blob: 28d990694596462b85ea9641cb651f0ef0c50979 [file] [log] [blame]
*** Settings ***
Documentation Validate IPMI sensor IDs using Redfish.
Resource ../lib/ipmi_client.robot
Resource ../lib/openbmc_ffdc.robot
Resource ../lib/boot_utils.robot
Library ../lib/ipmi_utils.py
Variables ../data/ipmi_raw_cmd_table.py
Test Setup Redfish.Login
Test Teardown Run Keywords FFDC On Test Case Fail AND
... Redfish.Logout
*** Variables ***
${allowed_temp_diff} ${2}
${allowed_power_diff} ${10}
*** Test Cases ***
Verify IPMI Temperature Readings using Redfish
[Documentation] Verify temperatures from IPMI sensor reading command using Redfish.
[Tags] Verify_IPMI_Temperature_Readings_using_Redfish
[Template] Get Temperature Reading And Verify In Redfish
# command_type sensor_id member_id
IPMI pcie pcie
IPMI ambient ambient
Verify DCMI Temperature Readings using Redfish
[Documentation] Verify temperatures from DCMI sensor reading command using Redfish.
[Tags] Verify_DCMI_Temperature_Readings_using_Redfish
[Template] Get Temperature Reading And Verify In Redfish
# command_type sensor_id member_id
DCMI pcie pcie
DCMI ambient ambient
Test Ambient Temperature Via IPMI
[Documentation] Test ambient temperature via IPMI and verify using Redfish.
[Tags] Test_Ambient_Temperature_Via_IPMI
# Example of IPMI dcmi get_temp_reading output:
# Entity ID Entity Instance Temp. Readings
# Inlet air temperature(40h) 1 +19 C
# CPU temperature sensors(41h) 5 +51 C
# CPU temperature sensors(41h) 6 +50 C
# CPU temperature sensors(41h) 7 +50 C
# CPU temperature sensors(41h) 8 +50 C
# CPU temperature sensors(41h) 9 +50 C
# CPU temperature sensors(41h) 10 +48 C
# CPU temperature sensors(41h) 11 +49 C
# CPU temperature sensors(41h) 12 +47 C
# CPU temperature sensors(41h) 8 +50 C
# CPU temperature sensors(41h) 16 +51 C
# CPU temperature sensors(41h) 24 +50 C
# CPU temperature sensors(41h) 32 +43 C
# CPU temperature sensors(41h) 40 +43 C
# Baseboard temperature sensors(42h) 1 +35 C
${temp_reading}= Run IPMI Standard Command dcmi get_temp_reading -N 10
Should Contain ${temp_reading} Inlet air temperature
... msg="Unable to get inlet temperature via DCMI".
${ambient_temp_line}=
... Get Lines Containing String ${temp_reading}
... Inlet air temperature case-insensitive
${ambient_temp_ipmi}= Set Variable ${ambient_temp_line.split('+')[1].strip(' C')}
# Example of ambient temperature via Redfish
#"@odata.id": "/redfish/v1/Chassis/chassis/Thermal#/Temperatures/0",
#"@odata.type": "#Thermal.v1_3_0.Temperature",
#"LowerThresholdCritical": 0.0,
#"LowerThresholdNonCritical": 0.0,
#"MaxReadingRangeTemp": 0.0,
#"MemberId": "ambient",
#"MinReadingRangeTemp": 0.0,
#"Name": "ambient",
#"ReadingCelsius": 24.987000000000002,
#"Status": {
#"Health": "OK",
#"State": "Enabled"
#},
#"UpperThresholdCritical": 35.0,
#"UpperThresholdNonCritical": 25.0
${ambient_temp_redfish}= Get Temperature Reading From Redfish ambient
${ipmi_redfish_temp_diff}=
... Evaluate abs(${ambient_temp_redfish} - ${ambient_temp_ipmi})
Should Be True ${ipmi_redfish_temp_diff} <= ${allowed_temp_diff}
... msg=Ambient temperature above allowed threshold ${allowed_temp_diff}.
Test Power Reading Via IPMI With Host Off
[Documentation] Verify power reading via IPMI with host in off state
[Tags] Test_Power_Reading_Via_IPMI_With_Host_Off
Redfish Power Off stack_mode=skip
${ipmi_reading}= Get IPMI Power Reading
Should Be Equal ${ipmi_reading['instantaneous_power_reading']} 0
... msg=Power reading not zero when power is off.
Test Power Reading Via IPMI With Host Booted
[Documentation] Test power reading via IPMI with host in booted state and
... verify using Redfish.
[Tags] Test_Power_Reading_Via_IPMI_With_Host_Booted
IPMI Power On stack_mode=skip
Wait Until Keyword Succeeds 2 min 30 sec Verify Power Reading Using IPMI And Redfish
Test Baseboard Temperature Via IPMI
[Documentation] Test baseboard temperature via IPMI and verify using Redfish.
