blob: 788092282b67c97913e4712837f01692c16dbe07 [file] [log] [blame]
*** Settings ***
Documentation Test IPMI sensor IDs.
Resource ../../lib/rest_client.robot
Resource ../../lib/ipmi_client.robot
Resource ../../lib/openbmc_ffdc.robot
Resource ../../lib/state_manager.robot
Library ../../data/model.py
Resource ../../lib/boot_utils.robot
Resource ../../lib/utils.robot
Test Teardown Test Teardown Execution
*** Test Cases ***
DIMM Present And Not Present
[Documentation] Verify the IPMI sensor for DIMM3 present and not present.
[Tags] DIMM_Present_And_Not_Present
# Set the dimm3 Present to 1
Run IPMI Command
... 0x04 0x30 0xac 0xa9 0x00 0x40 0x00 0x00 0x00 0x00 0x20 0x00
Verify The Attribute
... ${HOST_INVENTORY_URI}system/chassis/motherboard/dimm3 Present ${1}
# Set the dimm3 Present to 0
Run IPMI Command
... 0x04 0x30 0xac 0xa9 0xff 0x00 0x00 0x40 0x00 0x00 0x20 0x00
Verify The Attribute
... ${HOST_INVENTORY_URI}system/chassis/motherboard/dimm3 Present ${0}
DIMM Functional And Not Functional
[Documentation] Verify that the DIMM3 is functional.
[Tags] DIMM_Functional_And_Not_Functional
# Set the dimm3 Functional to 0
Run IPMI Command
... 0x04 0x30 0xac 0x00 0x00 0x10 0x00 0x00 0x00 0x00 0x20 0x00
Verify The Attribute
... ${HOST_INVENTORY_URI}system/chassis/motherboard/dimm3
... Functional ${0}
# Set the dimm3 Functional to 1
Run IPMI Command
... 0x04 0x30 0xac 0x00 0x00 0x00 0x00 0x10 0x00 0x00 0x20 0x00
Verify The Attribute
... ${HOST_INVENTORY_URI}system/chassis/motherboard/dimm3
... Functional ${1}
CPU Functional
[Documentation] Verify the IPMI sensor for CPU functional.
[Tags] CPU_Functional
[Template] Check Functional Bit
# sensor_id component
0x5a cpu0
CPU Not Functional
[Documentation] Verify the IPMI sensor for CPU not functional.
[Tags] CPU_Not_Functional
[Template] Check Not Functional Bit
# sensor_id component
0x5a cpu0
GPU Functional
[Documentation] Verify the IPMI sensor GPU for functional.
[Tags] GPU_Functional
[Template] Check Functional Bit
# sensor_id component
0xC5 gv100card0
GPU Not Functional
[Documentation] Verify the IPMI sensor GPU for not functional.
[Tags] GPU_Not_Functional
[Template] Check Not Functional Bit
# sensor_id component
0xC5 gv100card0
Core Present
[Documentation] Verify the IPMI sensor for core present.
[Tags] Core_Present
[Template] Check Present Bit
# sensor_id component
0x1e cpu0/core4
Core Not Present
[Documentation] Verify the IPMI sensor for core not present.
[Tags] Core_Not_Present
[Template] Check Not Present Bit
# sensor_id component
0x1e cpu0/core4
Core Functional
[Documentation] Verify the IPMI sensor for core functional.
[Tags] Core_Functional
[Template] Check Functional Bit
# sensor_id component
0x1e cpu0/core4
Core Not Functional
[Documentation] Verify the IPMI sensor for core not functional.
[Tags] Core_Not_Functional
[Template] Check Not Functional Bit
# sensor_id component
0x1e cpu0/core4
# Operating System State Test Cases.
Set BootProgress To OSStart And Verify
[Documentation] Set BootProgress To OSStart and verify.
[Tags] Set_BootProgress_To_OSStart_And_Verify
[Template] Check BootProgress
# BootProgressID BootProgress
0x13 ${OS_BOOT_START}
Set OperatingSystemState To CBoot And Verify
[Documentation] Set Operating System State to "CBoot"
... and verify using REST.
[Tags] Set_OperatingSystemState_To_CBoot_And_Verify
[Template] Check OperatingSystemState
# OperatingSystemStateID OperatingSystemState
0x02 ${OS_BOOT_CBoot}
Set OperatingSystemState To PXEBoot And Verify
[Documentation] Set Operating System State to "PXEBoot"
... and verify using REST.
