| *** Settings *** |
| Documentation This suite is for testing general IPMI functions. |
| |
| Resource ../../lib/ipmi_client.robot |
| Resource ../../lib/openbmc_ffdc.robot |
| Resource ../../lib/boot_utils.robot |
| Resource ../../lib/utils.robot |
| Resource ../../lib/bmc_network_utils.robot |
| Resource ../../lib/logging_utils.robot |
| Library ../../lib/ipmi_utils.py |
| Variables ../../data/ipmi_raw_cmd_table.py |
| Library ../../lib/gen_misc.py |
| Library ../../lib/gen_robot_valid.py |
| |
| Test Setup Log to Console ${EMPTY} |
| Test Teardown FFDC On Test Case Fail |
| |
| *** Variables *** |
| |
| ${allowed_temp_diff}= ${1} |
| ${allowed_power_diff}= ${10} |
| |
| *** Test Cases *** |
| |
| Verify Chassis Identify via IPMI |
| [Documentation] Verify "chassis identify" using IPMI command. |
| [Tags] Verify_Chassis_Identify_via_IPMI |
| |
| # Set to default "chassis identify" and verify that LED blinks for 15s. |
| Run IPMI Standard Command chassis identify |
| Verify Identify LED State ${1} |
| |
| Sleep 18s |
| Verify Identify LED State ${0} |
| |
| # Set "chassis identify" to 10s and verify that the LED blinks for 10s. |
| Run IPMI Standard Command chassis identify 10 |
| Verify Identify LED State ${1} |
| |
| Sleep 12s |
| Verify Identify LED State ${0} |
| |
| |
| Verify Chassis Identify Off And Force Identify On via IPMI |
| [Documentation] Verify "chassis identify" off |
| ... and "force identify on" via IPMI. |
| [Tags] Verify_Chassis_Identify_Off_And_Force_Identify_On_via_IPMI |
| |
| # Set the LED to "Force Identify On". |
| Run IPMI Standard Command chassis identify force |
| Verify Identify LED State ${1} |
| |
| # Set "chassis identify" to 0 and verify that the LED turns off. |
| Run IPMI Standard Command chassis identify 0 |
| Verify Identify LED State ${0} |
| |
| |
| Test Watchdog Reset Via IPMI And Verify Using REST |
| [Documentation] Test watchdog reset via IPMI and verify using REST. |
| [Tags] Test_Watchdog_Reset_Via_IPMI_And_Verify_Using_REST |
| |
| Initiate Host Boot |
| |
| Set Watchdog Enabled Using REST ${1} |
| |
| Watchdog Object Should Exist |
| |
| # Resetting the watchdog via IPMI. |
| Run IPMI Standard Command mc watchdog reset |
| |
| # Verify the watchdog is reset using REST after an interval of 1000ms. |
| Sleep 1000ms |
| ${watchdog_time_left}= |
| ... Read Attribute ${HOST_WATCHDOG_URI} TimeRemaining |
| Should Be True |
| ... ${watchdog_time_left}<${1200000} and ${watchdog_time_left}>${2000} |
| ... msg=Watchdog timer didn't reset. |
| |
| |
| Test Watchdog Off Via IPMI And Verify Using REST |
| [Documentation] Test watchdog off via IPMI and verify using REST. |
| [Tags] Test_Watchdog_Off_Via_IPMI_And_Verify_Using_REST |
| |
| Initiate Host Boot |
| |
| Set Watchdog Enabled Using REST ${1} |
| |
| Watchdog Object Should Exist |
| |
| # Turn off the watchdog via IPMI. |
| Run IPMI Standard Command mc watchdog off |
| |
| # Verify the watchdog is off using REST |
| ${watchdog_state}= Read Attribute ${HOST_WATCHDOG_URI} Enabled |
| Should Be Equal ${watchdog_state} ${0} |
| ... msg=msg=Verification failed for watchdog off check. |
| |
| |
| Test Power Reading Via IPMI With Host Off |
| [Documentation] Test power reading via IPMI with host off state and |
| ... verify using REST. |
| [Tags] Test_Power_Reading_Via_IPMI_With_Host_Off |
| |
| REST Power Off stack_mode=skip quiet=1 |
| |
| Wait Until Keyword Succeeds 1 min 30 sec Verify Power Reading |
| |
| |
| Test Power Reading Via IPMI With Host Booted |
