20:00:00:25:b5:00:aa:a1) gen_​text_​input
OUTPUT_​CIMC_​SERVER_​SLOT_​7_​VIC_​10G_​VHBA2_​WWNN_​ADDRESS WWNN Address output of 10G v​HBA2 (VIC on PCI SLOT) (Example: 7@20:00:00:25:b5:00:aa:a1) gen_​text_​input
OUTPUT_​CIMC_​SERVER_​SLOT_​8_​VIC_​10G_​VHBA1_​WWNN_​ADDRESS WWNN Address output of 10G v​HBA1 (VIC on PCI SLOT) (Example: 8@20:00:00:25:b5:00:aa:a1) gen_​text_​input
OUTPUT_​CIMC_​SERVER_​SLOT_​8_​VIC_​10G_​VHBA2_​WWNN_​ADDRESS WWNN Address output of 10G v​HBA2 (VIC on PCI SLOT) (Example: 8@20:00:00:25:b5:00:aa:a1) gen_​text_​input
OUTPUT_​CIMC_​SERVER_​SLOT_​M_​VIC_​10G_​VHBA1_​WWNN_​ADDRESS WWNN Address output of 10G v​HBA1 (VIC on PCI SLOT) (Example: M@20:00:00:25:b5:00:aa:a1) gen_​text_​input
OUTPUT_​CIMC_​SERVER_​SLOT_​M_​10G_​VHBA2_​WWNN_​ADDRESS WWNN Address output of 10G v​HBA2 (VIC on PCI SLOT) (Example: M@20:00:00:25:b5:00:aa:a1) gen_​text_​input
OUTPUT_​CIMC_​SERVER_​SLOT_​HBA_​VIC_​10G_​VHBA1_​WWNN_​ADDRESS WWNN Address output of 10G v​HBA1 (VIC on PCI SLOT) (Example: HBA@20:00:00:25:b5:00:aa:a1) gen_​text_​input
OUTPUT_​CIMC_​SERVER_​SLOT_​HBA_​VIC_​10G_​VHBA2_​WWNN_​ADDRESS WWNN Address output of 10G v​HBA2 (VIC on PCI SLOT) (Example: HBA@20:00:00:25:b5:00:aa:a1) gen_​text_​input
OUTPUT_​CIMC_​SERVER_​SLOT_​MLOM_​VIC_​10G_​VHBA1_​WWNN_​ADDRESS WWNN Address output of 10G v​HBA1 (VIC on PCI SLOT) (Example: MLOM@20:00:00:25:b5:00:aa:a1) gen_​text_​input
OUTPUT_​CIMC_​SERVER_​SLOT_​MLOM_​VIC_​10G_​VHBA2_​WWNN_​ADDRESS WWNN Address output of 10G v​HBA2 (VIC on PCI SLOT) (Example: MLOM@20:00:00:25:b5:00:aa:a1) gen_​text_​input
OUTPUT_​CIMC_​SERVER_​SLOT_​1_​VIC_​10G_​VHBA1_​WWPN_​ADDRESS WWNN Address output of 10G v​HBA1 (VIC on PCI SLOT) (Example: 1@20:00:00:25:b5:00:aa:a1) gen_​text_​input
OUTPUT_​CIMC_​SERVER_​SLOT_​1_​VIC_​10G_​VHBA2_​WWPN_​ADDRESS WWNN Address output of 10G v​HBA2 (VIC on PCI SLOT) (Example: 1@20:00:00:25:b5:00:aa:a1) gen_​text_​input
OUTPUT_​CIMC_​SERVER_​SLOT_​2_​VIC_​10G_​VHBA1_​WWPN_​ADDRESS WWNN Address output of 10G v​HBA1 (VIC on PCI SLOT) (Example: 2@20:00:00:25:b5:00:aa:a1) gen_​text_​input
OUTPUT_​CIMC_​SERVER_​SLOT_​2_​VIC_​10G_​VHBA2_​WWPN_​ADDRESS WWNN Address output of 10G v​HBA2 (VIC on PCI SLOT) (Example: 2@20:00:00:25:b5:00:aa:a1) gen_​text_​input
OUTPUT_​CIMC_​SERVER_​SLOT_​3_​VIC_​10G_​VHBA1_​WWPN_​ADDRESS WWNN Address output of 10G v​HBA1 (VIC on PCI SLOT) (Example: 3@20:00:00:25:b5:00:aa:a1) gen_​text_​input
OUTPUT_​CIMC_​SERVER_​SLOT_​3_​VIC_​10G_​VHBA2_​WWPN_​ADDRESS WWNN Address output of 10G v​HBA2 (VIC on PCI SLOT) (Example: 3@20:00:00:25:b5:00:aa:a1) gen_​text_​input
OUTPUT_​CIMC_​SERVER_​SLOT_​4_​VIC_​10G_​VHBA1_​WWPN_​ADDRESS WWNN Address output of 10G v​HBA1 (VIC on PCI SLOT) (Example: 4@20:00:00:25:b5:00:aa:a1) gen_​text_​input
OUTPUT_​CIMC_​SERVER_​SLOT_​4_​VIC_​10G_​VHBA2_​WWPN_​ADDRESS WWNN Address output of 10G v​HBA2 (VIC on PCI SLOT) (Example: 4@20:00:00:25:b5:00:aa:a1) gen_​text_​input
OUTPUT_​CIMC_​SERVER_​SLOT_​5_​VIC_​10G_​VHBA1_​WWPN_​ADDRESS WWNN Address output of 10G v​HBA1 (VIC on PCI SLOT) (Example: 5@20:00:00:25:b5:00:aa:a1) gen_​text_​input
OUTPUT_​CIMC_​SERVER_​SLOT_​5_​VIC_​10G_​VHBA2_​WWPN_​ADDRESS WWNN Address output of 10G v​HBA2 (VIC on PCI SLOT) (Example: 5@20:00:00:25:b5:00:aa:a1) gen_​text_​input
OUTPUT_​CIMC_​SERVER_​SLOT_​6_​VIC_​10G_​VHBA1_​WWPN_​ADDRESS WWNN Address output of 10G v​HBA1 (VIC on PCI SLOT) (Example: 6@20:00:00:25:b5:00:aa:a1) gen_​text_​input
OUTPUT_​CIMC_​SERVER_​SLOT_​6_​VIC_​10G_​VHBA2_​WWPN_​ADDRESS WWNN Address output of 10G v​HBA2 (VIC on PCI SLOT) (Example: 6@20:00:00:25:b5:00:aa:a1) gen_​text_​input
OUTPUT_​CIMC_​SERVER_​SLOT_​7_​VIC_​10G_​VHBA1_​WWPN_​ADDRESS WWNN Address output of 10G v​HBA1 (VIC on PCI SLOT) (Example: 7@20:00:00:25:b5:00:aa:a1) gen_​text_​input
OUTPUT_​CIMC_​SERVER_​SLOT_​7_​VIC_​10G_​VHBA2_​WWPN_​ADDRESS WWNN Address output of 10G v​HBA2 (VIC on PCI SLOT) (Example: 7@20:00:00:25:b5:00:aa:a1) gen_​text_​input
OUTPUT_​CIMC_​SERVER_​SLOT_​8_​VIC_​10G_​VHBA1_​WWPN_​ADDRESS WWNN Address output of 10G v​HBA1 (VIC on PCI SLOT) (Example: 8@20:00:00:25:b5:00:aa:a1) gen_​text_​input
OUTPUT_​CIMC_​SERVER_​SLOT_​8_​VIC_​10G_​VHBA2_​WWPN_​ADDRESS WWNN Address output of 10G v​HBA2 (VIC on PCI SLOT) (Example: 8@20:00:00:25:b5:00:aa:a1) gen_​text_​input
OUTPUT_​CIMC_​SERVER_​SLOT_​M_​VIC_​10G_​VHBA1_​WWPN_​ADDRESS WWNN Address output of 10G v​HBA1 (VIC on PCI SLOT) (Example: M@20:00:00:25:b5:00:aa:a1) gen_​text_​input
OUTPUT_​CIMC_​SERVER_​SLOT_​M_​10G_​VHBA2_​WWPN_​ADDRESS WWNN Address output of 10G v​HBA2 (VIC on PCI SLOT) (Example: M@20:00:00:25:b5:00:aa:a1) gen_​text_​input
OUTPUT_​CIMC_​SERVER_​SLOT_​HBA_​VIC_​10G_​VHBA1_​WWPN_​ADDRESS WWNN Address output of 10G v​HBA1 (VIC on PCI SLOT) (Example: HBA@20:00:00:25:b5:00:aa:a1) gen_​text_​input
OUTPUT_​CIMC_​SERVER_​SLOT_​HBA_​VIC_​10G_​VHBA2_​WWPN_​ADDRESS WWNN Address output of 10G v​HBA2 (VIC on PCI SLOT) (Example: HBA@20:00:00:25:b5:00:aa:a1) gen_​text_​input
OUTPUT_​CIMC_​SERVER_​SLOT_​MLOM_​VIC_​10G_​VHBA1_​WWPN_​ADDRESS WWNN Address output of 10G v​HBA1 (VIC on PCI SLOT) (Example: MLOM@20:00:00:25:b5:00:aa:a1) gen_​text_​input
OUTPUT_​CIMC_​SERVER_​SLOT_​MLOM_​VIC_​10G_​VHBA2_​WWPN_​ADDRESS WWNN Address output of 10G v​HBA2 (VIC on PCI SLOT) (Example: MLOM@20:00:00:25:b5:00:aa:a1) gen_​text_​input

