def __init__(self,
i_bmcIP,
i_bmcUser,
i_bmcPasswd,
i_bmcUserIpmi,
i_bmcPasswdIpmi,
i_ffdcDir=None,
i_hostip=None,
i_hostuser=None,
i_hostPasswd=None):
self.cv_BMC = OpTestBMC(i_bmcIP, i_bmcUser, i_bmcPasswd, i_ffdcDir)
self.cv_IPMI = OpTestIPMI(i_bmcIP, i_bmcUserIpmi, i_bmcPasswdIpmi,
i_ffdcDir, i_hostip, i_hostuser,
i_hostPasswd)
self.cv_HOST = OpTestHost(i_hostip, i_hostuser, i_hostPasswd, i_bmcIP,
i_ffdcDir)
self.cv_SYSTEM = OpTestSystem(i_bmcIP, i_bmcUser, i_bmcPasswd,
i_bmcUserIpmi, i_bmcPasswdIpmi,
i_ffdcDir, i_hostip, i_hostuser,
i_hostPasswd)
self.util = OpTestUtil()
self.opTestSensors = OpTestSensors(i_bmcIP, i_bmcUser, i_bmcPasswd,
i_bmcUserIpmi, i_bmcPasswdIpmi,
i_ffdcDir, i_hostip, i_hostuser,
i_hostPasswd)
class OpTestHeartbeat():
## Initialize this object
# @param i_bmcIP The IP address of the BMC
# @param i_bmcUser The userid to log into the BMC with
# @param i_bmcPasswd The password of the userid to log into the BMC with
# @param i_bmcUserIpmi The userid to issue the BMC IPMI commands with
# @param i_bmcPasswdIpmi The password of BMC IPMI userid
# @param i_ffdcDir Optional param to indicate where to write FFDC
#
# "Only required for inband tests" else Default = None
# @param i_hostIP The IP address of the HOST
# @param i_hostuser The userid to log into the HOST
# @param i_hostPasswd The password of the userid to log into the HOST with
#
def __init__(self, i_bmcIP, i_bmcUser, i_bmcPasswd,
i_bmcUserIpmi, i_bmcPasswdIpmi, i_ffdcDir=None, i_hostip=None,
i_hostuser=None, i_hostPasswd=None):
self.cv_BMC = OpTestBMC(i_bmcIP, i_bmcUser, i_bmcPasswd, i_ffdcDir)
self.cv_IPMI = OpTestIPMI(i_bmcIP, i_bmcUserIpmi, i_bmcPasswdIpmi,
i_ffdcDir)
self.cv_HOST = OpTestHost(i_hostip, i_hostuser, i_hostPasswd, i_bmcIP)
self.cv_SYSTEM = OpTestSystem(i_bmcIP, i_bmcUser, i_bmcPasswd,
i_bmcUserIpmi, i_bmcPasswdIpmi, i_ffdcDir, i_hostip,
i_hostuser, i_hostPasswd)
self.util = OpTestUtil()
##
# @brief This function will cover following test steps
# 1. It will check for os level and get kernel version
# 2. It will check for existence of ps command
# 3. It will check for kopald service is running
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
def test_kopald_service(self):
self.cv_SYSTEM.sys_bmc_power_on_validate_host()
# Get OS level
l_oslevel = self.cv_HOST.host_get_OS_Level()
# Get kernel version
l_kernel = self.cv_HOST.host_get_kernel_version()
# Checking for ps command
self.cv_HOST.host_check_command("ps")
l_cmd = "ps -ef | grep -i kopald"
print l_cmd
l_res = self.cv_HOST.host_run_command(l_cmd)
print l_res
if (l_res.__contains__('[kopald]')):
return BMC_CONST.FW_SUCCESS
else:
l_msg = "kopald service is not running"
print l_msg
raise OpTestError(l_msg)
class OpTestDropbearSafety():
## Initialize this object
# @param i_bmcIP The IP address of the BMC
# @param i_bmcUser The userid to log into the BMC with
# @param i_bmcPasswd The password of the userid to log into the BMC with
# @param i_bmcUserIpmi The userid to issue the BMC IPMI commands with
# @param i_bmcPasswdIpmi The password of BMC IPMI userid
# @param i_ffdcDir Optional param to indicate where to write FFDC
#
# "Only required for inband tests" else Default = None
# @param i_hostIP The IP address of the HOST
# @param i_hostuser The userid to log into the HOST
# @param i_hostPasswd The password of the userid to log into the HOST with
#
def __init__(self, i_bmcIP, i_bmcUser, i_bmcPasswd,
i_bmcUserIpmi, i_bmcPasswdIpmi, i_ffdcDir=None, i_hostip=None,
i_hostuser=None, i_hostPasswd=None):
self.cv_BMC = OpTestBMC(i_bmcIP, i_bmcUser, i_bmcPasswd, i_ffdcDir)
self.cv_IPMI = OpTestIPMI(i_bmcIP, i_bmcUserIpmi, i_bmcPasswdIpmi,
i_ffdcDir, i_hostip, i_hostuser, i_hostPasswd)
self.cv_HOST = OpTestHost(i_hostip, i_hostuser, i_hostPasswd, i_bmcIP)
self.cv_SYSTEM = OpTestSystem(i_bmcIP, i_bmcUser, i_bmcPasswd,
i_bmcUserIpmi, i_bmcPasswdIpmi, i_ffdcDir, i_hostip,
i_hostuser, i_hostPasswd)
self.util = OpTestUtil()
##
# @brief This function will tests Dropbear running functionality in skiroot
# 1. Power Off the system
# 2. Power on the system
# 3. Exit to the petitboot shell
# 4. Execute ps command
# 5. test will fail incase dropbear is running and listed out by ps
# 6. At the end of test reboot the system to OS.
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
def test_dropbear_running(self):
self.cv_SYSTEM.sys_bmc_power_on_validate_host()
print "Test Dropbear running in Petitboot"
print "Performing IPMI Power Off Operation"
self.console = self.cv_SYSTEM.sys_get_ipmi_console()
self.cv_SYSTEM.sys_ipmi_boot_system_to_petitboot(self.console)
self.cv_IPMI.ipmi_host_set_unique_prompt(self.console)
self.cv_IPMI.run_host_cmd_on_ipmi_console("uname -a")
# we don't grep for 'dropbear' so that our naive line.count
# below doesn't hit a false positive.
res = self.cv_IPMI.run_host_cmd_on_ipmi_console("ps|grep drop")
print res
self.cv_IPMI.ipmi_set_boot_to_disk()
for line in res:
if line.count('dropbear'):
raise OpTestError("drobear is running in the skiroot")
return BMC_CONST.FW_SUCCESS
def __init__(
self,
i_bmcIP,
i_bmcUser,
i_bmcPasswd,
i_bmcUserIpmi,
i_bmcPasswdIpmi,
i_ffdcDir=None,
i_hostip=None,
i_hostuser=None,
i_hostPasswd=None,
i_hostLspci=None,
):
self.cv_BMC = OpTestBMC(i_bmcIP, i_bmcUser, i_bmcPasswd, i_ffdcDir)
self.cv_IPMI = OpTestIPMI(
i_bmcIP, i_bmcUserIpmi, i_bmcPasswdIpmi, i_ffdcDir, i_hostip, i_hostuser, i_hostPasswd
)
self.cv_HOST = OpTestHost(i_hostip, i_hostuser, i_hostPasswd, i_bmcIP, i_ffdcDir)
self.cv_SYSTEM = OpTestSystem(
i_bmcIP,
i_bmcUser,
i_bmcPasswd,
i_bmcUserIpmi,
i_bmcPasswdIpmi,
i_ffdcDir,
i_hostip,
i_hostuser,
i_hostPasswd,
)
self.util = OpTestUtil()
self.lspci_file = i_hostLspci
def __init__(
self,
i_bmcIP,
i_bmcUser,
i_bmcPasswd,
i_bmcUserIpmi,
i_bmcPasswdIpmi,
i_ffdcDir=None,
i_lparip=None,
i_lparuser=None,
i_lparPasswd=None,
):
self.cv_BMC = OpTestBMC(i_bmcIP, i_bmcUser, i_bmcPasswd, i_ffdcDir)
self.cv_IPMI = OpTestIPMI(
i_bmcIP, i_bmcUserIpmi, i_bmcPasswdIpmi, i_ffdcDir, i_lparip, i_lparuser, i_lparPasswd
)
self.cv_LPAR = OpTestLpar(i_lparip, i_lparuser, i_lparPasswd, i_bmcIP)
self.cv_SYSTEM = OpTestSystem(
i_bmcIP,
i_bmcUser,
i_bmcPasswd,
i_bmcUserIpmi,
i_bmcPasswdIpmi,
i_ffdcDir,
i_lparip,
i_lparuser,
i_lparPasswd,
)
self.util = OpTestUtil()
def setUp(self):
bmcCfg, testCfg, hostCfg = _config_read()
opTestSys = OpTestSystem(bmcCfg['ip'],bmcCfg['username'],
bmcCfg['password'],
bmcCfg.get('usernameipmi'),
bmcCfg.get('passwordipmi'),
testCfg['ffdcdir'],
hostCfg['hostip'],
hostCfg['hostuser'],
hostCfg['hostpasswd'])
def __init__(self, i_bmcIP, i_bmcUser, i_bmcPasswd,
i_bmcUserIpmi, i_bmcPasswdIpmi, i_ffdcDir=None, i_hostIP=None,
i_hostUser=None, i_hostPasswd=None):
self.cv_BMC = OpTestBMC(i_bmcIP, i_bmcUser, i_bmcPasswd, i_ffdcDir)
self.cv_IPMI = OpTestIPMI(i_bmcIP, i_bmcUserIpmi, i_bmcPasswdIpmi,
