lib/fan_utils.robot - openbmc/openbmc-test-automation - Gitiles

 *** Settings ***
 Documentation  Utilities for fan tests.

 Library        ../lib/bmc_ssh_utils.py
 Resource       ../lib/openbmc_ffdc_utils.robot
 Variables      ../data/variables.py

 *** Keywords ***

 Is Water Cooled
     [Documentation]  Return 1 if system is water cooled, 0 othersise.

     ${water_cooled}=  Read Attribute
     ...  ${HOST_INVENTORY_URI}system/chassis  WaterCooled
     [Return]  ${water_cooled}


 Get Fan Names
     [Documentation]  Get the names of the fans marked present in inventory.
     [Arguments]  ${fan_names}
     # This keyword populates the fan_names list with the names of
     # fans present in inventory e.g. fan0, fan2, fan3.

     # Description of Argument(s):
     # fan_names   The list of fan names to which new fan names are to be
     #             added to.  This list is returned to the caller.

     ${fan_uris}=  Get Endpoint Paths  ${HOST_INVENTORY_URI}system  fan
     : FOR  ${fan_uri}  IN  @{fan_uris}

     \  ${fan_properties}=  Read Properties  ${fan_uri}
     \  ${fan_present}=  Get Variable Value  ${fan_properties['Present']}  0
     \  ${fan_functional}=  Get Variable Value  ${fan_properties['Functional']}  0
     \  Continue For Loop If  ${fan_present} == 0 or ${fan_functional} == 0
     \  ${remaining_uri}  ${fan_name}=  Split Path  ${fan_uri}
     \  Append To List  ${fan_names}  ${fan_name}

     [Return]  ${fan_names}


 Verify System Error Indication Due To Fans
     [Documentation]  Verify enclosure LEDs are on and there's an error log.

     # Both enclosure LEDs should now be On.
     Verify Front And Rear LED State  On

     # An error log should now exist.
     Error Logs Should Exist


 Verify Front And Rear LED State
     [Documentation]  Check state of the front and rear enclsure fault LEDs.
     [Arguments]  ${state}
     # Both LEDs should be in the specified state.  If not fail the test case.

     # Description of Argument(s):
     # state    The state to check for, either 'Off' or 'On'.

     ${front_fault}=  Get System LED State  front_fault
     ${rear_fault}=  Get System LED State  rear_fault

     Run Keyword If
     ...  '${front_fault}' != '${state}' or '${rear_fault}' != '${state}'
     ...  Fail  msg=Expecting both enclosure LEDs to be ${state}.


 Set Fan State
     [Documentation]  Set the fan state, either functional or non-functional.
     [Arguments]  ${fan_name}  ${fan_state}

     # Description of Argument(s):
     # fan_name     The name of the fan, e.g. "fan2".
     # fan_state    The state to set, 1 for functional, 2 for non-functional.

     ${valueDict}=  Create Dictionary  data=${fan_state}
     Write Attribute
     ...  ${HOST_INVENTORY_URI}system/chassis/motherboard/${fan_name}
     ...  Functional  data=${valueDict}


 Set Fan Target Speed
     [Documentation]  Set the target speed of a fan.
     [Arguments]  ${fan_name}  ${fan_speed}

     # Description of argument(s):
     # fan_name    The name of the fan (e.g. "fan0").
     # fan_speed   The target speed to set (e.g. "9000").

     ${valueDict}=  Create Dictionary  data=${fan_speed}
     Write Attribute  ${SENSORS_URI}fan_tach/${fan_name}_0
     ...  Target  data=${valueDict}


 Get Target Speed Of Fans
     [Documentation]  Return the maximum target speed of the system fans.

