tests/test_escale_base.robot - openbmc/openbmc-test-automation - Gitiles

 *** Settings ***
 Documentation     Energy scale base tests.


 # Test Parameters:
 # OPENBMC_HOST        The BMC host name or IP address.


 Resource          ../lib/energy_scale_utils.robot
 Resource          ../lib/openbmc_ffdc.robot
 Resource          ../lib/utils.robot
 Resource          ../lib/logging_utils.robot
 Library           ../lib/logging_utils.py


 Suite Setup      Suite Setup Execution
 Test Teardown    Test Teardown Execution


 *** Variables ****

 ${over_max_power}       4001
 ${max_power}            3050
 ${mid_power}            1950
 ${min_power}            600
 ${below_min_power}      499
 ${zero_power}           0
 #  The power limits are documented in
 #  open-power/witherspoon-xml/master/witherspoon.xml.


 *** Test Cases ***


 Escale Base Test Inactive Monitoring
     [Documentation]  Run base power tests with DCMI power montoring off.
     [Tags]  Escale_Base_Test_Deactive_Monitoring

     Deactivate DCMI Power And Verify
     Verify Power Limits


 Escale Base Test Active Monitoring
     [Documentation]  Run base power tests with DCMI power monitoring on.
     [Tags]  Escale_Base_Test_Active_Monitoring

     Activate DCMI Power And Verify
     Verify Power Limits


 Escale Power Setting Via REST And Verify
     [Documentation]  Set power via REST and check using IPMI.
     [Tags]  Escale_Power_Setting_Via_REST_And_Verify

     # A convenient power level bewtwwn maximum and minimum.
     ${test_power}=  Set Variable  1700

     # Set the power limit via REST.
     Set DCMI Power Limit Via REST  ${test_power}

     # Read the power limit using IPMI.
     ${power_limit}=  Get DCMI Power Limit
     Should Be True  ${power_limit} == ${test_power}
     ...  msg=Reading Power limit with IPMI failed after setting it with REST.


 Escale Power Setting Via IPMI And Verify
     [Documentation]  Set power via IPMI then check via REST.
     [Tags]  Escale_Power_Setting_Via_IPMI_And_Verify

     # A convenient power level bewtwwn maximum and minimum.
     ${test_power}=  Set Variable  2200

     # Set DCMI Power via IPMI.
     Set DCMI Power Limit And Verify  ${test_power}

     # Read the limit via REST.
     ${power_limit}=  Get DCMI Power Limit Via REST
     Should Be True  ${power_limit} == ${test_power}
     ...  msg=Reading power limit with REST failed after setting it with IPMI.


 Escale Activation Test Via REST
     [Documentation]  Activate power monitoring via REST then check via IPMI.
     [Tags]  Escale_Activation_Test_Via_REST

     Activate DCMI Power Via REST
     # Confirm activation state using IPMI.
     Fail If DCMI Power Is Not Activated


 Escale Dectivation Test Via REST
     [Documentation]  Deactivate power monitoring via REST and check via IPMI.
     [Tags]  Escale_Deactivation_Test_Via_REST

     Deactivate DCMI Power Via REST
     # Confirm activation state using IPMI.
     Fail If DCMI Power Is Not Deactivated


 *** Keywords ***


 Verify Power Limits
     [Documentation]  Set power levels and verify limits.

     Set DCMI Power Limit And Verify  ${mid_power}
     Test Power Limit  ${min_power}  ${below_min_power}
     Test Power Limit  ${min_power}  ${zero_power}
     Test Power Limit  ${max_power}  ${over_max_power}

     ${power_limit}=  Get DCMI Power Limit
     Should Be True  ${power_limit} == ${max_power}
     ...  msg=Power at ${power_limit}. Power should be at ${max_power}.


 Test Power Limit
     [Documentation]  Set power and check limit.
     [Arguments]  ${good_power}  ${outside_bounds_power}

     # Description of argument(s):
     # good_power              A valid power setting, usually at a limit.
     # outside_bounds_power    A power level that is beyond the limit.

     Set DCMI Power Limit And Verify  ${good_power}

     # Attempt set power limit out of range.
     ${int_power_limit}=  Convert To Integer  ${outside_bounds_power}
     ${data}=  Create Dictionary  data=${int_power_limit}
     Write Attribute   ${CONTROL_HOST_URI}power_cap  PowerCap  data=${data}


 Suite Setup Execution
     [Documentation]  Do test setup initialization.

     # Save the deactivation/activation setting.
     ${cmd}=  Catenate  dcmi power get_limit | grep State
     ${resp}=  Run External IPMI Standard Command  ${cmd}
     # Response is either "Power Limit Active" or "No Active Power Limit".
     ${initial_deactivation}=  Get Count  ${resp}  No
     # If deactivated: initial_deactivation = 1, 0 otherwise.
     Set Suite Variable  ${initial_deactivation}  children=true

     # Save the power limit setting.
     ${initial_power_setting}=  Get DCMI Power Limit
     Set Suite Variable  ${initial_power_setting}  children=true

     Delete All Error Logs


 Test Teardown Execution
     [Documentation]  Do the post test teardown.

     FFDC On Test Case Fail

     # Restore the system's initial power limit setting.
     Run Keyword If  '${initial_power_setting}' != '${0}'
     ...  Set DCMI Power Limit And Verify  ${initial_power_setting}

     # Restore the system's initial deactivation/activation setting.
     Run Keyword If  '${initial_deactivation}' == '${1}'
     ...  Deactivate DCMI Power And Verify  ELSE  Activate DCMI Power And Verify

     # Clean up any error logs before exiting.
     Delete All Error Logs
	* Settings *
	Documentation Energy scale base tests.