i_ffdcDir)
self.cv_HOST = OpTestHost(i_hostIP, i_hostUser, i_hostPasswd, i_bmcIP)
self.cv_SYSTEM = OpTestSystem(i_bmcIP, i_bmcUser, i_bmcPasswd,
i_bmcUserIpmi, i_bmcPasswdIpmi, i_ffdcDir, i_hostIP,
i_hostUser, i_hostPasswd)
self.util = OpTestUtil()
def __init__(self,
i_bmcIP,
i_bmcUser,
i_bmcPasswd,
i_bmcUserIpmi,
i_bmcPasswdIpmi,
i_ffdcDir=None,
i_platName=None,
i_hostip=None,
i_hostuser=None,
i_hostPasswd=None):
self.cv_BMC = OpTestBMC(i_bmcIP, i_bmcUser, i_bmcPasswd, i_ffdcDir)
self.cv_IPMI = OpTestIPMI(i_bmcIP, i_bmcUserIpmi, i_bmcPasswdIpmi,
i_ffdcDir, i_hostip, i_hostuser,
i_hostPasswd)
self.cv_HOST = OpTestHost(i_hostip, i_hostuser, i_hostPasswd, i_bmcIP)
self.cv_SYSTEM = OpTestSystem(i_bmcIP, i_bmcUser, i_bmcPasswd,
i_bmcUserIpmi, i_bmcPasswdIpmi,
i_ffdcDir, i_hostip, i_hostuser,
i_hostPasswd)
self.cv_PLATFORM = i_platName
self.util = OpTestUtil()
class OpTestIPMILockMode():
## Initialize this object
# @param i_bmcIP The IP address of the BMC
# @param i_bmcUser The userid to log into the BMC with
# @param i_bmcPasswd The password of the userid to log into the BMC with
# @param i_bmcUserIpmi The userid to issue the BMC IPMI commands with
# @param i_bmcPasswdIpmi The password of BMC IPMI userid
# @param i_ffdcDir Optional param to indicate where to write FFDC
#
# "Only required for inband tests" else Default = None
# @param i_hostIP The IP address of the HOST
# @param i_hostuser The userid to log into the HOST
# @param i_hostPasswd The password of the userid to log into the HOST with
#
def __init__(self,
i_bmcIP,
i_bmcUser,
i_bmcPasswd,
i_bmcUserIpmi,
i_bmcPasswdIpmi,
i_ffdcDir=None,
i_hostip=None,
i_hostuser=None,
i_hostPasswd=None):
self.cv_BMC = OpTestBMC(i_bmcIP, i_bmcUser, i_bmcPasswd, i_ffdcDir)
self.cv_IPMI = OpTestIPMI(i_bmcIP, i_bmcUserIpmi, i_bmcPasswdIpmi,
i_ffdcDir, i_hostip, i_hostuser,
i_hostPasswd)
self.cv_HOST = OpTestHost(i_hostip, i_hostuser, i_hostPasswd, i_bmcIP)
self.cv_SYSTEM = OpTestSystem(i_bmcIP, i_bmcUser, i_bmcPasswd,
i_bmcUserIpmi, i_bmcPasswdIpmi,
i_ffdcDir, i_hostip, i_hostuser,
i_hostPasswd)
self.util = OpTestUtil()
##
# @brief This function will cover following test steps
# 1. It will get the OS level installed on power platform
# 2. It will check for kernel version installed on the Open Power Machine
# 3. It will check for ipmitool command existence and ipmitool package
# 4. Load the necessary ipmi modules based on config values
# 5. Issue a ipmi lock command through out-of-band authenticated interface
# 6. Now BMC IPMI is in locked mode, at this point only white listed
# in-band ipmi commands sholud work(No other in-band ipmi command should work)
# 7. Execute and test the functionality of whitelisted in-band ipmi
# commands in locked mode
# 8. At the end of test issue a ipmi unlock command to revert the availablity of all
# in-band ipmi commands in unlocked mode.
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
def test_ipmi_lock_mode(self):
self.cv_SYSTEM.sys_bmc_power_on_validate_host()
# Get OS level
l_oslevel = self.cv_HOST.host_get_OS_Level()
# Get kernel version
l_kernel = self.cv_HOST.host_get_kernel_version()
# Checking for ipmitool command and lm_sensors package
self.cv_HOST.host_check_command("ipmitool")
l_pkg = self.cv_HOST.host_check_pkg_for_utility(l_oslevel, "ipmitool")
print "Installed package: %s" % l_pkg
# loading below ipmi modules based on config option
# ipmi_devintf, ipmi_powernv and ipmi_masghandler
self.cv_HOST.host_load_module_based_on_config(
l_kernel, BMC_CONST.CONFIG_IPMI_DEVICE_INTERFACE,
BMC_CONST.IPMI_DEV_INTF)
self.cv_HOST.host_load_module_based_on_config(
l_kernel, BMC_CONST.CONFIG_IPMI_POWERNV, BMC_CONST.IPMI_POWERNV)
self.cv_HOST.host_load_module_based_on_config(
l_kernel, BMC_CONST.CONFIG_IPMI_HANDLER,
BMC_CONST.IPMI_MSG_HANDLER)
# Issue a ipmi lock command through authenticated interface
print "Issuing ipmi lock command through authenticated interface"
l_res = self.cv_IPMI.ipmitool_execute_command(BMC_CONST.IPMI_LOCK_CMD)
l_res = l_res.splitlines()
if int(l_res[-1]):
l_msg = "IPMI:Lock command failed, There may be two reasons here.\n\
a. check the corresponding parches available in AMI driver code,\n\
b. if patches available then command is failing"
print l_msg
raise OpTestError(l_msg)
print "IPMI:Lock command executed successfully"
try:
self.run_inband_ipmi_whitelisted_cmds()
except:
l_msg = "One of white listed in-band ipmi command execution failed"
print sys.exc_info()
finally:
# Issue a ipmi unlock command at the end of test.
print "Issuing ipmi unlock command through authenticated interface"
self.cv_IPMI.ipmitool_execute_command(BMC_CONST.IPMI_UNLOCK_CMD)
##
# @brief This function will execute whitelisted in-band ipmi commands
# and test the functionality in locked mode.
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
def run_inband_ipmi_whitelisted_cmds(self):
l_con = self.cv_SYSTEM.sys_get_ipmi_console()
self.cv_IPMI.ipmi_host_login(l_con)
self.cv_IPMI.ipmi_host_set_unique_prompt(l_con)
self.cv_IPMI.run_host_cmd_on_ipmi_console("uname -a")
# Test IPMI white listed commands those should be allowed through un-authenticated
# in-band interface
# 1.[App] Get Device ID
print "Testing Get Device ID command"
l_res = self.cv_IPMI.run_host_cmd_on_ipmi_console(
BMC_CONST.HOST_GET_DEVICE_ID)
if l_res[-1] != "0":
l_msg = "IPMI: Get Device ID command failed"
raise OpTestError(l_msg)
# 2.[App] Get Device GUID
print "Testing Get Device GUID"
l_res = self.cv_IPMI.run_host_cmd_on_ipmi_console(
BMC_CONST.HOST_GET_DEVICE_GUID)
if l_res[-1] != "0":
l_msg = "IPMI: Get Device GUID command failed"
raise OpTestError(l_msg)
# 3.[App] Get System GUID
print "Testing Get system GUID"
l_res = self.cv_IPMI.run_host_cmd_on_ipmi_console(
BMC_CONST.HOST_GET_SYSTEM_GUID)
if l_res[-1] != "0":
l_msg = "IPMI: Get System GUID command failed"
raise OpTestError(l_msg)
# 4.[Storage] Get SEL info
print "Testing Get SEL info"
l_res = self.cv_IPMI.run_host_cmd_on_ipmi_console(
BMC_CONST.HOST_GET_SEL_INFO)
if l_res[-1] != "0":
l_msg = "IPMI: Get SEL info command failed"
raise OpTestError(l_msg)
# 5.[Storage] Get SEL time
print "Testing Get SEL time"
l_res = self.cv_IPMI.run_host_cmd_on_ipmi_console(
BMC_CONST.HOST_GET_SEL_TIME_RAW)
if l_res[-1] != "0":
l_msg = "IPMI: Get SEL time command failed"
raise OpTestError(l_msg)
# 6. [Storage] Reserve SEL
print "Testing Reserve SEL"
l_res = self.cv_IPMI.run_host_cmd_on_ipmi_console(
BMC_CONST.HOST_RESERVE_SEL)
if l_res[-1] != "0":
l_msg = "IPMI: Reserve SEL command failed"
raise OpTestError(l_msg)
# 7. [Storage] Set SEL time (required for RTC)
print "Testing Set SEL time"
l_res = self.cv_IPMI.run_host_cmd_on_ipmi_console(
BMC_CONST.HOST_GET_SEL_TIME)
l_res = self.cv_IPMI.run_host_cmd_on_ipmi_console(
BMC_CONST.HOST_SET_SEL_TIME + " \'" + l_res[-1] + "\'; echo $?")