     ${max_target}=  Set Variable  0
     ${paths}=  Get Endpoint Paths  ${SENSORS_URI}fan_tach/  0
     :FOR  ${path}  IN  @{paths}
     \  ${response}=  OpenBMC Get Request  ${path}
     \  ${json}=  To JSON  ${response.content}
     \  ${target_speed}=  Set Variable  ${json["data"]["Target"]}
     \  ${max_target}=  Run Keyword If  ${target_speed} > ${max_target}
     ...  Set Variable  ${target_speed}  ELSE  Set Variable  ${max_target}
     [Return]  ${max_target}


 Get Target And Blade Speeds
     [Documentation]  Return the fan target speed setting, the speed of the
     ...  fan's clockwise blade, and the speed of the counter-clockwise blade.
     # Each fan unit has two counter-rotating fan blades
     # One blade is expected to be moving but the other blade may not be
     # moving whenever the fan unit is transitioning to a new target speed.
     [Arguments]  ${fan_name}

     # Description of argument(s):
     # fan_name       The name of a fan (e.g. "fan0")

     # Get the fan target speed and the clockwise blade speed.
     ${path}=  Catenate  ${SENSORS_URI}fan_tach/${fan_name}_0
     ${response}=  OpenBMC Get Request  ${path}
     ${json}=  To JSON  ${response.content}
     ${fan_clockwise_speed}=  Set Variable  ${json["data"]["Value"]}
     ${target_speed}=  Set Variable  ${json["data"]["Target"]}

     # Get the counter-clockwise blade speed.
     ${path}=  Catenate  ${SENSORS_URI}fan_tach/${fan_name}_1
     ${response}=  OpenBMC Get Request  ${path}
     ${json}=  To JSON  ${response.content}
     ${fan_counterclockwise_speed}=  Set Variable  ${json["data"]["Value"]}

     [Return]  ${target_speed}  ${fan_clockwise_speed}
     ...  ${fan_counterclockwise_speed}


 Get Fan Target And Speed
     [Documentation]  Return the fan target speed setting and the
     ...  speed of the fastest blade.
     [Arguments]  ${fan_name}

     # Description of argument(s):
     # fan_name       The name of a fan (e.g. "fan0")

     ${target_speed}  ${clockwise_speed}  ${counterclockwise_speed}=
     ...  Get Target And Blade Speeds  ${fan_name}
     ${blade_speed}=  Run Keyword If
     ...  ${clockwise_speed} > ${counterclockwise_speed}
     ...  Set Variable  ${clockwise_speed}  ELSE
     ...  Set Variable  ${counterclockwise_speed}
     [Return]  ${target_speed}  ${blade_speed}


 Set Fan Daemon State
     [Documentation]  Set the state of the fan control service.
     [Arguments]  ${state}

     # Description of argument(s):
     # state     The desired state of the service, usually
     #           "start", "stop", or "restart".

     ${cmd}=  Catenate  systemctl  ${state}  phosphor-fan-control@0.service
     ${stdout}  ${stderr}  ${rc}=  BMC Execute Command  ${cmd}


 Verify Minimum Number Of Fans With Cooling Type
     [Documentation]  Verify minimum number of fans.
     [Arguments]  ${num_fans}  ${water_cooled}

     # Description of argument(s):
     # num_fans       The number of fans present in the system.
     # water_cooled   The value 1 if the system is water cooled,
     #                0 if air cooled.

     # For a water cooled system.
     ${min_fans_water}=  Set Variable  2

     # For an air cooled system.
     ${min_fans_air}=  Set Variable  3

     Rprintn
     Rpvars  num_fans  water_cooled

     # If water cooled must have at least min_fans_water fans, otherwise
     # issue Fatal Error and terminate testing.
     Run Keyword If  ${water_cooled} == 1 and ${num_fans} < ${min_fans_water}
     ...  Fatal Error
     ...  msg=Water cooled but less than ${min_fans_water} fans present.

     # If air cooled must have at least min_fans_air fans.
     Run Keyword If  ${water_cooled} == 0 and ${num_fans} < ${min_fans_air}
     ...  Fatal Error
     ...  msg=Air cooled but less than ${min_fans_air} fans present.


 Verify Fan Monitors With State
     [Documentation]  Verify fan monitor daemons in the system state.
     [Arguments]  ${power_state}
     # The number of monitoring daemons is dependent upon the system
     # power state.  If power is off there should be 0, if power
     # is on there should be several.

     # Description of argument(s):
     # power_state   Power staet of the system, either "On" or "Off"

     ${cmd}=  Catenate  systemctl list-units | grep phosphor-fan | wc -l
     ${num_fan_daemons}  ${stderr}  ${rc}=  BMC Execute Command  ${cmd}

     Rpvars  power_state  num_fan_daemons

     # Fail if system is On and there are no fan monitors.
     Run Keyword If  '${power_state}' == 'On' and ${num_fan_daemons} == 0
     ...  Fail  msg=No phosphor-fan monitors found at power on.

