*** 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 +22 C # Inlet air temperature(40h) 2 +23 C # Inlet air temperature(40h) 3 +22 C # CPU temperature sensors(41h) 0 +0 C # Baseboard temperature sensors(42h) 1 +26 C # Baseboard temperature sensors(42h) 2 +27 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_line}= Split To Lines ${ambient_temp_line} ${ipmi_temp_list}= Create List FOR ${line} IN @{ambient_temp_line} ${ambient_temp_ipmi}= Set Variable ${line.split('+')[1].strip(' C')} Append To List ${ipmi_temp_list} ${ambient_temp_ipmi} END ${list_length}= Get Length ${ipmi_temp_list} # Getting temperature readings from Redfish. ${ambient_temp_redfish}= Get Temperature Reading From Redfish Ambient ${ambient_temp_redfish}= Get Dictionary Values ${ambient_temp_redfish} sort_keys=True FOR ${index} IN RANGE ${list_length} ${ipmi_redfish_temp_diff}= ... Evaluate abs(${ambient_temp_redfish[${index}]} - ${ipmi_temp_list[${index}]}) Should Be True ${ipmi_redfish_temp_diff} <= ${allowed_temp_diff} ... msg=Ambient temperature above allowed threshold ${allowed_temp_diff}. END 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 +22 C # Inlet air temperature(40h) 2 +23 C # Inlet air temperature(40h) 3 +22 C # CPU temperature sensors(41h) 0 +0 C # Baseboard temperature sensors(42h) 1 +26 C # Baseboard temperature sensors(42h) 2 +27 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_lines}= ... Get Lines Containing String ${temp_reading} ... Baseboard temperature case-insensitive=True ${lines}= Split To Lines ${baseboard_temp_lines} ${ipmi_temp_list}= Create List FOR ${line} IN @{lines} ${baseboard_temp_ipmi}= Set Variable ${line.split('+')[1].strip(' C')} Append To List ${ipmi_temp_list} ${baseboard_temp_ipmi} END ${list_length}= Get Length ${ipmi_temp_list} # Getting temperature readings from Redfish. ${baseboard_temp_redfish}= Get Temperature Reading From Redfish PCIE ${baseboard_temp_redfish}= Get Dictionary Values ${baseboard_temp_redfish} sort_keys=True FOR ${index} IN RANGE ${list_length} ${baseboard_temp_diff}= Evaluate abs(${baseboard_temp_redfish[${index}]} - ${ipmi_temp_list[${index}]}) Should Be True ... ${baseboard_temp_diff} <= ${allowed_temp_diff} ... msg=Baseboard temperature above allowed threshold ${allowed_temp_diff}. END 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] Set Present Bit Via IPMI and Verify Using Redfish # component state cpu Enabled Verify CPU Not Present [Documentation] Verify the IPMI sensor for CPU not present using Redfish. [Tags] Verify_CPU_Not_Present [Template] Set Present Bit Via IPMI and Verify Using Redfish # component state cpu Absent Verify GPU Present [Documentation] Verify the IPMI sensor for GPU present using Redfish. [Tags] Verify_GPU_Present [Template] Set 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] Set 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} ${keys}= Get Dictionary Keys ${ipmi_value} FOR ${index} IN @{keys} ${value_diff}= Evaluate abs(${redfish_value["${index}"]} - ${ipmi_value["${index}"]}) Should Be True ${value_diff} <= ${allowed_temp_diff} END Get IPMI Sensor Reading [Documentation] Get IPMI sensor readings as a dictionary. [Arguments] ${sensor_id} # Description of argument(s): # sensor_id Sensor id used to get reading in IPMI. ${sensor_list}= Get Available Sensors ${sensor_id} ${sensor_value_dict}= Create Dictionary FOR ${ids} IN @{sensor_list} ${data}= Run IPMI Standard Command sensor reading ${ids} # Example reading: # PCIE_0_Temp | 5Ch | ok | 41.1 | 27 degrees C ${sensor_key}= Set Variable ${data.split('| ')[0].strip()} ${sensor_value}= Set Variable ${data.split('| ')[1].strip()} Set To Dictionary ${sensor_value_dict} ${sensor_key} ${sensor_value} END [Return] ${sensor_value_dict} Get DCMI Sensor Reading [Documentation] Get DCMI sensor readings as a dictionary. [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} case_insensitive ${sensor_lines}= Split To Lines ${sensor_data} # Example reading: # Record ID 0x005c: PCIE_0_Temp | 27 degrees C | ok ${sensor_value_dict}= Create Dictionary FOR ${line} IN @{sensor_lines} ${sensor}= Set Variable ${line.split(' | ')} ${sensor_key}= Set Variable ${sensor[0].split(':')[1].strip()} ${sensor_value}= Set Variable ${sensor[1].split()[0].strip()} ${contains}= Evaluate """disabled""" in "${sensor_value}" Run Keyword IF "${contains}" != """True""" ... Set To Dictionary ${sensor_value_dict} ${sensor_key} ${sensor_value} END [Return] ${sensor_value_dict} Get Temperature Reading From Redfish [Documentation] Get temperature reading from Redfish. [Arguments] ${member_id} # Description of argument(s): # member_id Member id of temperature. @{thermal_uri}= redfish_utils.Get