if l_res[-1] != "0":
l_msg = "IPMI: Set SEL time command failed"
raise OpTestError(l_msg)
self.cv_IPMI.run_host_cmd_on_ipmi_console(BMC_CONST.HOST_GET_SEL_TIME)
# 8. [Transport] Get LAN parameters
print "Testing Get LAN parameters"
l_res = self.cv_IPMI.run_host_cmd_on_ipmi_console(
BMC_CONST.HOST_GET_LAN_PARAMETERS)
if l_res[-1] != "0":
l_msg = "IPMI: Get LAN parameters command failed"
raise OpTestError(l_msg)
# 9.[Chassis] Get System Boot Options
print "Testing Get System Boot Options"
l_res = self.cv_IPMI.run_host_cmd_on_ipmi_console(
BMC_CONST.HOST_GET_SYSTEM_BOOT_OPTIONS)
if l_res[-1] != "0":
l_msg = "IPMI: Get System Boot Options command failed"
raise OpTestError(l_msg)
# 10.[Chassis] Set System Boot Options
print "Testing Set System Boot Options"
l_res = self.cv_IPMI.run_host_cmd_on_ipmi_console(
BMC_CONST.HOST_SET_SYTEM_BOOT_OPTIONS)
if l_res[-1] != "0":
l_msg = "IPMI: Set System Boot Options command failed"
raise OpTestError(l_msg)
self.cv_IPMI.run_host_cmd_on_ipmi_console(
BMC_CONST.HOST_GET_SYSTEM_BOOT_OPTIONS)
# 11. [App] Get BMC Global Enables
print "Testing Get BMC Global Enables"
l_res = self.cv_IPMI.run_host_cmd_on_ipmi_console(
BMC_CONST.HOST_GET_BMC_GLOBAL_ENABLES_RAW)
if l_res[-1] != "0":
l_msg = "IPMI: Get BMC Global Enables command failed"
raise OpTestError(l_msg)
self.cv_IPMI.run_host_cmd_on_ipmi_console(
BMC_CONST.HOST_GET_BMC_GLOBAL_ENABLES)
# 12. [App] Set BMC Global Enables
print "Testing Set BMC Global Enables"
l_res = self.cv_IPMI.run_host_cmd_on_ipmi_console(
BMC_CONST.HOST_SET_BMC_GLOBAL_ENABLES_SEL_OFF)
if l_res[-1] != "0":
l_msg = "IPMI: Set BMC Global Enables sel=off command failed"
raise OpTestError(l_msg)
self.cv_IPMI.run_host_cmd_on_ipmi_console(
BMC_CONST.HOST_GET_BMC_GLOBAL_ENABLES)
self.cv_IPMI.run_host_cmd_on_ipmi_console(
BMC_CONST.HOST_SET_BMC_GLOBAL_ENABLES_SEL_ON)
# 13.[App] Get System Interface Capabilities
print "Testing Get System Interface Capabilities"
l_res = self.cv_IPMI.run_host_cmd_on_ipmi_console(
BMC_CONST.HOST_GET_SYSTEM_INTERFACE_CAPABILITIES_SSIF)
if l_res[-1] != "0":
l_msg = "IPMI: Get System Interface Capabilities SSIF command failed"
raise OpTestError(l_msg)
l_res = self.cv_IPMI.run_host_cmd_on_ipmi_console(
BMC_CONST.HOST_GET_SYSTEM_INTERFACE_CAPABILITIES_KCS)
if l_res[-1] != "0":
l_msg = "IPMI: Get System Interface Capabilities KCS command failed"
raise OpTestError(l_msg)
# 14.[App] Get Message Flags
print "Testing Get Message Flags"
l_res = self.cv_IPMI.run_host_cmd_on_ipmi_console(
BMC_CONST.HOST_GET_MESSAGE_FLAGS)
if l_res[-1] != "0":
l_msg = "IPMI: Get Message Flags command failed"
raise OpTestError(l_msg)
# 15. [App] Get BT Capabilities
print "Testing Get BT Capabilities"
l_res = self.cv_IPMI.run_host_cmd_on_ipmi_console(
BMC_CONST.HOST_GET_BT_CAPABILITIES)
if l_res[-1] != "0":
l_msg = "IPMI: Get BT Capabilities command failed"
raise OpTestError(l_msg)
# 16. [App] Clear Message Flags
print "Testing Clear Message Flags"
l_res = self.cv_IPMI.run_host_cmd_on_ipmi_console(
BMC_CONST.HOST_CLEAR_MESSAGE_FLAGS)
if l_res[-1] != "0":
l_msg = "IPMI: Clear Message Flags command failed"
raise OpTestError(l_msg)
# 17. [OEM] PNOR Access Status
print "Testing the PNOR Access Status"
l_res = self.cv_IPMI.run_host_cmd_on_ipmi_console(
BMC_CONST.HOST_PNOR_ACCESS_STATUS_DENY)
if l_res[-1] != "0":
l_msg = "IPMI: PNOR Access Status:deny command failed"
raise OpTestError(l_msg)
l_res = self.cv_IPMI.run_host_cmd_on_ipmi_console(
BMC_CONST.HOST_PNOR_ACCESS_STATUS_GRANT)
if l_res[-1] != "0":
l_msg = "IPMI: PNOR Access Status:grant command failed"
raise OpTestError(l_msg)
# 18. [Storage] Add SEL Entry
print "Testing Add SEL Entry"
print "Clearing the SEL list"
self.cv_IPMI.ipmi_sdr_clear()
l_res = self.cv_IPMI.run_host_cmd_on_ipmi_console(
BMC_CONST.HOST_ADD_SEL_ENTRY)
if l_res[-1] != "0":
l_msg = "IPMI: Add SEL Entry command failed"
raise OpTestError(l_msg)
l_res = self.cv_IPMI.ipmitool_execute_command(
BMC_CONST.IPMI_LIST_LAST_SEL_EVENT)
print "Checking for Reserved entry creation in SEL"
if "Reserved" not in l_res:
l_msg = "IPMI: Add SEL Entry command, doesn't create an SEL event"
raise OpTestError(l_msg)
# 19. [App] Set Power State
print "Testing Set Power State"
l_res = self.cv_IPMI.run_host_cmd_on_ipmi_console(
BMC_CONST.HOST_SET_ACPI_POWER_STATE)
if l_res[-1] != "0":
l_msg = "IPMI: Set Power State command failed"
raise OpTestError(l_msg)
# 20. [App] Set watchdog
print "Testing Set watchdog"
l_res = self.cv_IPMI.run_host_cmd_on_ipmi_console(
BMC_CONST.HOST_SET_WATCHDOG)
if l_res[-1] != "0":
l_msg = "IPMI: Set watchdog command failed"
raise OpTestError(l_msg)
self.cv_IPMI.ipmitool_execute_command(BMC_CONST.IPMI_MC_WATCHDOG_GET)
# 21. [Sensor/Event] Get Sensor Type
print "Testing Get Sensor Type"
l_res = self.cv_IPMI.ipmitool_execute_command(
BMC_CONST.IPMI_SDR_GET_WATCHDOG)
matchObj = re.search("Watchdog \((0x\d{1,})\)", l_res)
if matchObj:
print "Got sensor Id for watchdog: %s" % matchObj.group(1)
else:
l_msg = "Failed to get sensor id for watchdog sensor"
raise OpTestError(l_msg)
l_res = self.cv_IPMI.run_host_cmd_on_ipmi_console(
BMC_CONST.HOST_GET_SENSOR_TYPE_FOR_WATCHDOG + " " +
matchObj.group(1) + " ;echo $?")
if l_res[-1] != "0":
l_msg = "IPMI: Get Sensor Type command failed"
raise OpTestError(l_msg)
# 22.[Sensor/Event] Get Sensor Reading
print "Testing Get Sensor Reading"
l_res = self.cv_IPMI.ipmitool_execute_command(
BMC_CONST.IPMI_SDR_GET_WATCHDOG)
matchObj = re.search("Watchdog \((0x\d{1,})\)", l_res)
if matchObj:
print "Got sensor Id for watchdog: %s" % matchObj.group(1)
else:
l_msg = "Failed to get sensor id for watchdog sensor"
raise OpTestError(l_msg)
l_res = self.cv_IPMI.run_host_cmd_on_ipmi_console(
BMC_CONST.HOST_GET_SENSOR_READING + " " + matchObj.group(1) +
" ;echo $?")
if l_res[-1] != "0":
l_msg = "IPMI: Get Sensor Reading command failed"
raise OpTestError(l_msg)
# 23.[Sensor/Event] Platform Event (0x02)
print "Testing Platform Event"
self.cv_IPMI.ipmi_sdr_clear()
l_res = self.cv_IPMI.run_host_cmd_on_ipmi_console(
BMC_CONST.HOST_PLATFORM_EVENT)
if l_res[-1] != "0":
l_msg = "IPMI: Platform Event command failed"
raise OpTestError(l_msg)
l_res = self.cv_IPMI.ipmitool_execute_command(
BMC_CONST.IPMI_LIST_LAST_SEL_EVENT)
if "Reserved" not in l_res:
l_msg = "IPMI: Platform Event command failed to log SEL event"
raise OpTestError(l_msg)
# 24. [OEM] PNOR Access Response (0x08)
print "Testing PNOR Access Response"
self.cv_IPMI.run_host_cmd_on_ipmi_console(
BMC_CONST.HOST_PNOR_ACCESS_STATUS_GRANT)
l_res = self.cv_IPMI.run_host_cmd_on_ipmi_console(
BMC_CONST.HOST_PNOR_ACCESS_RESPONSE)
if l_res[-1] != "0":
l_msg = "IPMI: PNOR Access Response command failed"
raise OpTestError(l_msg)
self.cv_IPMI.run_host_cmd_on_ipmi_console(
BMC_CONST.HOST_PNOR_ACCESS_STATUS_DENY)
l_res = self.cv_IPMI.run_host_cmd_on_ipmi_console(
BMC_CONST.HOST_PNOR_ACCESS_RESPONSE)
if l_res[-1] != "0":
l_msg = "IPMI: PNOR Access Response command failed"
raise OpTestError(l_msg)
# 25.[Chassis] Chassis Control
print "Testing chassis power on"
l_res = self.cv_IPMI.run_host_cmd_on_ipmi_console(
BMC_CONST.HOST_CHASSIS_POWER_ON)
if l_res[-1] != "0":
l_msg = "IPMI: chassis power on command failed"
raise OpTestError(l_msg)
# 26.[App] 0x38 Get Channel Authentication Cap
print "Testing Get Channel Authentication Capabilities"
l_res = self.cv_IPMI.run_host_cmd_on_ipmi_console(
BMC_CONST.HOST_GET_CHANNEL_AUTH_CAP)
if l_res[-1] != "0":
l_msg = "IPMI: Get Channel Authentication Capabilities command failed"
raise OpTestError(l_msg)
# 27.[App] Reset Watchdog (0x22)
print "Testing reset watchdog"
self.cv_IPMI.ipmi_sdr_clear()
l_res = self.cv_IPMI.run_host_cmd_on_ipmi_console(
BMC_CONST.HOST_RESET_WATCHDOG)
if l_res[-1] != "0":
l_msg = "IPMI: Reset Watchdog command failed"
raise OpTestError(l_msg)
time.sleep(10)
# Reset watchdog should create a SEL event log
l_res = self.cv_IPMI.ipmitool_execute_command(
BMC_CONST.IPMI_LIST_LAST_SEL_EVENT)
if "Watchdog" not in l_res:
l_msg = "IPMI: Reset Watchdog command, doesn't create an SEL event"
raise OpTestError(l_msg)
# 28. [App] Get ACPI Power State (0x06)
print "Testing Get ACPI Power State"
l_res = self.cv_IPMI.run_host_cmd_on_ipmi_console(
BMC_CONST.HOST_GET_ACPI_POWER_STATE)
if l_res[-1] != "0":
l_msg = "IPMI: Get ACPI Power State command failed"
raise OpTestError(l_msg)
class OpTestHMIHandling:
## Initialize this object
# @param i_bmcIP The IP address of the BMC
# @param i_bmcUser The userid to log into the BMC with
# @param i_bmcPasswd The password of the userid to log into the BMC with
# @param i_bmcUserIpmi The userid to issue the BMC IPMI commands with
# @param i_bmcPasswdIpmi The password of BMC IPMI userid
# @param i_ffdcDir Optional param to indicate where to write FFDC
#
# "Only required for inband tests" else Default = None
# @param i_lparIP The IP address of the LPAR
# @param i_lparuser The userid to log into the LPAR
# @param i_lparPasswd The password of the userid to log into the LPAR with
#
def __init__(
self,
i_bmcIP,
i_bmcUser,
i_bmcPasswd,
i_bmcUserIpmi,
i_bmcPasswdIpmi,
i_ffdcDir=None,
i_lparip=None,
i_lparuser=None,
i_lparPasswd=None,
):
self.cv_BMC = OpTestBMC(i_bmcIP, i_bmcUser, i_bmcPasswd, i_ffdcDir)
self.cv_IPMI = OpTestIPMI(
i_bmcIP, i_bmcUserIpmi, i_bmcPasswdIpmi, i_ffdcDir, i_lparip, i_lparuser, i_lparPasswd
)
self.cv_LPAR = OpTestLpar(i_lparip, i_lparuser, i_lparPasswd, i_bmcIP)
self.cv_SYSTEM = OpTestSystem(
i_bmcIP,
i_bmcUser,
i_bmcPasswd,
i_bmcUserIpmi,
i_bmcPasswdIpmi,
i_ffdcDir,
i_lparip,
i_lparuser,
i_lparPasswd,
)
self.util = OpTestUtil()