     # Fail if system is Off and the fan monitors are present.
     Run Keyword If  '${power_state}' == 'Off' and ${num_fan_daemons} != 0
     ...  Fail  msg=Phosphor-fan monitors found at power off.
	* Settings *
	Documentation Utilities for fan tests.

	Library ../lib/bmc_ssh_utils.py
	Resource ../lib/openbmc_ffdc_utils.robot
	Variables ../data/variables.py

	* Keywords *

	Is Water Cooled
	[Documentation] Return 1 if system is water cooled, 0 othersise.

	${water_cooled}= Read Attribute
	... ${HOST_INVENTORY_URI}system/chassis WaterCooled
	[Return] ${water_cooled}


	Get Fan Names
	[Documentation] Get the names of the fans marked present in inventory.
	[Arguments] ${fan_names}
	# This keyword populates the fan_names list with the names of
	# fans present in inventory e.g. fan0, fan2, fan3.

	# Description of Argument(s):
	# fan_names The list of fan names to which new fan names are to be
	# added to. This list is returned to the caller.

	${fan_uris}= Get Endpoint Paths ${HOST_INVENTORY_URI}system fan
	: FOR ${fan_uri} IN @{fan_uris}

	\ ${fan_properties}= Read Properties ${fan_uri}
	\ ${fan_present}= Get Variable Value ${fan_properties['Present']} 0
	\ ${fan_functional}= Get Variable Value ${fan_properties['Functional']} 0
	\ Continue For Loop If ${fan_present} == 0 or ${fan_functional} == 0
	\ ${remaining_uri} ${fan_name}= Split Path ${fan_uri}
	\ Append To List ${fan_names} ${fan_name}

	[Return] ${fan_names}


	Verify System Error Indication Due To Fans
	[Documentation] Verify enclosure LEDs are on and there's an error log.

	# Both enclosure LEDs should now be On.
	Verify Front And Rear LED State On

	# An error log should now exist.
	Error Logs Should Exist


	Verify Front And Rear LED State
	[Documentation] Check state of the front and rear enclsure fault LEDs.
	[Arguments] ${state}
	# Both LEDs should be in the specified state. If not fail the test case.

	# Description of Argument(s):
	# state The state to check for, either 'Off' or 'On'.

	${front_fault}= Get System LED State front_fault
	${rear_fault}= Get System LED State rear_fault

	Run Keyword If
	... '${front_fault}' != '${state}' or '${rear_fault}' != '${state}'
	... Fail msg=Expecting both enclosure LEDs to be ${state}.


	Set Fan State
	[Documentation] Set the fan state, either functional or non-functional.
	[Arguments] ${fan_name} ${fan_state}

	# Description of Argument(s):
	# fan_name The name of the fan, e.g. "fan2".
	# fan_state The state to set, 1 for functional, 2 for non-functional.

	${valueDict}= Create Dictionary data=${fan_state}
	Write Attribute
	... ${HOST_INVENTORY_URI}system/chassis/motherboard/${fan_name}
	... Functional data=${valueDict}


	Set Fan Target Speed
	[Documentation] Set the target speed of a fan.
	[Arguments] ${fan_name} ${fan_speed}

	# Description of argument(s):
	# fan_name The name of the fan (e.g. "fan0").
	# fan_speed The target speed to set (e.g. "9000").

	${valueDict}= Create Dictionary data=${fan_speed}
	Write Attribute ${SENSORS_URI}fan_tach/${fan_name}_0
	... Target data=${valueDict}


	Get Target Speed Of Fans
	[Documentation] Return the maximum target speed of the system fans.