[Tags] Set_OperatingSystemState_To_PXEBoot_And_Verify
[Template] Check OperatingSystemState
# OperatingSystemStateID OperatingSystemState
0x05 ${OS_BOOT_PXE}
Set OperatingSystemState To BootComplete And Verify
[Documentation] Set Operating System State to "BootComplete"
... and verify using REST.
[Tags] Set_OperatingSystemState_To_BootComplete_And_Verify
[Template] Check OperatingSystemState
# OperatingSystemStateID OperatingSystemState
0x40 ${OS_BOOT_COMPLETE}
Set OperatingSystemState To CDROMBoot And Verify
[Documentation] Set Operating System State to "CDROMBoot"
... and verify using REST.
[Tags] Set_OperatingSystemState_To_CDROMBoot_And_Verify
[Template] Check OperatingSystemState
# OperatingSystemStateID OperatingSystemState
0x10 ${OS_BOOT_CDROM}
Set OperatingSystemState To ROMBoot And Verify
[Documentation] Set Operating System State to "ROMBoot"
... and verify using REST.
[Tags] Set_OperatingSystemState_To_ROMBoot_And_Verify
[Template] Check OperatingSystemState
# OperatingSystemStateID OperatingSystemState
0x20 ${OS_BOOT_ROM}
Set OperatingSystemState To DiagBoot And Verify
[Documentation] Set Operating System State to "DiagBoot"
... and verify using REST.
[Tags] Set_OperatingSystemState_To_DiagBoot_And_Verify
[Template] Check OperatingSystemState
# OperatingSystemStateID OperatingSystemState
0x08 ${OS_BOOT_DiagBoot}
# Boot Progress Test Cases.
Set BootProgress To MemoryInit And Verify
[Documentation] Set BootProgress to "MemoryInit" and verify.
[Tags] Set_BootProgress_To_MemoryInit_And_Verify
[Template] Check BootProgress
# BootProgressID BootProgress
0x01 ${OS_BOOT_MEM}
Set BootProgress To MotherboardInit And Verify
[Documentation] Set BootProgress to "MotherboardInit" and verify.
[Tags] Set_BootProgress_To_MotherboardInit_And_Verify
[Template] Check BootProgress
# BootProgressID BootProgress
0x14 ${OS_BOOT_MOTHERBOARD}
Set BootProgress To SecondaryProcInit And Verify
[Documentation] Set BootProgress to "SecondaryProcInit" and verify.
[Tags] Set_BootProgress_To_SecondaryProcInit_And_Verify
[Template] Check BootProgress
# BootProgressID BootProgress
0x03 ${OS_BOOT_SECPCI}
Set BootProgress To PCIinit And Verify
[Documentation] Set BootProgress to "PCIinit" and verify.
[Tags] Set_BootProgress_To_PCIinit_And_Verify
[Template] Check BootProgress
#BootProgressID BootProgress
0x07 ${OS_BOOT_PCI}
Set BootProgress To Unspecified And Verify
[Documentation] Set BootProgress to "Unspecified" and verify.
[Tags] Set_BootProgress_To_Unspecified_And_Verify
[Template] Check BootProgress
# BootProgressID BootProgress
0x00 ${OS_BOOT_OFF}
TPM Enable and Disable
[Documentation] Enable and disable TPM.
[Tags] TPM_Enable_and_Disable
# Set the TPMEnable to 0
Run IPMI Command
... 0x04 0x30 0xD7 0x00 0x00 0x01 0x00 0x00 0x00 0x00 0x20 0x00
Verify The Attribute ${CONTROL_URI}/host0/TPMEnable TPMEnable ${0}
# Set the TPMEnable to 1
Run IPMI Command
... 0x04 0x30 0xD7 0x00 0x00 0x02 0x00 0x00 0x00 0x00 0x20 0x00
Verify The Attribute ${CONTROL_URI}/host0/TPMEnable TPMEnable ${1}
Autoreboot Enable and Disable
[Documentation] Enable and disable Autoreboot.
[Tags] Autoreboot_Enable_and_Disable
# Set the TPMEnable to 0
Run IPMI Command
... 0x04 0x30 0xDA 0x00 0x00 0x01 0x00 0x00 0x00 0x00 0x20 0x00
Verify The Attribute ${CONTROL_URI}/host0/auto_reboot AutoReboot ${0}
# Set the TPMEnable to 1
Run IPMI Command
... 0x04 0x30 0xDA 0x00 0x00 0x02 0x00 0x00 0x00 0x00 0x20 0x00
Verify The Attribute ${CONTROL_URI}/host0/auto_reboot AutoReboot ${1}
Verify IPMI BT Capabilities Command
[Documentation] Verify IPMI BT capability command response.