##
# @brief This is a common function for all the hmi test cases. This will be executed before
# any test case starts. Basically this provides below requirements.
# 1. Validates all required lpar commands
# 2. It will clone skiboot source repository
# 3. Compile the necessary tools xscom-utils and gard utility to test HMI.
# 4. Get the list Of Chips and cores in the form of dictionary.
# Ex: [['00000000', ['4', '5', '6', 'c', 'd', 'e']], ['00000001', ['4', '5', '6', 'c', 'd', 'e']], ['00000010', ['4', '5', '6', 'c', 'd', 'e']]]
# 5. In-order to inject HMI errors on cpu's, cpu should be running,
# so disabling the sleep states 1 and 2 of all CPU's.
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
def test_init(self):
# Get OS level
self.cv_LPAR.lpar_get_OS_Level()
# Check whether git and gcc commands are available on lpar
self.cv_LPAR.lpar_check_command("git")
self.cv_LPAR.lpar_check_command("gcc")
# It will clone skiboot source repository
l_dir = "/tmp/skiboot"
self.cv_LPAR.lpar_clone_skiboot_source(l_dir)
# Compile the necessary tools xscom-utils and gard utility
self.cv_LPAR.lpar_compile_xscom_utilities(l_dir)
self.cv_LPAR.lpar_compile_gard_utility(l_dir)
# Getting list of processor chip Id's(executing getscom -l to get chip id's)
l_res = self.cv_LPAR.lpar_run_command("cd %s/external/xscom-utils/; ./getscom -l" % l_dir)
l_res = l_res.splitlines()
l_chips = []
for line in l_res:
matchObj = re.search("(\d{8}).*processor", line)
if matchObj:
l_chips.append(matchObj.group(1))
if not l_chips:
l_msg = "Getscom failed to list processor chip id's"
raise OpTestError(l_msg)
l_chips.sort()
print l_chips # ['00000000', '00000001', '00000010']
# Currently getting the list of active core id's with respect to each chip is by using opal msg log
# TODO: Need to identify best way to get list of cores(If Opal msg log is empty)
l_cmd = "cat /sys/firmware/opal/msglog | grep -i CHIP"
l_res = self.cv_LPAR.lpar_run_command(l_cmd)
l_cores = {}
self.l_dic = []
l_res = l_res.splitlines()
for line in l_res:
matchObj = re.search("Chip (\d{1,2}) Core ([a-z0-9])", line)
if matchObj:
if l_cores.has_key(int(matchObj.group(1))):
(l_cores[int(matchObj.group(1))]).append(matchObj.group(2))
else:
l_cores[int(matchObj.group(1))] = list(matchObj.group(2))
if not l_cores:
l_msg = "Failed in getting core id's information from OPAL msg log"
raise OpTestError(l_msg)
print l_cores # {0: ['4', '5', '6', 'c', 'd', 'e'], 1: ['4', '5', '6', 'c', 'd', 'e'], 10: ['4', '5', '6', 'c', 'd', 'e']}
l_cores = sorted(l_cores.iteritems())
print l_cores
i = 0
for tup in l_cores:
new_list = [l_chips[i], tup[1]]
self.l_dic.append(new_list)
i += 1
print self.l_dic
# self.l_dic is a list of chip id's, core id's . and is of below format
# [['00000000', ['4', '5', '6', 'c', 'd', 'e']], ['00000001', ['4', '5', '6', 'c', 'd', 'e']], ['00000010', ['4', '5', '6', 'c', 'd', 'e']]]
self.l_dir = l_dir
# In-order to inject HMI errors on cpu's, cpu should be running, so disabling the sleep states 1 and 2 of all CPU's
self.cv_LPAR.lpar_run_command(BMC_CONST.GET_CPU_SLEEP_STATE2)
self.cv_LPAR.lpar_run_command(BMC_CONST.GET_CPU_SLEEP_STATE1)
self.cv_LPAR.lpar_run_command(BMC_CONST.GET_CPU_SLEEP_STATE0)
self.cv_LPAR.lpar_run_command(BMC_CONST.DISABLE_CPU_SLEEP_STATE1)
self.cv_LPAR.lpar_run_command(BMC_CONST.DISABLE_CPU_SLEEP_STATE2)
self.cv_LPAR.lpar_run_command(BMC_CONST.GET_CPU_SLEEP_STATE2)
self.cv_LPAR.lpar_run_command(BMC_CONST.GET_CPU_SLEEP_STATE1)
self.cv_LPAR.lpar_run_command(BMC_CONST.GET_CPU_SLEEP_STATE0)
##
# @brief This function is mainly used to clear hardware gard entries.
# It will perform below steps
# 1. Reboot the system(Power off/on)
# 2. Clear any Hardware gard entries
# 3. Again reboot the system, to make use of garded Hardware.
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
def clearGardEntries(self):
# Power off and on the system.
self.cv_IPMI.ipmi_power_off()
self.cv_IPMI.ipmi_power_on()
if int(self.cv_SYSTEM.sys_ipl_wait_for_working_state()):
l_msg = "System failed to boot host OS"
raise OpTestError(l_msg)
time.sleep(BMC_CONST.LPAR_BRINGUP_TIME)
# Clearing gard entries after lpar comes up
self.cv_LPAR.lpar_get_OS_Level()
l_con = self.cv_SYSTEM.sys_get_ipmi_console()
self.cv_IPMI.ipmi_lpar_login(l_con)
self.cv_IPMI.ipmi_lpar_set_unique_prompt(l_con)
self.cv_IPMI.run_lpar_cmd_on_ipmi_console("uname -a")
l_dir = "/tmp/skiboot"
self.cv_IPMI.run_lpar_cmd_on_ipmi_console("cd %s/external/gard/;" % l_dir)
l_cmd = "./gard list; echo $?"
self.cv_IPMI.run_lpar_cmd_on_ipmi_console(l_cmd)
l_cmd = "./gard clear all; echo $?"
l_res = self.cv_IPMI.run_lpar_cmd_on_ipmi_console(l_cmd)
if int(l_res[-1]):
l_msg = "Clearing gard entries through gard tool is failed"
raise OpTestError(l_msg)
l_cmd = "./gard list; echo $?"
self.cv_IPMI.run_lpar_cmd_on_ipmi_console(l_cmd)
# Rebooting the system again to make use of garded hardware
self.cv_IPMI.ipmi_power_off()
self.cv_IPMI.ipmi_power_on()
if int(self.cv_SYSTEM.sys_ipl_wait_for_working_state()):
l_msg = "System failed to boot host OS"
raise OpTestError(l_msg)
time.sleep(BMC_CONST.LPAR_BRINGUP_TIME)
self.cv_LPAR.lpar_get_OS_Level()
self.cv_SYSTEM.sys_ipmi_close_console(l_con)
##
# @brief This function executes HMI test case based on the i_test value, Before test starts
# disabling kdump service to make sure system reboots, after injecting non-recoverable errors.
#
# @param i_test @type int: this is the type of test case want to execute
# BMC_CONST.HMI_PROC_RECV_DONE: Processor recovery done
# BMC_CONST.HMI_PROC_RECV_ERROR_MASKED: proc_recv_error_masked
# BMC_CONST.HMI_MALFUNCTION_ALERT: malfunction_alert
# BMC_CONST.HMI_HYPERVISOR_RESOURCE_ERROR: hypervisor resource error
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
def testHMIHandling(self, i_test):
l_test = i_test
self.test_init()
l_con = self.cv_SYSTEM.sys_get_ipmi_console()
self.cv_IPMI.ipmi_lpar_login(l_con)
self.cv_IPMI.ipmi_lpar_set_unique_prompt(l_con)
self.cv_IPMI.run_lpar_cmd_on_ipmi_console("uname -a")
self.cv_IPMI.run_lpar_cmd_on_ipmi_console("cat /etc/os-release")
self.cv_IPMI.run_lpar_cmd_on_ipmi_console("service kdump status")
self.cv_IPMI.run_lpar_cmd_on_ipmi_console("service kdump stop")
self.cv_IPMI.run_lpar_cmd_on_ipmi_console("service kdump status")
self.cv_IPMI.run_lpar_cmd_on_ipmi_console("cd %s/external/xscom-utils/;" % self.l_dir)
self.cv_IPMI.run_lpar_cmd_on_ipmi_console("lscpu")
self.cv_IPMI.run_lpar_cmd_on_ipmi_console("dmesg -D")
if l_test == BMC_CONST.HMI_PROC_RECV_DONE:
self.test_proc_recv_done()
elif l_test == BMC_CONST.HMI_PROC_RECV_ERROR_MASKED:
self.test_proc_recv_error_masked()
elif l_test == BMC_CONST.HMI_MALFUNCTION_ALERT:
self.test_malfunction_allert()
elif l_test == BMC_CONST.HMI_HYPERVISOR_RESOURCE_ERROR:
self.test_hyp_resource_err()
else:
l_msg = "Please provide valid test case"
raise OpTestError(l_msg)
self.cv_SYSTEM.sys_ipmi_close_console(l_con)