Member List /redfish/v1/Chassis/ @{redfish_readings}= redfish_utils.Get Attribute ... ${thermal_uri[0]}/${THERMAL_METRICS} TemperatureReadingsCelsius # Example of Baseboard temperature via Redfish # "@odata.id": "/redfish/v1/Chassis/chassis/ThermalSubsystem/ThermalMetrics", # "@odata.type": "#ThermalMetrics.v1_0_0.ThermalMetrics", # "Id": "ThermalMetrics", # "Name": "Chassis Thermal Metrics", # "TemperatureReadingsCelsius": [ # { # "@odata.id": "/redfish/v1/Chassis/chassis/Sensors/PCIE_0_Temp", # "DataSourceUri": "/redfish/v1/Chassis/chassis/Sensors/PCIE_0_Temp", # "DeviceName": "PCIE_0_Temp", # "Reading": 23.75 # }, ${redfish_value_dict}= Create Dictionary FOR ${data} IN @{redfish_readings} ${contains}= Evaluate "${member_id}" in """${data}[DeviceName]""" ${reading}= Set Variable ${data}[Reading] Run Keyword IF "${contains}" == "True" ... Set To Dictionary ${redfish_value_dict} ${data}[DeviceName] ${reading} END [Return] ${redfish_value_dict} 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 ${redfish_power_reading}= redfish_utils.Get Attribute ... /redfish/v1/Chassis/${CHASSIS_ID}/Sensors/power_total_power Reading ${ipmi_redfish_power_diff}= ... Evaluate abs(${redfish_power_reading} - ${ipmi_reading['instantaneous_power_reading']}) Should Be True ${ipmi_redfish_power_diff} <= ${allowed_power_diff} ... msg=Power reading above allowed threshold ${allowed_power_diff}. 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}. Set Present Bit Via IPMI and Verify Using Redfish [Documentation] Set present bit of sensor via IPMI and verify using Redfish. [Arguments] ${component} ${status} # Description of argument(s): # component The Redfish component of IPMI sensor. # status Status of the bit to be set(e.g. Absent, Present). ${sensor_list}= Get Available Sensors ${component} ${sensor_name}= Set Variable ${sensor_list[0]} ${sensor_id}= Get Sensor Id For Sensor ${sensor_name} Run Keyword If '${status}' == 'Absent' ... Run IPMI Command ... 0x04 0x30 ${sensor_id} 0xa9 0x00 0x00 0x00 0x80 0x00 0x00 0x20 0x00 ... ELSE IF '${status}' == 'Enabled' ... Run IPMI Command ... 0x04 0x30 ${sensor_id} 0xa9 0x00 0x80 0x00 0x00 0x00 0x00 0x20 0x00 # Redfish cpu components have "-" instead of "_" (e.g.: dcm0-cpu0). ${cpu_name}= Replace String ${sensor_name} _ - ${sensor_properties}= Redfish.Get Properties /redfish/v1/Systems/system/Processors/${cpu_name} # Example of CPU state via Redfish # "ProcessorType": "CPU", # "SerialNumber": "YA1936422499", # "Socket": "", # "SparePartNumber": "F210110", # "Status": { # "Health": "OK", # "State": "Absent" # } Should Be True '${sensor_properties['Status']['State']}' == '${status}' 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 Get Available Sensors [Documentation] Get all the available sensors for the required component. ... Returns a list of available sensors. [Arguments] ${sensor_component} # Description of argument(s): # sensor_component sensor component name.(e.g.:cpu) ${resp}= Run IPMI Standard Command sdr elist ${sensor_list}= Create List ${sensors}= Get Lines Containing String ${resp} ${sensor_component} case-insensitive ${sensors}= Split To Lines ${sensors} # Example of IPMI sdr elist command. # dcm0_cpu0 | 41h | ok | 3.1 | Presence detected # dcm0_cpu1 | 42h | ok | 3.2 | Presence detected, Disabled # dcm1_cpu0 | 43h | ok | 3.3 | Presence detected # dcm1_cpu1 | 44h | ok | 3.4 | Presence detected, Disabled # dcm2_cpu0 | 45h | ns | 3.5 | Disabled # dcm2_cpu1 | 46h | ns | 3.6 | Disabled # dcm3_cpu0 | 47h | ns | 3.7 | Disabled # dcm3_cpu1 | 48h | ns | 3.8 | Disabled FOR ${line} IN @{sensors} ${sensor_name}= Set Variable ${line.split('|')[0].strip()} # Adding sensors to the list whose presence is detected. ${contains}= Evaluate "Presence detected" in "${line}" or "ok" in "${line}" Run Keyword IF "${contains}" == "True" ... Append To List ${sensor_list} ${sensor_name} END # Example of output for ${sensor_list} # ['dcm0_cpu0', 'dcm0_cpu1', 'dcm1_cpu0', 'dcm1_cpu1'] [RETURN] ${sensor_list} Get Sensor Id For Sensor [Documentation] Returns the sensor ID value for the given sensor. [Arguments] ${sensor_name} # Description of argument(s): # sensor_name Name of sensor whose ID is required(e.g.: dcm0_cpu0, dcm0_cpu1 etc). ${get_resp}= Run IPMI Standard Command sensor get ${sensor_name} # Example of sensor get command. # Locating sensor record... # Sensor ID : dcm0_cpu0 (0x41) # Entity ID : 3.1 # Sensor Type (Discrete): Processor # States Asserted : Processor # [Presence detected] ${line}= Get Lines Containing String ${get_resp} Sensor ID ${sensor_id}= Set Variable ${line[-5:-1]} # Example of output for ${sensor_id} is 0x41. [RETURN] ${sensor_id}