| [Documentation] Test power reading via IPMI with host booted state and |
| ... verify using REST. |
| [Tags] Test_Power_Reading_Via_IPMI_With_Host_Booted |
| |
| REST Power On stack_mode=skip quiet=1 |
| |
| # For a good power reading take a 3 samples for 15 seconds interval and |
| # average it out. |
| |
| Wait Until Keyword Succeeds 2 min 30 sec Verify Power Reading |
| |
| |
| Test Power Reading Via IPMI Raw Command |
| [Documentation] Test power reading via IPMI raw command and verify |
| ... using REST. |
| [Tags] Test_Power_Reading_Via_IPMI_Raw_Command |
| |
| # Response data structure of power reading command output via IPMI. |
| # 1 Completion Code. Refer to section 8, DCMI Completion Codes. |
| # 2 Group Extension Identification = DCh |
| # 3:4 Current Power in watts |
| |
| REST Power On stack_mode=skip quiet=1 |
| |
| Wait Until Keyword Succeeds 2 min 30 sec Verify Power Reading Via Raw Command |
| |
| |
| Test Baseboard Temperature Via IPMI |
| [Documentation] Test baseboard temperature via IPMI and verify using REST. |
| [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}= Fetch From Right ${baseboard_temp_line} + |
| ${baseboard_temp_ipmi}= Remove String ${baseboard_temp_ipmi} ${SPACE}C |
| |
| ${baseboard_temp_rest}= Read Attribute |
| ... /xyz/openbmc_project/sensors/temperature/pcie Value |
| ${baseboard_temp_rest}= Evaluate ${baseboard_temp_rest}/1000 |
| |
| Should Be True |
| ... ${baseboard_temp_rest} - ${baseboard_temp_ipmi} <= ${allowed_temp_diff} |
| ... msg=Baseboard temperature above allowed threshold ${allowed_temp_diff}. |
| |
| |
| Verify Get Device ID |
| [Documentation] Verify get device ID command output. |
| [Tags] Verify_Get_Device_ID |
| |
| # Example of get device ID command output: |
| # Device ID : 0 |
| # Device Revision : 0 |
| # Firmware Revision : 2.01 |
| # IPMI Version : 2.0 |
| # Manufacturer ID : 42817 |
| # Manufacturer Name : Unknown (0xA741) |
| # Product ID : 16975 (0x424f) |
| # Product Name : Unknown (0x424F) |
| # Device Available : yes |
| # Provides Device SDRs : yes |
| # Additional Device Support : |
| # Sensor Device |
| # SEL Device |
| # FRU Inventory Device |
| # Chassis Device |
| # Aux Firmware Rev Info : |
| # 0x04 |
| # 0x38 |
| # 0x00 |
| # 0x03 |
| |
| # Verify Manufacturer and Product IDs, etc. directly from json file. |
| ${device_id_config}= Get Device Id Config |
| ${mc_info}= Get MC Info |
| |
| Rprint Vars device_id_config mc_info |
| Valid Value ${mc_info['device_id']} [${device_id_config['id']}] |
| Valid Value ${mc_info['device_revision']} [${device_id_config['device_revision']}] |
| |
| # Get firmware revision from mc info command output i.e. 2.01 |
| ${ipmi_fw_major_version} ${ipmi_fw_minor_version}= |
| ... Split String ${mc_info['firmware_revision']} . |
| # Convert minor firmware version from BCD format to integer. i.e. 01 to 1 |
| ${ipmi_fw_minor_version}= Convert To Integer ${ipmi_fw_minor_version} |
| |
| # Get BMC version from BMC CLI i.e. 2.2 from "v2.2-253-g00050f1" |
| ${bmc_version_full}= Get BMC Version |
| ${bmc_version}= |
| ... Remove String Using Regexp ${bmc_version_full} ^[^0-9]+ [^0-9\.].* |
| |
| # Get major and minor version from BMC version i.e. 2 and 1 from 2.1 |
| @{major_minor_version}= Split String ${bmc_version} . |
| |
| Should Be Equal As Strings ${ipmi_fw_major_version} ${major_minor_version[0]} |
| ... msg=Major version mismatch. |
| Should Be Equal As Strings ${ipmi_fw_minor_version} ${major_minor_version[1]} |
| ... msg=Minor version mismatch. |
| |
| Valid Value mc_info['ipmi_version'] ['2.0'] |