[Tags] Test_Baseboard_Temperature_Via_IPMI
# Example of IPMI dcmi get_temp_reading output:
# Entity ID Entity Instance Temp. Readings
# Inlet air temperature(40h) 1 +19 C
# CPU temperature sensors(41h) 5 +51 C
# CPU temperature sensors(41h) 6 +50 C
# CPU temperature sensors(41h) 7 +50 C
# CPU temperature sensors(41h) 8 +50 C
# CPU temperature sensors(41h) 9 +50 C
# CPU temperature sensors(41h) 10 +48 C
# CPU temperature sensors(41h) 11 +49 C
# CPU temperature sensors(41h) 12 +47 C
# CPU temperature sensors(41h) 8 +50 C
# CPU temperature sensors(41h) 16 +51 C
# CPU temperature sensors(41h) 24 +50 C
# CPU temperature sensors(41h) 32 +43 C
# CPU temperature sensors(41h) 40 +43 C
# Baseboard temperature sensors(42h) 1 +35 C
${temp_reading}= Run IPMI Standard Command dcmi get_temp_reading -N 10
Should Contain ${temp_reading} Baseboard temperature sensors
... msg="Unable to get baseboard temperature via DCMI".
${baseboard_temp_line}=
... Get Lines Containing String ${temp_reading}
... Baseboard temperature case-insensitive=True
${baseboard_temp_ipmi}= Set Variable ${baseboard_temp_line.split('+')[1].strip(' C')}
# Example of Baseboard temperature via Redfish
#"@odata.id": "/redfish/v1/Chassis/chassis/Thermal#/Temperatures/9",
#"@odata.type": "#Thermal.v1_3_0.Temperature",
#"LowerThresholdCritical": 0.0,
#"LowerThresholdNonCritical": 0.0,
#"MaxReadingRangeTemp": 0.0,
#"MemberId": "pcie",
#"MinReadingRangeTemp": 0.0,
#"Name": "pcie",
#"ReadingCelsius": 28.687,
#"Status": {
#"Health": "OK",
#"State": "Enabled"
#},
#"UpperThresholdCritical": 70.0,
#"UpperThresholdNonCritical": 60.0
${baseboard_temp_redfish}= Get Temperature Reading From Redfish pcie
Should Be True
... ${baseboard_temp_redfish} - ${baseboard_temp_ipmi} <= ${allowed_temp_diff}
... msg=Baseboard temperature above allowed threshold ${allowed_temp_diff}.
Test Power Reading Via IPMI Raw Command
[Documentation] Test power reading via IPMI raw command and verify
... using Redfish.
[Tags] Test_Power_Reading_Via_IPMI_Raw_Command
IPMI Power On stack_mode=skip
Wait Until Keyword Succeeds 2 min 30 sec Verify Power Reading Via Raw Command
Verify CPU Present
[Documentation] Verify the IPMI sensor for CPU present using Redfish.
[Tags] Verify_CPU_Present
[Template] Enable Present Bit Via IPMI and Verify Using Redfish
# sensor_id component
0x5a cpu0
Verify CPU Not Present
[Documentation] Verify the IPMI sensor for CPU not present using Redfish.
[Tags] Verify_CPU_Not_Present
[Template] Disable Present Bit Via IPMI and Verify Using Redfish
# sensor_id component
0x5a cpu0
Verify GPU Present
[Documentation] Verify the IPMI sensor for GPU present using Redfish.
[Tags] Verify_GPU_Present
[Template] Enable Present Bit Via IPMI and Verify Using Redfish
# sensor_id component
0xC5 gv100card0
Verify GPU Not Present
[Documentation] Verify the IPMI sensor for GPU not present using Redfish.
[Tags] Verify_GPU_Not_Present
[Template] Disable Present Bit Via IPMI and Verify Using Redfish
# sensor_id component
0xC5 gv100card0
Test Sensor Threshold Via IPMI
[Documentation] Test sensor threshold via IPMI and verify using Redfish.
[Tags] Test_Sensor_Threshold_Via_IPMI
[Template] Verify Power Supply Sensor Threshold
# threshold_id component
Upper Non-Critical UpperThresholdNonCritical
Upper Critical UpperThresholdCritical
Lower Non-Critical LowerThresholdNonCritical
Lower Critical LowerThresholdCritical
*** Keywords ***
Get Temperature Reading And Verify In Redfish
[Documentation] Get IPMI or DCMI sensor reading and verify in Redfish.