	${max_target}= Set Variable 0
	${paths}= Get Endpoint Paths ${SENSORS_URI}fan_tach/ 0
	:FOR ${path} IN @{paths}
	\ ${response}= OpenBMC Get Request ${path}
	\ ${json}= To JSON ${response.content}
	\ ${target_speed}= Set Variable ${json["data"]["Target"]}
	\ ${max_target}= Run Keyword If ${target_speed} > ${max_target}
	... Set Variable ${target_speed} ELSE Set Variable ${max_target}
	[Return] ${max_target}


	Get Target And Blade Speeds
	[Documentation] Return the fan target speed setting, the speed of the
	... fan's clockwise blade, and the speed of the counter-clockwise blade.
	# Each fan unit has two counter-rotating fan blades
	# One blade is expected to be moving but the other blade may not be
	# moving whenever the fan unit is transitioning to a new target speed.
	[Arguments] ${fan_name}

	# Description of argument(s):
	# fan_name The name of a fan (e.g. "fan0")

	# Get the fan target speed and the clockwise blade speed.
	${path}= Catenate ${SENSORS_URI}fan_tach/${fan_name}_0
	${response}= OpenBMC Get Request ${path}
	${json}= To JSON ${response.content}
	${fan_clockwise_speed}= Set Variable ${json["data"]["Value"]}
	${target_speed}= Set Variable ${json["data"]["Target"]}

	# Get the counter-clockwise blade speed.
	${path}= Catenate ${SENSORS_URI}fan_tach/${fan_name}_1
	${response}= OpenBMC Get Request ${path}
	${json}= To JSON ${response.content}
	${fan_counterclockwise_speed}= Set Variable ${json["data"]["Value"]}

	[Return] ${target_speed} ${fan_clockwise_speed}
	... ${fan_counterclockwise_speed}


	Get Fan Target And Speed
	[Documentation] Return the fan target speed setting and the
	... speed of the fastest blade.
	[Arguments] ${fan_name}

	# Description of argument(s):
	# fan_name The name of a fan (e.g. "fan0")

	${target_speed} ${clockwise_speed} ${counterclockwise_speed}=
	... Get Target And Blade Speeds ${fan_name}
	${blade_speed}= Run Keyword If
	... ${clockwise_speed} > ${counterclockwise_speed}
	... Set Variable ${clockwise_speed} ELSE
	... Set Variable ${counterclockwise_speed}
	[Return] ${target_speed} ${blade_speed}


	Set Fan Daemon State
	[Documentation] Set the state of the fan control service.
	[Arguments] ${state}

	# Description of argument(s):
	# state The desired state of the service, usually
	# "start", "stop", or "restart".

	${cmd}= Catenate systemctl ${state} phosphor-fan-control@0.service
	${stdout} ${stderr} ${rc}= BMC Execute Command ${cmd}


	Verify Minimum Number Of Fans With Cooling Type
	[Documentation] Verify minimum number of fans.
	[Arguments] ${num_fans} ${water_cooled}

	# Description of argument(s):
	# num_fans The number of fans present in the system.
	# water_cooled The value 1 if the system is water cooled,
	# 0 if air cooled.

	# For a water cooled system.
	${min_fans_water}= Set Variable 2

	# For an air cooled system.
	${min_fans_air}= Set Variable 3

	Rprintn
	Rpvars num_fans water_cooled

	# If water cooled must have at least min_fans_water fans, otherwise
	# issue Fatal Error and terminate testing.
	Run Keyword If ${water_cooled} == 1 and ${num_fans} < ${min_fans_water}
	... Fatal Error
	... msg=Water cooled but less than ${min_fans_water} fans present.

	# If air cooled must have at least min_fans_air fans.
	Run Keyword If ${water_cooled} == 0 and ${num_fans} < ${min_fans_air}
	... Fatal Error
	... msg=Air cooled but less than ${min_fans_air} fans present.


	Verify Fan Monitors With State
	[Documentation] Verify fan monitor daemons in the system state.
	[Arguments] ${power_state}
	# The number of monitoring daemons is dependent upon the system
	# power state. If power is off there should be 0, if power
	# is on there should be several.

	# Description of argument(s):
	# power_state Power staet of the system, either "On" or "Off"

	${cmd}= Catenate systemctl list-units \| grep phosphor-fan \| wc -l
	${num_fan_daemons} ${stderr} ${rc}= BMC Execute Command ${cmd}

	Rpvars power_state num_fan_daemons

	# Fail if system is On and there are no fan monitors.
	Run Keyword If '${power_state}' == 'On' and ${num_fan_daemons} == 0
	... Fail msg=No phosphor-fan monitors found at power on.

	# Fail if system is Off and the fan monitors are present.
	Run Keyword If '${power_state}' == 'Off' and ${num_fan_daemons} != 0
	... Fail msg=Phosphor-fan monitors found at power off.