*** Settings *** Documentation Open power domain keywords. Variables ../data/variables.py Resource ../lib/utils.robot Resource ../lib/connection_client.robot Library utilities.py *** Variables *** ${functional_cpu_count} ${0} ${active_occ_count} ${0} ${OCC_WAIT_TIMEOUT} 8 min ${fan_json_msg} Unable to create dump on non-JSON config based system *** Keywords *** Get OCC Objects [Documentation] Get the OCC objects and return as a list. # Example: # { # "/org/open_power/control/occ0": { # "OccActive": 0 # }, # "/org/open_power/control/occ1": { # "OccActive": 1 # } ${occ_list}= Get Endpoint Paths ${OPENPOWER_CONTROL} occ* RETURN ${occ_list} Get OCC Active State [Documentation] Get the OCC "OccActive" and return the attribute value. [Arguments] ${value} # Description of argument(s): # value CPU position (e.g. "0, 1, 2"). ${cmd}= Catenate busctl get-property org.open_power.OCC.Control ... /org/open_power/control/occ${value} org.open_power.OCC.Status OccActive ${cmd_output} ${stderr} ${rc} = BMC Execute Command ${cmd} ... print_out=1 print_err=1 ignore_err=1 # The command returns format 'b true' Return From Keyword If '${cmd_output.split(' ')[-1]}' == 'true' ${1} RETURN ${0} Count Object Entries [Documentation] Count the occurrence number of a given object. [Arguments] ${object_base_uri_path} ${object_name} # Description of argument(s): # object_base_uri_path Object base path # (e.g. "/org/open_power/control/"). # object_name Object name (e.g. "occ", "cpu" etc). ${object_list}= Get Endpoint Paths ... ${object_base_uri_path} ${object_name} ${list_count}= Get Length ${object_list} RETURN ${list_count} Read Object Attribute [Documentation] Return object attribute data. [Arguments] ${object_base_uri_path} ${attribute_name} # Description of argument(s): # object_base_uri_path Object path. # (e.g. "/org/open_power/control/occ0"). # attribute_name Object attribute name. ${resp}= OpenBMC Get Request ... ${object_base_uri_path}/attr/${attribute_name} quiet=${1} Return From Keyword If ${resp.status_code} != ${HTTP_OK} RETURN ${resp.json()["data"]} Get Functional Processor Count [Documentation] Get functional processor count. ${cpu_list}= Redfish.Get Members List /redfish/v1/Systems/${SYSTEM_ID}/Processors/ *cpu* FOR ${endpoint_path} IN @{cpu_list} # {'Health': 'OK', 'State': 'Enabled'} get only matching status good. ${cpu_status}= Redfish.Get Attribute ${endpoint_path} Status Continue For Loop If '${cpu_status['Health']}' != 'OK' or '${cpu_status['State']}' != 'Enabled' ${functional_cpu_count} = Evaluate ${functional_cpu_count} + 1 END RETURN ${functional_cpu_count} Get Active OCC State Count [Documentation] Get active OCC state count. ${cpu_list}= Redfish.Get Members List /redfish/v1/Systems/${SYSTEM_ID}/Processors/ *cpu* FOR ${endpoint_path} IN @{cpu_list} ${num}= Set Variable ${endpoint_path[-1]} ${cmd}= Catenate busctl get-property org.open_power.OCC.Control ... /org/open_power/control/occ${num} org.open_power.OCC.Status OccActive ${cmd_output} ${stderr} ${rc} = BMC Execute Command ${cmd} ... print_out=1 print_err=1 ignore_err=1 # The command returns format 'b true' Continue For Loop If '${cmd_output.split(' ')[-1]}' != 'true' ${active_occ_count} = Evaluate ${active_occ_count} + 1 END RETURN ${active_occ_count} Match OCC And CPU State Count [Documentation] Get CPU functional count and verify OCC count active matches. ${cpu_count}= Get Functional Processor Count Log To Console Functional Processor count: ${cpu_count} FOR ${num} IN RANGE ${0} ${cpu_count} ${cmd}= Catenate busctl get-property org.open_power.OCC.Control ... /org/open_power/control/occ${num} org.open_power.OCC.Status OccActive ${cmd_output} ${stderr} ${rc} = BMC Execute Command ${cmd} ... print_out=1 print_err=1 ignore_err=1 # The command returns format 'b true' Continue For Loop If '${cmd_output.split(' ')[-1]}' != 'true' ${active_occ_count} = Evaluate ${active_occ_count} + 1 END Log To Console OCC Active count: ${active_occ_count} Should Be Equal ${active_occ_count} ${cpu_count} ... msg=OCC count ${active_occ_count} and CPU Count ${cpu_count} mismatched. Verify OCC State [Documentation] Check OCC active state. [Arguments] ${expected_occ_active}=${1} # Description of Argument(s): # expected_occ_active The expected occ_active value (i.e. 1/0). # Example cpu_list data output: # /redfish/v1/Systems/system/Processors/cpu0 # /redfish/v1/Systems/system/Processors/cpu1 ${cpu_list}= Redfish.Get Members List /redfish/v1/Systems/${SYSTEM_ID}/Processors/ cpu* FOR ${endpoint_path} IN @{cpu_list} # {'Health': 'OK', 'State': 'Enabled'} get only matching status good. ${cpu_status}= Redfish.Get Attribute ${endpoint_path} Status Continue For Loop If '${cpu_status['Health']}' != 'OK' or '${cpu_status['State']}' != 'Enabled' Log To Console ${cpu_status} ${num}= Set Variable ${endpoint_path[-1]} ${occ_active}= Get OCC Active State ${num} Should Be Equal ${occ_active} ${expected_occ_active} ... msg=OCC not in right state END Get Sensors Aggregation Data [Documentation] Return open power sensors aggregation value list. [Arguments] ${object_base_uri_path} # Description of argument(s): # object_base_uri_path An object path such as one of the elements # returned by 'Get Sensors Aggregation URL List' # (e.g. "/org/open_power/sensors/aggregation/per_30s/ps0_input_power/average"). # Example of aggregation [epoch,time] data: # "Values": [ # [ # 1517815708479, <-- EPOCH # 282 <-- Power value in watts # ], # [ # 1517815678238, # 282 # ], # [ # 1517815648102, # 282 # ], # ], ${resp}= Read Attribute ${object_base_uri_path} Values quiet=${1} ${power_sensors_value_list}= Create List FOR ${entry} IN @{resp} Append To List ${power_sensors_value_list} ${entry[1]} END RETURN ${power_sensors_value_list} Get Sensors Aggregation URL List [Documentation] Return the open power aggregation maximum list and the ... average list URIs. [Arguments] ${object_base_uri_path} # Example of the 2 lists returned by this keyword: # avgs: # avgs[0]: /org/open_power/sensors/aggregation/per_30s/ps0_input_power/average # avgs[1]: /org/open_power/sensors/aggregation/per_30s/ps1_input_power/average # maxs: # maxs[0]: /org/open_power/sensors/aggregation/per_30s/ps1_input_power/maximum # maxs[1]: /org/open_power/sensors/aggregation/per_30s/ps0_input_power/maximum # Description of argument(s): # object_base_uri_path Object path. # base path "/org/open_power/sensors/" # (e.g. "base path + aggregation/per_30s/ps0_input_power/average") # Example of open power sensor aggregation data as returned by the get # request: # /org/open_power/sensors/list # [ # "/org/open_power/sensors/aggregation/per_30s/ps0_input_power/average", # "/org/open_power/sensors/aggregation/per_30s/ps1_input_power/maximum", # "/org/open_power/sensors/aggregation/per_30s/ps0_input_power/maximum", # "/org/open_power/sensors/aggregation/per_30s/ps1_input_power/average" # ] ${resp}= OpenBMC Get Request ${object_base_uri_path}list quiet=${1} ${power_supply_avg_list}= Create List ${power_supply_max_list}= Create List FOR ${entry} IN @{resp.json()["data"]} Run Keyword If 'average' in '${entry}' Append To List ${power_supply_avg_list} ${entry} Run Keyword If 'maximum' in '${entry}' Append To List ${power_supply_max_list} ${entry} END RETURN ${power_supply_avg_list} ${power_supply_max_list} REST Verify