[Arguments] ${command_type} ${sensor_id} ${member_id}
# Description of argument(s):
# command_type Type of command used to get sensor data (eg. IPMI, DCMI).
# sensor_id Sensor id used to get reading in IPMI or DCMI.
# member_id Member id of sensor data in Redfish.
${ipmi_value}= Run Keyword If '${command_type}' == 'IPMI' Get IPMI Sensor Reading ${sensor_id}
... ELSE Get DCMI Sensor Reading ${sensor_id}
${redfish_value}= Get Temperature Reading From Redfish ${member_id}
Valid Range ${ipmi_value} ${redfish_value-1.000} ${redfish_value+1.000}
Get IPMI Sensor Reading
[Documentation] Get reading from IPMI sensor reading command.
[Arguments] ${sensor_id}
# Description of argument(s):
# sensor_id Sensor id used to get reading in IPMI.
${data}= Run IPMI Standard Command sensor reading ${sensor_id}
# Example reading:
# pcie | 28.500
${sensor_value}= Set Variable ${data.split('| ')[1].strip()}
[Return] ${sensor_value}
Get DCMI Sensor Reading
[Documentation] Get reading from DCMI sensors command.
[Arguments] ${sensor_id}
# Description of argument(s):
# sensor_id Sensor id used to get reading in DCMI.
${data}= Run IPMI Standard Command dcmi sensors
${sensor_data}= Get Lines Containing String ${data} ${sensor_id}
# Example reading:
# Record ID 0x00fd: pcie | 28.50 degrees C | ok
${sensor_value}= Set Variable ${sensor_data.split(' | ')[1].strip('degrees C').strip()}
[Return] ${sensor_value}
Get Temperature Reading From Redfish
[Documentation] Get temperature reading from Redfish.
[Arguments] ${member_id}
# Description of argument(s):
# member_id Member id of temperature.
@{redfish_readings}= Redfish.Get Attribute /redfish/v1/Chassis/${CHASSIS_ID}/Thermal Temperatures
FOR ${data} IN @{redfish_readings}
${redfish_value}= Set Variable If '${data}[MemberId]' == '${member_id}'
... ${data}[ReadingCelsius]
Exit For Loop If '${data}[MemberId]' == '${member_id}'
END
[Return] ${redfish_value}
Verify Power Reading Using IPMI And Redfish
[Documentation] Verify power reading using IPMI and Redfish.
# Example of power reading command output via IPMI.
# Instantaneous power reading: 235 Watts
# Minimum during sampling period: 235 Watts
# Maximum during sampling period: 235 Watts
# Average power reading over sample period: 235 Watts
# IPMI timestamp: Thu Jan 1 00:00:00 1970
# Sampling period: 00000000 Seconds.
# Power reading state is: deactivated
${ipmi_reading}= Get IPMI Power Reading
${power_uri_list}= redfish_utils.Get Members URI /redfish/v1/Chassis/ PowerControl
Log List ${power_uri_list}
# Power entries could be seen across different redfish path, remove the URI
# where the attribute is non-existent.
# Example:
# ['/redfish/v1/Chassis/chassis/Power',
# '/redfish/v1/Chassis/motherboard/Power']
FOR ${idx} IN @{power_uri_list}
${power}= redfish_utils.Get Attribute ${idx} PowerControl
Log Dictionary ${power[0]}
# Ensure the path does have the attribute else set to EMPTY as default to skip.
${value}= Get Variable Value ${power[0]['PowerConsumedWatts']} ${EMPTY}
Run Keyword If "${value}" == "${EMPTY}"
... Remove Values From List ${power_uri_list} ${idx}
# Check the next available element in the list.
Continue For Loop If "${value}" == "${EMPTY}"
${ipmi_redfish_power_diff}=
... Evaluate abs(${${power[0]['PowerConsumedWatts']}} - ${ipmi_reading['instantaneous_power_reading']})
Should Be True ${ipmi_redfish_power_diff} <= ${allowed_power_diff}
... msg=Power reading above allowed threshold ${allowed_power_diff}.
END
# Double check, the validation has at least one valid path.
Should Not Be Empty ${power_uri_list}
... msg=Should contain at least one element in the list.
Verify Power Reading Via Raw Command
[Documentation] Get dcmi power reading via IPMI raw command.
${ipmi_raw_output}= Run IPMI Standard Command
... raw ${IPMI_RAW_CMD['power_reading']['Get'][0]}
${power_reading_ipmi}= Set Variable ${ipmi_raw_output.split()[1]}
${power_reading_ipmi}=
... Convert To Integer 0x${power_reading_ipmi}
# Example of power reading via Redfish
# "@odata.id": "/redfish/v1/Chassis/chassis/Power#/PowerControl/0",
# "@odata.type": "#Power.v1_0_0.PowerControl",
# "MemberId": "0",
# "Name": "Chassis Power Control",
# "PowerConsumedWatts": 145.0,
${power}= Redfish.Get Properties /redfish/v1/Chassis/${CHASSIS_ID}/Power
${redfish_reading}= Set Variable ${power['PowerControl'][0]['PowerConsumedWatts']}
${ipmi_redfish_power_diff}=
... Evaluate abs(${redfish_reading} - ${power_reading_ipmi})
Should Be True ${ipmi_redfish_power_diff} <= ${allowed_power_diff}
... msg=Power reading above allowed threshold ${allowed_power_diff}.