| |
| Valid Value ${mc_info['manufacturer_id']} [${device_id_config['manuf_id']}] |
| ${product_id_hex} = Convert To Hex ${device_id_config['prod_id']} lowercase=True |
| Valid Value mc_info['product_id'] ['${device_id_config['prod_id']} (0x${product_id_hex})'] |
| |
| Valid Value mc_info['device_available'] ['yes'] |
| Valid Value mc_info['provides_device_sdrs'] ['yes'] |
| Should Contain ${mc_info['additional_device_support']} Sensor Device |
| Should Contain ${mc_info['additional_device_support']} SEL Device |
| Should Contain |
| ... ${mc_info['additional_device_support']} FRU Inventory Device |
| Should Contain ${mc_info['additional_device_support']} Chassis Device |
| |
| # Auxiliary revision data verification. |
| ${aux_version}= Get Aux Version ${bmc_version_full} |
| |
| # From aux_firmware_rev_info field ['0x04', '0x38', '0x00', '0x03'] |
| ${bmc_aux_version}= Catenate |
| ... SEPARATOR= |
| ... ${mc_info['aux_firmware_rev_info'][0][2:]} |
| ... ${mc_info['aux_firmware_rev_info'][1][2:]} |
| ... ${mc_info['aux_firmware_rev_info'][2][2:]} |
| ... ${mc_info['aux_firmware_rev_info'][3][2:]} |
| |
| Should Be Equal As Integers |
| ... ${bmc_aux_version} ${aux_version} |
| ... msg=BMC aux version ${bmc_aux_version} does not match expected value of ${aux_version}. |
| |
| |
| Test IPMI Restriction Mode |
| [Documentation] Set restricition mode via REST and verify IPMI operation. |
| [Tags] Test_IPMI_Restriction_Mode |
| # Forego normal test setup: |
| [Setup] No Operation |
| [Teardown] Run Keywords FFDC On Test Case Fail AND |
| ... Set IPMI Restriction Mode xyz.openbmc_project.Control.Security.RestrictionMode.Modes.None |
| |
| # By default no IPMI operations are restricted. |
| # /xyz/openbmc_project/control/host0/restriction_mode/attr/RestrictionMode |
| # { |
| # "data": "xyz.openbmc_project.Control.Security.RestrictionMode.Modes.None", |
| # "message": "200 OK", |
| # "status": "ok" |
| # } |
| |
| # Refer to: #openbmc/phosphor-host-ipmid/blob/master/host-ipmid-whitelist.conf |
| # Set the restriction mode to Whitelist IPMI commands only: |
| # /xyz/openbmc_project/control/host0/restriction_mode/attr/RestrictionMode |
| # { |
| # "data": "xyz.openbmc_project.Control.Security.RestrictionMode.Modes.Whitelist", |
| # "message": "200 OK", |
| # "status": "ok" |
| # } |
| |
| Set IPMI Restriction Mode xyz.openbmc_project.Control.Security.RestrictionMode.Modes.Whitelist |
| |
| # Attempt white-listed operation expecting success. |
| IPMI Power On |
| |
| # Attempt non white-listed operation expecting failure. |
| Run Keyword And Expect Error *Insufficient privilege level* |
| ... Run Inband IPMI Standard Command lan set 1 access on |
| |
| |
| *** Keywords *** |
| |
| Set Watchdog Enabled Using REST |
| [Documentation] Set watchdog Enabled field using REST. |
| [Arguments] ${value} |
| |
| # Description of argument(s): |
| # value Integer value (eg. "0-Disabled", "1-Enabled"). |
| |
| ${value_dict}= Create Dictionary data=${value} |
| ${resp}= OpenBMC Put Request ${HOST_WATCHDOG_URI}attr/Enabled |
| ... data=${value_dict} |
| |
| |
| Fetch Details From LAN Print |
| [Documentation] Fetch details from LAN print. |
| [Arguments] ${field_name} |
| |
| # Description of argument(s): |
| # ${field_name} Field name to be fetched from LAN print |
| # (e.g. "MAC Address", "Source"). |
| |
| ${stdout}= Run IPMI Standard Command lan print |
| ${fetch_value}= Get Lines Containing String ${stdout} ${field_name} |
| ${value_fetch}= Fetch From Right ${fetch_value} :${SPACE} |
| [Return] ${value_fetch} |