return BMC_CONST.FW_SUCCESS
##
# @brief This function is used to test HMI: processor recovery done
# and also this function injecting error on all the cpus one by one and
# verify whether cpu is recovered or not.
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
def test_proc_recv_done(self):
for l_pair in self.l_dic:
l_chip = l_pair[0]
for l_core in l_pair[1]:
l_reg = "1%s013100" % l_core
l_cmd = "./putscom -c %s %s 0000000000100000; echo $?" % (l_chip, l_reg)
self.cv_IPMI.run_lpar_cmd_on_ipmi_console("dmesg -C")
time.sleep(10)
l_res = self.cv_IPMI.run_lpar_cmd_on_ipmi_console(l_cmd)
time.sleep(10)
if l_res[-1] == "0":
print "Injected thread hang recoverable error"
else:
if any("Kernel panic - not syncing" in line for line in l_res):
l_msg = "Processor recovery failed: Kernel got panic"
elif any("Petitboot" in line for line in l_res):
l_msg = "System reached petitboot:Processor recovery failed"
elif any("ISTEP" in line for line in l_res):
l_msg = "System started booting: Processor recovery failed"
else:
l_msg = "Failed to inject thread hang recoverable error"
print l_msg
raise OpTestError(l_msg)
l_res = self.cv_IPMI.run_lpar_cmd_on_ipmi_console("dmesg")
if any("Processor Recovery done" in line for line in l_res) and any(
"Harmless Hypervisor Maintenance interrupt [Recovered]" in line for line in l_res
):
print "Processor recovery done"
else:
l_msg = "HMI handling failed to log message: for proc_recv_done"
raise OpTestError(l_msg)
time.sleep(BMC_CONST.HMI_TEST_CASE_SLEEP_TIME)
return BMC_CONST.FW_SUCCESS
##
# @brief This function is used to test HMI: proc_recv_error_masked
# Processor went through recovery for an error which is actually masked for reporting
# this function also injecting the error on all the cpu's one-by-one.
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
def test_proc_recv_error_masked(self):
for l_pair in self.l_dic:
l_chip = l_pair[0]
for l_core in l_pair[1]:
l_reg = "1%s013100" % l_core
l_cmd = "./putscom -c %s %s 0000000000080000; echo $?" % (l_chip, l_reg)
self.cv_IPMI.run_lpar_cmd_on_ipmi_console("dmesg -C")
time.sleep(10)
l_res = self.cv_IPMI.run_lpar_cmd_on_ipmi_console(l_cmd)
time.sleep(10)
if l_res[-1] == "0":
print "Injected thread hang recoverable error"
else:
if any("Kernel panic - not syncing" in line for line in l_res):
l_msg = "Processor recovery failed: Kernel got panic"
elif any("Petitboot" in line for line in l_res):
l_msg = "System reached petitboot:Processor recovery failed"
elif any("ISTEP" in line for line in l_res):
l_msg = "System started booting: Processor recovery failed"
else:
l_msg = "Failed to inject thread hang recoverable error"
print l_msg
raise OpTestError(l_msg)
l_res = self.cv_IPMI.run_lpar_cmd_on_ipmi_console("dmesg")
if any("Processor Recovery done" in line for line in l_res) and any(
"Harmless Hypervisor Maintenance interrupt [Recovered]" in line for line in l_res
):
print "Processor recovery done"
else:
l_msg = "HMI handling failed to log message"
raise OpTestError(l_msg)
time.sleep(BMC_CONST.HMI_TEST_CASE_SLEEP_TIME)
return BMC_CONST.FW_SUCCESS
##
# @brief This function is used to test hmi malfunction alert:Core checkstop
# A processor core in the system has to be checkstopped (failed recovery).
# Injecting core checkstop on random core of random chip
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
def test_malfunction_allert(self):
# Get random pair of chip vs cores
l_pair = random.choice(self.l_dic)
# Get random chip id
l_chip = l_pair[0]
# Get random core number
l_core = random.choice(l_pair[1])
l_reg = "1%s013100" % l_core
l_cmd = "./putscom -c %s %s 1000000000000000" % (l_chip, l_reg)
l_res = self.cv_IPMI.run_lpar_cmd_on_ipmi_console(l_cmd)
if any("Kernel panic - not syncing" in line for line in l_res):
print "Malfunction alert: kernel got panic"
elif any("login:"******"System booted to host OS without any kernel panic message"
elif any("Petitboot" in line for line in l_res):
print "System reached petitboot without any kernel panic message"
elif any("ISTEP" in line for line in l_res):
print "System started booting without any kernel panic message"
else:
l_msg = "HMI: Malfunction alert failed"
raise OpTestError(l_msg)
return BMC_CONST.FW_SUCCESS
##
# @brief This function is used to test HMI: Hypervisor resource error
# Injecting Hypervisor resource error on random core of random chip
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
def test_hyp_resource_err(self):
# Get random pair of chip vs cores
l_pair = random.choice(self.l_dic)
# Get random chip id
l_chip = l_pair[0]
# Get random core number
l_core = random.choice(l_pair[1])
l_reg = "1%s013100" % l_core
l_cmd = "./putscom -c %s %s 0000000000008000" % (l_chip, l_reg)
l_res = self.cv_IPMI.run_lpar_cmd_on_ipmi_console(l_cmd)
if any("Kernel panic - not syncing" in line for line in l_res) and any(
"Hypervisor Resource error - core check stop" in line for line in l_res
):
print "Hypervisor resource error: kernel got panic"
elif any("login:"******"System booted to host OS without any kernel panic message"
elif any("Petitboot" in line for line in l_res):
print "System reached petitboot without any kernel panic message"
elif any("ISTEP" in line for line in l_res):
print "System started booting without any kernel panic message"
else:
l_msg = "HMI: Hypervisor resource error failed"
raise OpTestError(l_msg)
return BMC_CONST.FW_SUCCESS
class OpTestMtdPnorDriver():
## Initialize this object and also getting the host login credentials to use by scp utility
# @param i_bmcIP The IP address of the BMC
# @param i_bmcUser The userid to log into the BMC with
# @param i_bmcPasswd The password of the userid to log into the BMC with
# @param i_bmcUserIpmi The userid to issue the BMC IPMI commands with
# @param i_bmcPasswdIpmi The password of BMC IPMI userid
# @param i_ffdcDir Optional param to indicate where to write FFDC
#
# "Only required for inband tests" else Default = None
# @param i_hostIP The IP address of the HOST
# @param i_hostuser The userid to log into the HOST
# @param i_hostPasswd The password of the userid to log into the HOST with
#
def __init__(self,
i_bmcIP,
i_bmcUser,
i_bmcPasswd,
i_bmcUserIpmi,
i_bmcPasswdIpmi,
i_ffdcDir=None,
i_hostip=None,
i_hostuser=None,
i_hostPasswd=None):
self.cv_BMC = OpTestBMC(i_bmcIP, i_bmcUser, i_bmcPasswd, i_ffdcDir)
self.cv_IPMI = OpTestIPMI(i_bmcIP, i_bmcUserIpmi, i_bmcPasswdIpmi,
i_ffdcDir)
self.cv_HOST = OpTestHost(i_hostip, i_hostuser, i_hostPasswd, i_bmcIP)
self.cv_SYSTEM = OpTestSystem(i_bmcIP, i_bmcUser, i_bmcPasswd,
i_bmcUserIpmi, i_bmcPasswdIpmi,
i_ffdcDir, i_hostip, i_hostuser,
i_hostPasswd)
self.util = OpTestUtil()
self.host_user = i_hostuser
self.host_ip = i_hostip
self.host_Passwd = i_hostPasswd
##
# @brief This function has following test steps
# 1. Get host information(OS and Kernel information)
# 2. Load the mtd module based on config value
# 3. Check /dev/mtd0 character device file existence on host
# 4. Copying the contents of the flash in a file /tmp/pnor
# 5. Getting the /tmp/pnor file into local x86 machine using scp utility
# 6. Remove existing /tmp/ffs directory and
# Clone latest ffs git repository in local x86 working machine
# 7. Compile ffs repository to get fcp utility
# 8. Check existence of fcp utility in ffs repository, after compiling
# 9. Get the PNOR flash contents on an x86 machine using fcp utility
#
# @return BMC_CONST.FW_SUCCESS-success or raise OpTestError-fail
#
def testMtdPnorDriver(self):
self.cv_SYSTEM.sys_bmc_power_on_validate_host()
# Get OS level
l_oslevel = self.cv_HOST.host_get_OS_Level()
# Get Kernel Version
l_kernel = self.cv_HOST.host_get_kernel_version()
# loading mtd module based on config option
l_config = "CONFIG_MTD_POWERNV_FLASH"
l_module = "mtd"
self.cv_HOST.host_load_module_based_on_config(l_kernel, l_config,
l_module)
# Check /dev/mtd0 file existence on host
l_cmd = "ls -l /dev/mtd0; echo $?"