Enable Present Bit Via IPMI and Verify Using Redfish
[Documentation] Enable present bit of sensor via IPMI and verify using Redfish.
[Arguments] ${sensor_id} ${component}
# Description of argument(s):
# sensor_id The sensor id of IPMI sensor.
# component The Redfish component of IPMI sensor.
Run IPMI Command
... 0x04 0x30 ${sensor_id} 0xa9 0x00 0x80 0x00 0x00 0x00 0x00 0x20 0x00
# Example of CPU state via Redfish
#"Name": "Processor",
#"ProcessorArchitecture": "Power",
#"ProcessorType": "CPU",
#"Status": {
# "Health": "OK",
# "State": "Enabled"
#}
# Python module: get_endpoint_path_list(resource_path, end_point_prefix)
${processor_list}= redfish_utils.Get Endpoint Path List /redfish/v1/Systems/ Processors
${redfish_value}= Redfish.Get Properties ${processor_list[0]}/${component}
Should Be True '${redfish_value['Status']['State']}' == 'Enabled'
Disable Present Bit Via IPMI and Verify Using Redfish
[Documentation] Disable present bit of sensor via IPMI and verify using Redfish.
[Arguments] ${sensor_id} ${component}
# Description of argument(s):
# sensor_id The sensor id of IPMI sensor.
# component The Redfish component of IPMI sensor.
Run IPMI Command
... 0x04 0x30 ${sensor_id} 0xa9 0x00 0x00 0x00 0x80 0x00 0x00 0x20 0x00
# Example of CPU state via Redfish
#"Name": "Processor",
#"ProcessorArchitecture": "Power",
#"ProcessorType": "CPU",
#"Status": {
# "Health": "OK",
# "State": "Absent"
#}
# Python module: get_endpoint_path_list(resource_path, end_point_prefix)
${processor_list}= redfish_utils.Get Endpoint Path List /redfish/v1/Systems/ Processors
${redfish_value}= Redfish.Get Properties ${processor_list[0]}/${component}
Should Be True '${redfish_value['Status']['State']}' == 'Absent'
Verify Power Supply Sensor Threshold
[Documentation] Get power supply sensor threshold value via IPMI and verify using Redfish.
[Arguments] ${ipmi_threshold_id} ${redfish_threshold_id}
# Description of argument(s):
# ipmi_threshold_id The sensor threshold component of IPMI sensor.
# redfish_threshold_id The sensor threshold component of Redfish sensor.
# Example of ipmi sensor output
# Locating sensor record...
# Sensor ID : ps0_input_voltag (0xf7)
# Entity ID : 10.19
# Sensor Type (Threshold) : Voltage
# Sensor Reading : 208 (+/- 0) Volts
# Status : ok
# Lower Non-Recoverable : na
# Lower Critical : 180.000
# Lower Non-Critical : 200.000
# Upper Non-Critical : 290.000
# Upper Critical : 300.000
# Upper Non-Recoverable : na
# Positive Hysteresis : Unspecified
# Negative Hysteresis : Unspecified
${ipmi_sensor_output}= Run External IPMI Standard Command sensor get ps0_input_voltag
${ipmi_threshold_output}= Get Lines Containing String ${ipmi_sensor_output} ${ipmi_threshold_id}
${ipmi_threshold_reading}= Fetch From Right ${ipmi_threshold_output} :${SPACE}
${ipmi_threshold_reading}= Set Variable If '${ipmi_threshold_reading}' == 'na'
... ${0} ${ipmi_threshold_reading}
# Example of redfish sensor output
# "@odata.id": "/redfish/v1/Chassis/chassis/Power#/Voltages/0",
# "@odata.type": "#Power.v1_0_0.Voltage",
# "LowerThresholdCritical": 180.0,
# "LowerThresholdNonCritical": 200.0,
# "MaxReadingRange": 0.0,
# "MemberId": "ps0_input_voltage",
# "MinReadingRange": 0.0,
# "Name": "ps0 input voltage",
# "ReadingVolts": 209.5,
# "Status": {
# "Health": "OK",
# "State": "Enabled"
# },
# "UpperThresholdCritical": 300.0,
# "UpperThresholdNonCritical": 290.0
@{redfish_readings}= Redfish.Get Attribute /redfish/v1/Chassis/${CHASSIS_ID}/Power Voltages
FOR ${data} IN @{redfish_readings}
Run keyword if '${data}[MemberId]' == 'ps0_input_voltage'
... Should Be Equal As Numbers ${data['${redfish_threshold_id}']} ${ipmi_threshold_reading}
END