No Gard Records [Documentation] Verify no gard records are present. ${resp}= Read Properties ${OPENPOWER_CONTROL}gard/enumerate Log Dictionary ${resp} Should Be Empty ${resp} msg=Found gard records. Inject OPAL TI [Documentation] OPAL terminate immediate procedure. [Arguments] ${stable_branch}=master ... ${repo_dir_path}=/tmp/repository ... ${repo_github_url}=https://github.com/open-power/op-test # Description of arguments: # stable_branch Git branch to clone. (default: master) # repo_dir_path Directory path for repo tool (e.g. "op-test"). # repo_github_url Github URL link (e.g. "https://github.com/open-power/op-test"). ${value}= Generate Random String 4 [NUMBERS] ${cmd_buf}= Catenate git clone --branch ${stable_branch} ${repo_github_url} ${repo_dir_path}/${value} Shell Cmd ${cmd_buf} Open Connection for SCP scp.Put File ${repo_dir_path}/${value}/test_binaries/deadbeef /tmp Pdbg -a putmem 0x300000f8 < /tmp/deadbeef # Clean up the repo once done. ${cmd_buf}= Catenate rm -rf ${repo_dir_path}${/}${value} Shell Cmd ${cmd_buf} Trigger OCC Reset [Documentation] Trigger OCC reset request on an active OCC. [Arguments] ${occ_target}=${0} # Description of Argument(s): # occ_target Target a valid given OCC number 0,1, etc. Log To Console OCC Reset Triggered on OCC ${occ_target} ${cmd}= Catenate busctl call org.open_power.OCC.Control ... /org/open_power/control/occ${occ_target} org.open_power.OCC.PassThrough ... Send ai 8 64 0 5 20 82 83 84 0 ${cmd_output} ${stderr} ${rc} = BMC Execute Command ${cmd} print_out=1 print_err=1 Log To Console OCC wait check for disabled state. Wait Until Keyword Succeeds 30 sec 5 sec Verify OCC Target State ${occ_target} Verify OCC Target State [Documentation] Verify that the user given state matches th current OCC state. [Arguments] ${occ_target}=${0} ${expected_state}=${0} # Description of Argument(s): # occ_target Target a valid given OCC number 0,1, etc. # expected_state For OCC either 0 or 1. Default is 0. ${occ_active}= Get OCC Active State ${occ_target} Should Be Equal ${occ_active} ${expected_state} Log To Console Target OCC ${occ_target} state is ${occ_active}. Trigger OCC Reset And Wait For OCC Active State [Documentation] Trigger OCC reset request and wait for OCC to reset back to active state. Trigger OCC Reset Log To Console OCC wait check for active state. Wait Until Keyword Succeeds ${OCC_WAIT_TIMEOUT} 20 sec Match OCC And CPU State Count Get Sensors Dbus Tree List [Documentation] Get the list dbus path of the given sensor object and ... return the populatedlist. ${dbus_obj_var}= Set Variable ... xyz.openbmc_project.HwmonTempSensor ... xyz.openbmc_project.ADCSensor ... xyz.openbmc_project.VirtualSensor # Filter only the dbus paths service by the sensor obj. ${sensors_dbus_tree_dict}= Create Dictionary FOR ${dbus_obj} IN @{dbus_obj_var} ${cmd}= Catenate busctl tree ${dbus_obj} --list | grep /sensors/ ${cmd_output} ${stderr} ${rc} = BMC Execute Command ${cmd} ... print_out=0 print_err=0 ignore_err=1 Set To Dictionary ${sensors_dbus_tree_dict} ${dbus_obj} ${cmd_output.splitlines()} END Rprint Vars sensors_dbus_tree_dict # Key Pair: 'sensor obj":[list of obj URI] # Example: # sensors_dbus_tree_dict: # [xyz.openbmc_project.HwmonTempSensor]: # [0]: /xyz/openbmc_project/sensors/temperature/Ambient_0_Temp # [1]: /xyz/openbmc_project/sensors/temperature/PCIE_0_Temp # [xyz.openbmc_project.ADCSensor]: # [0]: /xyz/openbmc_project/sensors/voltage/Battery_Voltage # [xyz.openbmc_project.VirtualSensor]: # [0]: /xyz/openbmc_project/sensors/temperature/Ambient_Virtual_Temp RETURN ${sensors_dbus_tree_dict} Get Populated Sensors Dbus List [Documentation] Perform