[Tags] Verify_IPMI_BT_Capabilities_Command
[Setup] Run Keywords REST Hard Power Off AND REST Power On
${output}= Run IPMI command 0x06 0x36
Should Be True "${output}" == " 01 3f 3f 0a 01"
... msg=Incorrect Output.
OCC Active Disable And Enable
[Documentation] OCC active disable and enable.
[Tags] OCC_Active_Disable_And_Enable
REST Power On stack_mode=skip quiet=1
# Set the OccActive to 0
Run IPMI Command
... 0x04 0x30 0x08 0xa8 0x00 0x01 0x00 0x02 0x00 0x00 0x00 0x00
Verify The Attribute ${OPENPOWER_CONTROL}/occ0 OccActive ${0}
# Set the OccActive to 1
Run IPMI Command
... 0x04 0x30 0x08 0xa8 0x00 0x02 0x00 0x01 0x00 0x00 0x00 0x00
Verify The Attribute ${OPENPOWER_CONTROL}/occ0 OccActive ${1}
*** Keywords ***
Check Present Bit
[Documentation] Set the present field to 1 and verify.
[Arguments] ${sensor_id} ${component}
# Description of argument(s):
# sensor_id Corresponding to OperatingSystemState.
# component Component name.
Run IPMI Command
... 0x04 0x30 ${sensor_id} 0xa9 0x00 0x80 0x00 0x00 0x00 0x00 0x20 0x00
Verify The Attribute
... ${HOST_INVENTORY_URI}system/chassis/motherboard/${component}
... Present ${1}
Check Not Present Bit
[Documentation] Set the present field to 1 and verify.
[Arguments] ${sensor_id} ${component}
# Description of argument(s):
# sensor_id Corresponding to OperatingSystemState.
# component Component name.
Run IPMI Command
... 0x04 0x30 ${sensor_id} 0xa9 0x00 0x00 0x00 0x80 0x00 0x00 0x20 0x00
Verify The Attribute
... ${HOST_INVENTORY_URI}system/chassis/motherboard/${component}
... Present ${0}
Check Functional Bit
[Documentation] Set the functional to 1 and verify.
[Arguments] ${sensor_id} ${component}
# Description of argument(s):
# sensor_id Corresponding to OperatingSystemState.
# component Component name.
Run IPMI Command
... 0x04 0x30 ${sensor_id} 0x00 0x00 0x00 0x00 0x00 0x01 0x00 0x20 0x00
Verify The Attribute
... ${HOST_INVENTORY_URI}system/chassis/motherboard/${component}
... Functional ${1}
Check Not Functional Bit
[Documentation] Set the functional to 0 and verify.
[Arguments] ${sensor_id} ${component}
# Description of argument(s):
# sensor_id Corresponding to OperatingSystemState.
# component Component name.
Run IPMI Command
... 0x04 0x30 ${sensor_id} 0xa9 0xff 0x00 0x01 0x00 0x00 0x00 0x20 0x00
Verify The Attribute
... ${HOST_INVENTORY_URI}system/chassis/motherboard/${component}
... Functional ${0}
Check OperatingSystemState
[Documentation] Set OperatingSystemState and verify.
[Arguments] ${sensor_id} ${OperatingSystemState}
# Description of argument(s):
# sensor_id Corresponding to OperatingSystemState.
# OperatingSystemState OperatingSystemState to be set.
Run IPMI Command
... 0x04 0x30 0x05 0xa9 0x00 ${sensor_id} 0x00 0x00 0x00 0x00 0x00 0x00
${resp}= Read Attribute ${SYSTEM_STATE_URI}/host0 OperatingSystemState
Should Be Equal ${OperatingSystemState} ${resp}
Check BootProgress
[Documentation] Set the Bootprogress and verify.
[Arguments] ${BootProgressID} ${BootProgress}
# Description of argument(s):
# BootProgressID Corresponding to BootProgress.
# BootProgress BootProgress to be set.
Run IPMI Command
... 0x04 0x30 0x03 0xa8 0x00 0x04 0x00 0x00 0x00 0x00 ${BootProgressID} 0x00
${resp}= Read Attribute ${SYSTEM_STATE_URI}/host0 BootProgress
Should Be Equal ${BootProgress} ${resp}
Test Teardown Execution
[Documentation] Do the post test teardown.
... 1. Capture FFDC on test failure.
... 2. Close all open SSH connections.
FFDC On Test Case Fail