l_res = self.cv_HOST.host_run_command(l_cmd)
l_res = l_res.splitlines()
if int(l_res[-1]) == 0:
print "/dev/mtd0 character device file exists on host"
else:
l_msg = "/dev/mtd0 character device file doesn't exist on host"
print l_msg
raise OpTestError(l_msg)
# Copying the contents of the PNOR flash in a file /tmp/pnor
l_file = "/tmp/pnor"
l_cmd = "cat /dev/mtd0 > %s; echo $?" % l_file
l_res = self.cv_HOST.host_run_command(l_cmd)
l_res = l_res.splitlines()
if int(l_res[-1]) == 0:
print "Fetched PNOR data from /dev/mtd0 into temp file /tmp/pnor"
else:
l_msg = "Fetching PNOR data is failed from /dev/mtd0 into temp file /tmp/pnor"
print l_msg
raise OpTestError(l_msg)
# Getting the /tmp/pnor file into local x86 machine
l_path = "/tmp/"
self.util.copyFilesToDest(l_path, self.host_user, self.host_ip, l_file,
self.host_Passwd, "2",
BMC_CONST.SCP_TO_LOCAL)
l_list = commands.getstatusoutput("ls -l %s; echo $?" % l_path)
print l_list
l_workdir = "/tmp/ffs"
# Remove existing /tmp/ffs directory
l_res = commands.getstatusoutput("rm -rf %s" % l_workdir)
print l_res
# Clone latest ffs git repository in local x86 working machine
l_cmd = "git clone https://github.com/open-power/ffs/ %s" % l_workdir
l_res = commands.getstatusoutput(l_cmd)
print l_res
if int(l_res[0]) == 0:
print "Cloning of ffs repository is successfull"
else:
l_msg = "Cloning ffs repository is failed"
print l_msg
raise OpTestError(l_msg)
# Compile ffs repository to get fcp utility
l_cmd = "cd %s/; make" % l_workdir
l_res = commands.getstatusoutput(l_cmd)
print l_res
if int(l_res[0]) == 0:
print "Compiling fcp utility is successfull"
else:
l_msg = "Compiling fcp utility is failed"
print l_msg
raise OpTestError(l_msg)
# Check existence of fcp utility in ffs repository, after compiling.
l_cmd = "test -f %s/fcp/x86/fcp" % l_workdir
l_res = commands.getstatusoutput(l_cmd)
print l_res
if int(l_res[0]) == 0:
print "Compiling fcp utility is successfull"
else:
l_msg = "Compiling fcp utility is failed"
print l_msg
raise OpTestError(l_msg)
# Check the PNOR flash contents on an x86 machine using fcp utility
l_cmd = "%s/fcp/x86/fcp -o 0x0 -L %s" % (l_workdir, l_file)
l_res = commands.getstatusoutput(l_cmd)
print l_res[1]
if int(l_res[0]) == 0:
print "Getting PNOR data successfull using fcp utility"
return BMC_CONST.FW_SUCCESS
else:
l_msg = "Getting the PNOR data using fcp utility failed"
print l_msg
raise OpTestError(l_msg)
class OpTestEnergyScale():
## Initialize this object
# @param i_bmcIP The IP address of the BMC
# @param i_bmcUser The userid to log into the BMC with
# @param i_bmcPasswd The password of the userid to log into the BMC with
# @param i_bmcUserIpmi The userid to issue the BMC IPMI commands with
# @param i_bmcPasswdIpmi The password of BMC IPMI userid
# @param i_ffdcDir Optional param to indicate where to write FFDC
#
# "Only required for inband tests" else Default = None
# @param i_hostIP The IP address of the HOST
# @param i_hostuser The userid to log into the HOST
# @param i_hostPasswd The password of the userid to log into the HOST with
#
def __init__(self, i_bmcIP, i_bmcUser, i_bmcPasswd,
i_bmcUserIpmi, i_bmcPasswdIpmi, i_ffdcDir=None, i_platName=None, i_hostip=None,
i_hostuser=None, i_hostPasswd=None):
self.cv_BMC = OpTestBMC(i_bmcIP, i_bmcUser, i_bmcPasswd, i_ffdcDir)
self.cv_IPMI = OpTestIPMI(i_bmcIP, i_bmcUserIpmi, i_bmcPasswdIpmi,
i_ffdcDir, i_hostip, i_hostuser, i_hostPasswd)
self.cv_HOST = OpTestHost(i_hostip, i_hostuser, i_hostPasswd, i_bmcIP)
self.cv_SYSTEM = OpTestSystem(i_bmcIP, i_bmcUser, i_bmcPasswd,
i_bmcUserIpmi, i_bmcPasswdIpmi, i_ffdcDir, i_hostip,
i_hostuser, i_hostPasswd)
self.cv_PLATFORM = i_platName
self.util = OpTestUtil()
##
# @brief This function will get and return platform power limits for supported machine
#
# @param i_platform type: str platform name to get the power limits
#
# @return l_power_limit_low lower platform power limit
# l_power_limit_high higher platform power limit
# or raise OpTestError if it is a new platform
#
def get_platform_power_limits(self, i_platform):
l_platform = i_platform
if BMC_CONST.HABANERO in l_platform:
l_power_limit_high = BMC_CONST.HABANERO_POWER_LIMIT_HIGH
l_power_limit_low = BMC_CONST.HABANERO_POWER_LIMIT_LOW
elif BMC_CONST.FIRESTONE in l_platform:
l_power_limit_high = BMC_CONST.FIRESTONE_POWER_LIMIT_HIGH
l_power_limit_low = BMC_CONST.FIRESTONE_POWER_LIMIT_LOW
elif BMC_CONST.GARRISON in l_platform:
l_power_limit_high = BMC_CONST.GARRISON_POWER_LIMIT_HIGH
l_power_limit_low = BMC_CONST.GARRISON_POWER_LIMIT_LOW
else:
l_msg = "New platform, add power limit support to this platform and retry"
raise OpTestError(l_msg)
return l_power_limit_low, l_power_limit_high
##
# @brief This function will test Energy scale features at standby state
# 1. Power OFF the system.
# 2. Validate below Energy scale features at standby state
# ipmitool dcmi power get_limit :Get the configured power limits.
# ipmitool dcmi power set_limit limit <value> :Power Limit Requested in Watts.
# ipmitool dcmi power activate :Activate the set power limit.
# ipmitool dcmi power deactivate :Deactivate the set power limit.
# 3. Once platform power limit activated execute below dcmi commands at standby state.
# ipmitool dcmi discover :This command is used to discover
# supported capabilities in DCMI.
# ipmitool dcmi power reading :Get power related readings from the system.
# ipmitool dcmi power get_limit :Get the configured power limits.
# ipmitool dcmi power sensors :Prints the available DCMI sensors.
# ipmitool dcmi get_temp_reading :Get Temperature Sensor Readings.
# 4. Power ON the system.
# 5. Check after system booted to runtime, whether occ's are active or not.
# 6. Again in runtime execute all dcmi commands to check the functionality.
#
# @return BMC_CONST.FW_SUCCESS or BMC_CONST.FW_FAILED
#
def test_energy_scale_at_standby_state(self):
self.cv_SYSTEM.sys_bmc_power_on_validate_host()
print "Energy Scale Test 1: Get, Set, activate and deactivate platform power limit at power off"
l_power_limit_low, l_power_limit_high = self.get_platform_power_limits(self.cv_PLATFORM)
print "Performing a IPMI Power OFF Operation"
# Perform a IPMI Power OFF Operation(Immediate Shutdown)
self.cv_IPMI.ipmi_power_off()
if int(self.cv_SYSTEM.sys_wait_for_standby_state(BMC_CONST.SYSTEM_STANDBY_STATE_DELAY)) == 0:
print "System is in standby/Soft-off state"
else:
l_msg = "System failed to reach standby/Soft-off state"
raise OpTestError(l_msg)
self.cv_IPMI.ipmi_sdr_clear()
print self.cv_IPMI.ipmi_get_power_limit()
self.cv_IPMI.ipmi_set_power_limit(l_power_limit_high)
self.cv_IPMI.ipmi_activate_power_limit()
self.cv_IPMI.ipmi_deactivate_power_limit()
print self.cv_IPMI.ipmi_get_power_limit()
self.cv_IPMI.ipmi_activate_power_limit()
print self.cv_IPMI.ipmi_get_power_limit()
self.cv_IPMI.ipmi_deactivate_power_limit()
self.cv_IPMI.ipmi_set_power_limit(l_power_limit_low)
self.cv_IPMI.ipmi_activate_power_limit()
print self.cv_IPMI.ipmi_get_power_limit()
self.cv_IPMI.ipmi_set_power_limit(l_power_limit_high)
self.cv_IPMI.ipmi_get_power_limit()
print "Get All dcmi readings at power off"
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_DISCOVER)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_POWER_READING)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_POWER_GET_LIMIT)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_SENSORS)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_GET_MC_ID_STRING)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_GET_TEMP_READING)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_GET_CONF_PARAM)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_OOB_DISCOVER)
print "Performing a IPMI Power ON Operation"
# Perform a IPMI Power ON Operation
self.cv_IPMI.ipmi_power_on()
self.cv_SYSTEM.sys_check_host_status()
self.util.PingFunc(self.cv_HOST.ip, BMC_CONST.PING_RETRY_POWERCYCLE)
l_status = self.cv_IPMI.ipmi_get_occ_status()
print l_status
if BMC_CONST.OCC_DEVICE_ENABLED in l_status:
print "OCC's are up and active"
else:
l_msg = "OCC's are not in active state"
raise OpTestError(l_msg)
print self.cv_IPMI.ipmi_get_power_limit()
print "Get All dcmi readings at runtime"
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_DISCOVER)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_POWER_READING)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_POWER_GET_LIMIT)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_SENSORS)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_GET_MC_ID_STRING)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_GET_TEMP_READING)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_GET_CONF_PARAM)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_OOB_DISCOVER)