GET operation on the attribute list and confirm it is ... populated and does not error out during GET request.. ${sensor_dict}= Get Sensors Dbus Tree List # Loop through the dictionary and iterate item entries. ${valid_dbus_list}= Create List FOR ${key} IN @{sensor_dict.keys()} FOR ${val} IN @{sensor_dict["${key}"]} ${cmd}= Catenate ... busctl get-property ${key} ${val} xyz.openbmc_project.Sensor.Value Value ${cmd_output} ${stderr} ${rc} = BMC Execute Command ${cmd} ... print_out=0 print_err=0 ignore_err=1 # Skip failed to get property command on Dbus object. Run Keyword If ${rc} == 0 Append To List ${valid_dbus_list} ${val} END END RETURN ${valid_dbus_list} Verify Runtime Sensors Dbus List [Documentation] Load pre-defined sensor JSON Dbus data and validate against ... runtime sensor list generated. # Default path data/sensor_dbus.json else takes # user CLI input -v SENSOR_DBUS_JSON_FILE_PATH: ${SENSOR_DBUS_JSON_FILE_PATH}= ... Get Variable Value ${SENSOR_DBUS_JSON_FILE_PATH} data/sensor_dbus.json ${json_data}= OperatingSystem.Get File ${SENSOR_DBUS_JSON_FILE_PATH} ${json_sensor_data}= Evaluate json.loads('''${json_data}''') json ${runtime_sensor_list}= Get Populated Sensors Dbus List ${system_model}= Get BMC System Model Rprint Vars system_model Rprint Vars runtime_sensor_list ${status}= Run Keyword And Return Status ... Dictionary Should Contain Value ${json_sensor_data} ${runtime_sensor_list} Run Keyword If ${status} == ${False} Log And Fail ${json_sensor_data} Log To Console Runtime Dbus sensor list matches. Log And Fail [Documentation] Log detailed failure log on the console. [Arguments] ${json_sensor_data} # Description of Argument(s): # json_sensor_data Sensor JSON data from data/sensor_dbus.json. Rprint Vars json_sensor_data Fail Runtime generated Dbus sensors does not match Dump Fan Control JSON [Documentation] Execute fan control on BMC to dump config with 'fanctl dump', ... which makes it write a /tmp/fan_control_dump.json file. ${output} ${stderr} ${rc} = BMC Execute Command test -f /usr/bin/fanctl ... print_err=1 ignore_err=1 Return From Keyword If ${rc} == 1 fanctl application doesn't exist. # This command will force a fan_control_dump.json file in temp path and # takes few seconds to complete.. BMC Execute Command fanctl dump Sleep 10s Get Fan JSON Data [Documentation] Read the JSON string file from BMC and return. # Check for the generated file and return the file data as JSON and fails if # it doesn't find file generated. ${cmd}= Catenate test -f /tmp/fan_control_dump.json; cat /tmp/fan_control_dump.json ${json_string} ${stderr} ${rc} = BMC Execute Command ${cmd} ... print_out=1 print_err=1 ignore_err=1 Should Be True ${rc} == 0 msg=No Fan control config JSON file is generated. ${fan_json}= Evaluate json.loads('''${json_string}''') json RETURN ${fan_json} Get Fan Attribute Value [Documentation] Return the specified value of the matched search key in ... nested dictionary data. [Arguments] ${fan_dict} ${key_value} # Description of Argument(s): # key_value User input attribute value in the dictionary. ${empty_dicts}= Create Dictionary # Check for JSON response data. # { # "msg": "Unable to create dump on non-JSON config based system" # } ${status}= Run Keyword And Return Status ... Should Be Equal ${fan_dict["msg"]} ${fan_json_msg} IF ${status} Log To Console Skipping attribute ${key_value} check. Return From Keyword ${empty_dicts} END # Python module: get_value_from_nested_dict(key,dict) ${value_list}= utilities.Get Value From Nested Dict ${key_value} ${fan_dict} Should Not Be Empty ${value_list} msg=${key_value} key attribute not found. RETURN ${value_list[0]}