| |
| |
| Verify Power Reading |
| [Documentation] Get dcmi power reading via IPMI. |
| |
| # 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 |
| |
| ${power_reading}= Get IPMI Power Reading |
| |
| ${host_state}= Get Host State |
| Run Keyword If '${host_state}' == 'Off' |
| ... Should Be Equal ${power_reading['instantaneous_power_reading']} 0 |
| ... msg=Power reading not zero when power is off. |
| |
| Run Keyword If '${power_reading['instantaneous_power_reading']}' != '0' |
| ... Verify Power Reading Using REST ${power_reading['instantaneous_power_reading']} |
| |
| |
| 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]} |
| |
| @{raw_output_list}= Split String ${ipmi_raw_output} ${SPACE} |
| |
| # On successful execution of raw IPMI power reading command, completion |
| # code does not come in output. So current power value will start from 2 |
| # byte instead of 3. |
| |
| ${power_reading_ipmi_raw_3_item}= Get From List ${raw_output_list} 2 |
| ${power_reading_ipmi_raw_3_item}= |
| ... Convert To Integer 0x${power_reading_ipmi_raw_3_item} |
| |
| ${power_reading_rest}= Read Attribute |
| ... ${SENSORS_URI}power/total_power Value |
| |
| # Example of power reading via REST |
| # "CriticalAlarmHigh": 0, |
| # "CriticalAlarmLow": 0, |
| # "CriticalHigh": 3100000000, |
| # "CriticalLow": 0, |
| # "Scale": -6, |
| # "Unit": "xyz.openbmc_project.Sensor.Value.Unit.Watts", |
| # "Value": 228000000, |
| # "WarningAlarmHigh": 0, |
| # "WarningAlarmLow": 0, |
| # "WarningHigh": 3050000000, |
| # "WarningLow": 0 |
| |
| # Get power value based on scale i.e. Value * (10 power Scale Value) |
| # e.g. from above case 228000000 * (10 power -6) = 228000000/1000000 |
| |
| ${power_reading_rest}= Evaluate ${power_reading_rest}/1000000 |
| ${ipmi_rest_power_diff}= |
| ... Evaluate abs(${power_reading_rest} - ${power_reading_ipmi_raw_3_item}) |
| |
| Should Be True ${ipmi_rest_power_diff} <= ${allowed_power_diff} |
| ... msg=Power Reading above allowed threshold ${allowed_power_diff}. |
| |
| |
| Verify Power Reading Using REST |
| [Documentation] Verify power reading using REST. |
| [Arguments] ${power_reading} |
| |
| # Description of argument(s): |
| # power_reading IPMI Power reading |
| |
| ${power_reading_rest}= Read Attribute |
| ... ${SENSORS_URI}power/total_power Value |
| |
| # Example of power reading via REST |
| # "CriticalAlarmHigh": 0, |
| # "CriticalAlarmLow": 0, |
| # "CriticalHigh": 3100000000, |
| # "CriticalLow": 0, |
| # "Scale": -6, |
| # "Unit": "xyz.openbmc_project.Sensor.Value.Unit.Watts", |
| # "Value": 228000000, |
| # "WarningAlarmHigh": 0, |
| # "WarningAlarmLow": 0, |
| # "WarningHigh": 3050000000, |
| # "WarningLow": 0 |
| |
| # Get power value based on scale i.e. Value * (10 power Scale Value) |
| # e.g. from above case 228000000 * (10 power -6) = 228000000/1000000 |
| ${power_reading_rest}= Evaluate ${power_reading_rest}/1000000 |
| ${ipmi_rest_power_diff}= |
| ... Evaluate abs(${power_reading_rest} - ${power_reading}) |
| |
| Should Be True ${ipmi_rest_power_diff} <= ${allowed_power_diff} |
| ... msg=Power reading above allowed threshold ${allowed_power_diff}. |
| |
| |
| Set IPMI Restriction Mode |
| [Documentation] Set the IPMI restriction mode. |
| [Arguments] ${restriction_mode} |
| |
| # Description of argument(s): |
| # restriction_mode IPMI valid restriction modes. |
| |
| ${valueDict}= Create Dictionary data=${restriction_mode} |
| |
| Write Attribute ${CONTROL_HOST_URI}restriction_mode/ |
| ... RestrictionMode data=${valueDict} |