	# Test Parameters:
	# OPENBMC_HOST The BMC host name or IP address.


	Resource ../lib/energy_scale_utils.robot
	Resource ../lib/openbmc_ffdc.robot
	Resource ../lib/utils.robot
	Resource ../lib/logging_utils.robot
	Library ../lib/logging_utils.py


	Suite Setup Suite Setup Execution
	Test Teardown Test Teardown Execution


	* Variables **

	${over_max_power} 4001
	${max_power} 3050
	${mid_power} 1950
	${min_power} 600
	${below_min_power} 499
	${zero_power} 0
	# The power limits are documented in
	# open-power/witherspoon-xml/master/witherspoon.xml.


	* Test Cases *


	Escale Base Test Inactive Monitoring
	[Documentation] Run base power tests with DCMI power montoring off.
	[Tags] Escale_Base_Test_Deactive_Monitoring

	Deactivate DCMI Power And Verify
	Verify Power Limits


	Escale Base Test Active Monitoring
	[Documentation] Run base power tests with DCMI power monitoring on.
	[Tags] Escale_Base_Test_Active_Monitoring

	Activate DCMI Power And Verify
	Verify Power Limits


	Escale Power Setting Via REST And Verify
	[Documentation] Set power via REST and check using IPMI.
	[Tags] Escale_Power_Setting_Via_REST_And_Verify

	# A convenient power level bewtwwn maximum and minimum.
	${test_power}= Set Variable 1700

	# Set the power limit via REST.
	Set DCMI Power Limit Via REST ${test_power}

	# Read the power limit using IPMI.
	${power_limit}= Get DCMI Power Limit
	Should Be True ${power_limit} == ${test_power}
	... msg=Reading Power limit with IPMI failed after setting it with REST.


	Escale Power Setting Via IPMI And Verify
	[Documentation] Set power via IPMI then check via REST.
	[Tags] Escale_Power_Setting_Via_IPMI_And_Verify

	# A convenient power level bewtwwn maximum and minimum.
	${test_power}= Set Variable 2200

	# Set DCMI Power via IPMI.
	Set DCMI Power Limit And Verify ${test_power}

	# Read the limit via REST.
	${power_limit}= Get DCMI Power Limit Via REST
	Should Be True ${power_limit} == ${test_power}
	... msg=Reading power limit with REST failed after setting it with IPMI.


	Escale Activation Test Via REST
	[Documentation] Activate power monitoring via REST then check via IPMI.
	[Tags] Escale_Activation_Test_Via_REST

	Activate DCMI Power Via REST
	# Confirm activation state using IPMI.
	Fail If DCMI Power Is Not Activated


	Escale Dectivation Test Via REST
	[Documentation] Deactivate power monitoring via REST and check via IPMI.
	[Tags] Escale_Deactivation_Test_Via_REST

	Deactivate DCMI Power Via REST
	# Confirm activation state using IPMI.
	Fail If DCMI Power Is Not Deactivated


	* Keywords *


	Verify Power Limits
	[Documentation] Set power levels and verify limits.

	Set DCMI Power Limit And Verify ${mid_power}
	Test Power Limit ${min_power} ${below_min_power}
	Test Power Limit ${min_power} ${zero_power}
	Test Power Limit ${max_power} ${over_max_power}

	${power_limit}= Get DCMI Power Limit
	Should Be True ${power_limit} == ${max_power}
	... msg=Power at ${power_limit}. Power should be at ${max_power}.


	Test Power Limit
	[Documentation] Set power and check limit.
	[Arguments] ${good_power} ${outside_bounds_power}

	# Description of argument(s):
	# good_power A valid power setting, usually at a limit.
	# outside_bounds_power A power level that is beyond the limit.

	Set DCMI Power Limit And Verify ${good_power}

	# Attempt set power limit out of range.
	${int_power_limit}= Convert To Integer ${outside_bounds_power}
	${data}= Create Dictionary data=${int_power_limit}
	Write Attribute ${CONTROL_HOST_URI}power_cap PowerCap data=${data}


	Suite Setup Execution
	[Documentation] Do test setup initialization.

	# Save the deactivation/activation setting.
	${cmd}= Catenate dcmi power get_limit \| grep State
	${resp}= Run External IPMI Standard Command ${cmd}
	# Response is either "Power Limit Active" or "No Active Power Limit".
	${initial_deactivation}= Get Count ${resp} No
	# If deactivated: initial_deactivation = 1, 0 otherwise.
	Set Suite Variable ${initial_deactivation} children=true

	# Save the power limit setting.
	${initial_power_setting}= Get DCMI Power Limit
	Set Suite Variable ${initial_power_setting} children=true

	Delete All Error Logs


	Test Teardown Execution
	[Documentation] Do the post test teardown.

	FFDC On Test Case Fail

	# Restore the system's initial power limit setting.
	Run Keyword If '${initial_power_setting}' != '${0}'
	... Set DCMI Power Limit And Verify ${initial_power_setting}

	# Restore the system's initial deactivation/activation setting.
	Run Keyword If '${initial_deactivation}' == '${1}'
	... Deactivate DCMI Power And Verify ELSE Activate DCMI Power And Verify

	# Clean up any error logs before exiting.
	Delete All Error Logs