Unassign Rack Server from Group

Summary
Unassign a rack server from a group.
Description
This task unassigns a rack server from a group.
Inputs
Input Description Mappable To Type Mandatory
Select Rack Server Choose the rack server cimc​Server​Identity Y
Outputs
No Outputs

Unconfigure Rack Server

Summary
Dissociates a rack server profile.
Description
This task dissociates a rack server profile from a CIMC server.
Inputs
Input Description Mappable To Type Mandatory
Select Rack Server Choose the rack server from which to remove the rack server profile cimc​Server​Identity Y
Outputs
Output Description Type
OUTPUT_​CIMC_​SERVER_​IDENTITY CIMC_​SERVER cimc​Server​Identity

Upgrade Firmware on multiple UCS rack servers

Summary
Upgrade Firmware on multiple Cisco UCS rack servers
Description
Upgrade Firmware on multiple Cisco UCS rack servers
Inputs
Input Description Mappable To Type Mandatory
UCS Rack Servers Select UCS Rack Servers for upgrade cimc​Server​Identity
Image profile Select Image Profile used for upgrading the server cimc_​rack_​server_​firmware_​image_​profile
Time out The default value is 75 min.​ The minimum value is 30 mins and the maximum value is 150 mins gen_​text_​input
Outputs
No Outputs