##
# @brief This function will test Energy scale features at standby state
# 1. Power OFF the system.
# 2. Power On the system to boot to host OS
# 2. Validate below Energy scale features at runtime state
# ipmitool dcmi power get_limit :Get the configured power limits.
# ipmitool dcmi power set_limit limit <value> :Power Limit Requested in Watts.
# ipmitool dcmi power activate :Activate the set power limit.
# ipmitool dcmi power deactivate :Deactivate the set power limit.
# 3. Once platform power limit activated execute below dcmi commands at runtime state.
# ipmitool dcmi discover :This command is used to discover
# supported capabilities in DCMI.
# ipmitool dcmi power reading :Get power related readings from the system.
# ipmitool dcmi power get_limit :Get the configured power limits.
# ipmitool dcmi power sensors :Prints the available DCMI sensors.
# ipmitool dcmi get_temp_reading :Get Temperature Sensor Readings.
# 4. Issue Power OFF/ON to check whether system boots after setting platform power limit at runtime.
# 5. Again in runtime execute all dcmi commands to check the functionality.
#
# @return BMC_CONST.FW_SUCCESS or BMC_CONST.FW_FAILED
#
def test_energy_scale_at_runtime_state(self):
self.cv_SYSTEM.sys_bmc_power_on_validate_host()
print "Energy Scale Test 2: Get, Set, activate and deactivate platform power limit at runtime"
l_power_limit_low, l_power_limit_high = self.get_platform_power_limits(self.cv_PLATFORM)
print "Performing a IPMI Power OFF Operation"
# Perform a IPMI Power OFF Operation(Immediate Shutdown)
self.cv_IPMI.ipmi_power_off()
if int(self.cv_SYSTEM.sys_wait_for_standby_state(BMC_CONST.SYSTEM_STANDBY_STATE_DELAY)) == 0:
print "System is in standby/Soft-off state"
else:
l_msg = "System failed to reach standby/Soft-off state"
raise OpTestError(l_msg)
print "Get All dcmi readings at power off"
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_DISCOVER)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_POWER_READING)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_POWER_GET_LIMIT)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_SENSORS)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_GET_MC_ID_STRING)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_GET_TEMP_READING)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_GET_CONF_PARAM)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_OOB_DISCOVER)
self.cv_IPMI.ipmi_sdr_clear()
print self.cv_IPMI.ipmi_get_power_limit()
print "Performing a IPMI Power ON Operation"
# Perform a IPMI Power ON Operation
self.cv_IPMI.ipmi_power_on()
self.cv_SYSTEM.sys_check_host_status()
self.util.PingFunc(self.cv_HOST.ip, BMC_CONST.PING_RETRY_POWERCYCLE)
l_status = self.cv_IPMI.ipmi_get_occ_status()
print l_status
if BMC_CONST.OCC_DEVICE_ENABLED in l_status:
print "OCC's are up and active"
else:
l_msg = "OCC's are not in active state"
raise OpTestError(l_msg)
print self.cv_IPMI.ipmi_get_power_limit()
self.cv_IPMI.ipmi_set_power_limit(l_power_limit_high)
self.cv_IPMI.ipmi_activate_power_limit()
print self.cv_IPMI.ipmi_get_power_limit()
self.cv_IPMI.ipmi_deactivate_power_limit()
print self.cv_IPMI.ipmi_get_power_limit()
self.cv_IPMI.ipmi_activate_power_limit()
print self.cv_IPMI.ipmi_get_power_limit()
self.cv_IPMI.ipmi_set_power_limit(l_power_limit_low)
self.cv_IPMI.ipmi_activate_power_limit()
print self.cv_IPMI.ipmi_get_power_limit()
self.cv_IPMI.ipmi_deactivate_power_limit()
print self.cv_IPMI.ipmi_get_power_limit()
self.cv_IPMI.ipmi_activate_power_limit()
print self.cv_IPMI.ipmi_get_power_limit()
print "Get All dcmi readings at runtime"
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_DISCOVER)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_POWER_READING)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_POWER_GET_LIMIT)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_SENSORS)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_GET_MC_ID_STRING)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_GET_TEMP_READING)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_GET_CONF_PARAM)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_OOB_DISCOVER)
print "Performing a IPMI Power OFF Operation"
# Perform a IPMI Power OFF Operation(Immediate Shutdown)
self.cv_IPMI.ipmi_power_off()
if int(self.cv_SYSTEM.sys_wait_for_standby_state(BMC_CONST.SYSTEM_STANDBY_STATE_DELAY)) == 0:
print "System is in standby/Soft-off state"
else:
l_msg = "System failed to reach standby/Soft-off state"
raise OpTestError(l_msg)
print "Performing a IPMI Power ON Operation"
# Perform a IPMI Power ON Operation
self.cv_IPMI.ipmi_power_on()
self.cv_SYSTEM.sys_check_host_status()
self.util.PingFunc(self.cv_HOST.ip, BMC_CONST.PING_RETRY_POWERCYCLE)
l_status = self.cv_IPMI.ipmi_get_occ_status()
print l_status
if BMC_CONST.OCC_DEVICE_ENABLED in l_status:
print "OCC's are up and active"
else:
l_msg = "OCC's are not in active state"
raise OpTestError(l_msg)
print "Get All dcmi readings at runtime"
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_DISCOVER)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_POWER_READING)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_POWER_GET_LIMIT)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_SENSORS)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_GET_MC_ID_STRING)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_GET_TEMP_READING)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_GET_CONF_PARAM)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_OOB_DISCOVER)
##
# @brief This function will test below dcmi commands at both standby and runtime states
# ipmitool dcmi discover :This command is used to discover
# supported capabilities in DCMI.
# ipmitool dcmi power reading :Get power related readings from the system.
# ipmitool dcmi power get_limit :Get the configured power limits.
# ipmitool dcmi power sensors :Prints the available DCMI sensors.
# ipmitool dcmi get_temp_reading :Get Temperature Sensor Readings.
# ipmitool dcmi get_mc_id_string :Get management controller identifier string.
# ipmitool dcmi get_conf_param :Get DCMI Configuration Parameters.
# ipmitool dcmi oob_discover :Ping/Pong Message for DCMI Discovery.
#
# @return BMC_CONST.FW_SUCCESS or BMC_CONST.FW_FAILED
#
def test_dcmi_at_standby_and_runtime_states(self):
self.cv_SYSTEM.sys_bmc_power_on_validate_host()
print "Energy scale Test 3: Get Sensors, Temperature and Power reading's at power off and runtime"
print "Performing a IPMI Power OFF Operation"
# Perform a IPMI Power OFF Operation(Immediate Shutdown)
self.cv_IPMI.ipmi_power_off()
if int(self.cv_SYSTEM.sys_wait_for_standby_state(BMC_CONST.SYSTEM_STANDBY_STATE_DELAY)) == 0:
print "System is in standby/Soft-off state"
else:
l_msg = "System failed to reach standby/Soft-off state"
raise OpTestError(l_msg)
print "Get All dcmi readings at power off"
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_DISCOVER)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_POWER_READING)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_POWER_GET_LIMIT)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_SENSORS)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_GET_MC_ID_STRING)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_GET_TEMP_READING)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_GET_CONF_PARAM)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_OOB_DISCOVER)
print "Performing a IPMI Power ON Operation"
# Perform a IPMI Power ON Operation
self.cv_IPMI.ipmi_power_on()
self.cv_SYSTEM.sys_check_host_status()
self.util.PingFunc(self.cv_HOST.ip, BMC_CONST.PING_RETRY_POWERCYCLE)
l_status = self.cv_IPMI.ipmi_get_occ_status()
print l_status
if BMC_CONST.OCC_DEVICE_ENABLED in l_status:
print "OCC's are up and active"
else:
l_msg = "OCC's are not in active state"
raise OpTestError(l_msg)
print "Get All dcmi readings at runtime"
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_DISCOVER)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_POWER_READING)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_POWER_GET_LIMIT)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_SENSORS)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_GET_MC_ID_STRING)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_GET_TEMP_READING)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_GET_CONF_PARAM)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_OOB_DISCOVER)
##
# @brief It will execute and test the return code of ipmi command.
#
# @param i_cmd @type string:The ipmitool command, for example: chassis power on; echo $?
#
# @return l_res @type list: output of command or raise OpTestError
#
def run_ipmi_cmd(self, i_cmd):
l_cmd = i_cmd
l_res = self.cv_IPMI.ipmitool_execute_command(l_cmd)
print l_res
l_res = l_res.splitlines()
if int(l_res[-1]):
l_msg = "IPMI: command failed %c" % l_cmd
raise OpTestError(l_msg)
return l_res
class OpTestPCI:
## Initialize this object
# @param i_bmcIP The IP address of the BMC
# @param i_bmcUser The userid to log into the BMC with
# @param i_bmcPasswd The password of the userid to log into the BMC with
# @param i_bmcUserIpmi The userid to issue the BMC IPMI commands with
# @param i_bmcPasswdIpmi The password of BMC IPMI userid
# @param i_ffdcDir Optional param to indicate where to write FFDC
#
# "Only required for inband tests" else Default = None
# @param i_hostIP The IP address of the HOST
# @param i_hostuser The userid to log into the HOST
# @param i_hostPasswd The password of the userid to log into the HOST with
#
def __init__(
self,
i_bmcIP,
i_bmcUser,
i_bmcPasswd,
i_bmcUserIpmi,
i_bmcPasswdIpmi,
i_ffdcDir=None,
i_hostip=None,
i_hostuser=None,
i_hostPasswd=None,
i_hostLspci=None,
):
self.cv_BMC = OpTestBMC(i_bmcIP, i_bmcUser, i_bmcPasswd, i_ffdcDir)
self.cv_IPMI = OpTestIPMI(
i_bmcIP, i_bmcUserIpmi, i_bmcPasswdIpmi, i_ffdcDir, i_hostip, i_hostuser, i_hostPasswd
)
self.cv_HOST = OpTestHost(i_hostip, i_hostuser, i_hostPasswd, i_bmcIP, i_ffdcDir)
self.cv_SYSTEM = OpTestSystem(
i_bmcIP,
i_bmcUser,
i_bmcPasswd,
i_bmcUserIpmi,
i_bmcPasswdIpmi,
i_ffdcDir,
i_hostip,
i_hostuser,
i_hostPasswd,
)
self.util = OpTestUtil()
self.lspci_file = i_hostLspci
##
# @brief This function will get the PCI and USB susbsytem Info
# And also this test compares known good data of
# "lspci -mm -n" which is stored in testcases/data directory
# with the current lspci data.
# User need to specify the corresponding file name into
# machines xml like lspci.txt which contains "lspci -mm -n"
# command output in a working good state of system.
# tools used are lspci and lsusb
#
# @return BMC_CONST.FW_SUCCESS or BMC_CONST.FW_FAILED
#
def test_host_pci_devices_info(self):
if self.lspci_file == "empty.txt":
print "Skipping the pci devices comparision as missing the lspci data file name in machines xml"
return BMC_CONST.FW_SUCCESS
filename = os.path.join(os.path.dirname(__file__).split("testcases")[0], self.lspci_file)
if not os.path.isfile(filename):
raise OpTestError("lspci file %s not found in top level directory" % filename)
self.pci_good_data_file = filename
self.test_skiroot_pci_devices()
self.cv_IPMI.ipmi_set_boot_to_disk()
self.cv_IPMI.ipmi_power_off()
self.cv_IPMI.ipmi_power_on()
self.cv_IPMI.ipl_wait_for_working_state()
self.test_host_pci_devices()
##
# @brief This function will get the "lspci -mm -n" output from the petitboot
# and compares it with known good lspci data
#
# @return BMC_CONST.FW_SUCCESS or BMC_CONST.FW_FAILED
#
def test_skiroot_pci_devices(self):
cmd = "lspci -mm -n"
self.console = self.cv_SYSTEM.sys_get_ipmi_console()
self.cv_SYSTEM.sys_ipmi_boot_system_to_petitboot(self.console)
self.cv_IPMI.ipmi_host_set_unique_prompt(self.console)
self.cv_IPMI.run_host_cmd_on_ipmi_console("uname -a")
self.cv_IPMI.run_host_cmd_on_ipmi_console("cat /etc/os-release")
res = self.cv_IPMI.run_host_cmd_on_ipmi_console(cmd)
self.cv_SYSTEM.sys_ipmi_close_console(self.console)
self.pci_data_petitboot = "\n".join(res[1:])
diff_process = subprocess.Popen(["diff", "-u", self.pci_good_data_file, "-"], stdin=subprocess.PIPE)
diff_stdout, diff_stderr = diff_process.communicate(self.pci_data_petitboot + "\n")
r = diff_process.wait()
if r == 0:
print "All the pci devices are detected at petitboot"
else:
print diff_stdout
raise OpTestError("There is a mismatch b/w known good output and tested petitboot lspci output")
##
# @brief This function will get the "lspci -mm -n" output from the host OS
# and compares it with known good lspci data
#
# @return BMC_CONST.FW_SUCCESS or BMC_CONST.FW_FAILED
#
def test_host_pci_devices(self):
self.cv_HOST.host_check_command("lspci", "lsusb")
self.cv_HOST.host_list_pci_devices()
self.cv_HOST.host_get_pci_verbose_info()
self.cv_HOST.host_list_usb_devices()
l_res = self.cv_HOST.host_run_command("lspci -mm -n")
self.pci_data_hostos = l_res.replace("\r\n", "\n")
diff_process = subprocess.Popen(["diff", "-u", self.pci_good_data_file, "-"], stdin=subprocess.PIPE)
diff_stdout, diff_stderr = diff_process.communicate(self.pci_data_hostos)
r = diff_process.wait()
if r == 0:
print "All the pci devices are detected in host OS"
else:
print diff_stdout
raise OpTestError("There is a mismatch b/w known good output and tested host OS lspci output")
class OpTestAt24driver():
## Initialize this object
# @param i_bmcIP The IP address of the BMC
# @param i_bmcUser The userid to log into the BMC with
# @param i_bmcPasswd The password of the userid to log into the BMC with
# @param i_bmcUserIpmi The userid to issue the BMC IPMI commands with
# @param i_bmcPasswdIpmi The password of BMC IPMI userid
# @param i_ffdcDir Optional param to indicate where to write FFDC
#
# "Only required for inband tests" else Default = None
# @param i_hostIP The IP address of the HOST
# @param i_hostuser The userid to log into the HOST
# @param i_hostPasswd The password of the userid to log into the HOST with
#
def __init__(self, i_bmcIP, i_bmcUser, i_bmcPasswd,
i_bmcUserIpmi, i_bmcPasswdIpmi, i_ffdcDir=None, i_hostip=None,
i_hostuser=None, i_hostPasswd=None):
self.cv_BMC = OpTestBMC(i_bmcIP, i_bmcUser, i_bmcPasswd, i_ffdcDir)
self.cv_IPMI = OpTestIPMI(i_bmcIP, i_bmcUserIpmi, i_bmcPasswdIpmi,
i_ffdcDir)
self.cv_HOST = OpTestHost(i_hostip, i_hostuser, i_hostPasswd,i_bmcIP)
self.cv_SYSTEM = OpTestSystem(i_bmcIP, i_bmcUser, i_bmcPasswd,
i_bmcUserIpmi, i_bmcPasswdIpmi, i_ffdcDir, i_hostip,
i_hostuser, i_hostPasswd)
self.util = OpTestUtil()
##
# @brief This function has following test steps
# 1. Getting the host infromation(OS and kernel information)
# 2. Loading the necessary modules to test at24 device driver functionalites
# (i2c_dev, i2c_opal and at24)
# 3. Getting the list of i2c buses and eeprom chip addresses
# 4. Accessing the registers visible through the i2cbus using i2cdump utility
# 5. Getting the eeprom device data using hexdump utility in hex + Ascii format
#
# @return BMC_CONST.FW_SUCCESS-success or raise OpTestError
#
def testAt24driver(self):
self.cv_SYSTEM.sys_bmc_power_on_validate_host()
# Get OS level
self.cv_HOST.host_get_OS_Level()
# Check whether i2cdump and hexdump commands are available on host
self.cv_HOST.host_check_command("i2cdump", "hexdump")
# Get Kernel Version
l_kernel = self.cv_HOST.host_get_kernel_version()
# Loading i2c_opal module based on config option
l_config = "CONFIG_I2C_OPAL"
l_module = "i2c_opal"
self.cv_HOST.host_load_module_based_on_config(l_kernel, l_config, l_module)
# Loading i2c_dev module based on config option
l_config = "CONFIG_I2C_CHARDEV"
l_module = "i2c_dev"
self.cv_HOST.host_load_module_based_on_config(l_kernel, l_config, l_module)
# Loading at24 module based on config option
l_config = "CONFIG_EEPROM_AT24"
l_module = "at24"
self.cv_HOST.host_load_module_based_on_config(l_kernel, l_config, l_module)
# Get infomtion of EEPROM chips
self.cv_HOST.host_get_info_of_eeprom_chips()
# Get list of pairs of i2c bus and EEPROM device addresses in the host
l_chips = self.cv_HOST.host_get_list_of_eeprom_chips()
for l_args in l_chips:
# Accessing the registers visible through the i2cbus using i2cdump utility
# l_args format: "0 0x51","1 0x53",.....etc
self.i2c_dump(l_args)
# Getting the list of sysfs eeprom interfaces
l_res = self.cv_HOST.host_run_command("find /sys/ -name eeprom; echo $?")
l_res = l_res.splitlines()
if int(l_res[-1]) == 0:
pass
else:
l_msg = "EEPROM sysfs entries are not created"
print l_msg
raise OpTestError(l_msg)
for l_dev in l_res:
if l_dev.__contains__("eeprom"):
# Getting the eeprom device data using hexdump utility in hex + Ascii format
self.cv_HOST.host_hexdump(l_dev)
else:
pass
return BMC_CONST.FW_SUCCESS
##
# @brief This i2cdump function takes arguments in pair of a string like "i2cbus address".
# i2cbus indicates the number or name of the I2C bus to be scanned. This number should
# correspond to one of the busses listed by i2cdetect -l. address indicates
# the address to be scanned on that bus, and is an integer between 0x03 and 0x77
# i2cdump is a program to examine registers visible through the I2C bus
#
# @param i_args @type string: this is the argument to i2cdump utility
# args are in the form of "i2c-bus-number eeprom-chip-address"
# Ex: "0 0x51","3 0x52" ....etc
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
def i2c_dump(self, i_args):
l_res = self.cv_HOST.host_run_command("i2cdump -f -y %s; echo $?" % i_args)
l_res = l_res.splitlines()
if int(l_res[-1]) == 0:
return BMC_CONST.FW_SUCCESS
else:
l_msg = "i2cdump failed on addr %s" % i_args
print l_msg
raise OpTestError(l_msg)
class OpTestEM():
## Initialize this object
# @param i_bmcIP The IP address of the BMC
# @param i_bmcUser The userid to log into the BMC with
# @param i_bmcPasswd The password of the userid to log into the BMC with
# @param i_bmcUserIpmi The userid to issue the BMC IPMI commands with
# @param i_bmcPasswdIpmi The password of BMC IPMI userid
# @param i_ffdcDir Optional param to indicate where to write FFDC
#
# "Only required for inband tests" else Default = None
# @param i_hostIP The IP address of the HOST
# @param i_hostuser The userid to log into the HOST
# @param i_hostPasswd The password of the userid to log into the HOST with
#
def __init__(self,
i_bmcIP,
i_bmcUser,
i_bmcPasswd,
i_bmcUserIpmi,
i_bmcPasswdIpmi,
i_ffdcDir=None,
i_hostip=None,
i_hostuser=None,
i_hostPasswd=None):
self.cv_BMC = OpTestBMC(i_bmcIP, i_bmcUser, i_bmcPasswd, i_ffdcDir)
self.cv_IPMI = OpTestIPMI(i_bmcIP, i_bmcUserIpmi, i_bmcPasswdIpmi,
i_ffdcDir)
self.cv_HOST = OpTestHost(i_hostip, i_hostuser, i_hostPasswd, i_bmcIP)
self.cv_SYSTEM = OpTestSystem(i_bmcIP, i_bmcUser, i_bmcPasswd,
i_bmcUserIpmi, i_bmcPasswdIpmi,
i_ffdcDir, i_hostip, i_hostuser,
i_hostPasswd)
self.util = OpTestUtil()
##
# @brief This function will cover following test steps
# 1. It will get the OS and kernel versions.
# 2. Check the cpupower utility is available in host.
# 3. Get available cpu scaling frequencies
# 4. Set the userspace governer for all cpu's
# 5. test the cpufreq driver by set/verify cpu frequency
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
def test_cpu_freq_states(self):
self.cv_SYSTEM.sys_bmc_power_on_validate_host()
# Get OS level
l_oslevel = self.cv_HOST.host_get_OS_Level()
# Get kernel version
l_kernel = self.cv_HOST.host_get_kernel_version()
self.cv_HOST.host_check_command("cpupower")
# Get available cpu scaling frequencies
l_res = self.cv_HOST.host_run_command(
"cat /sys/devices/system/cpu/cpu0/cpufreq/scaling_available_frequencies"
)
freq_list = (l_res.strip()).split(' ')
print freq_list
# Set the cpu governer to userspace
self.set_cpu_gov("userspace")
self.verify_cpu_gov("userspace")
for i in range(1, 100):
i_freq = random.choice(freq_list)
self.set_cpu_freq(i_freq)
self.verify_cpu_freq(i_freq)
return BMC_CONST.FW_SUCCESS
##
# @brief This function will cover following test steps
# 1. It will get the OS and kernel versions.
# 2. Check the cpupower utility is available in host.
# 3. Set the userspace governer for all cpu's
# 4. test the cpuidle driver by enable/disable/verify the idle states
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
def test_cpu_idle_states(self):
self.cv_SYSTEM.sys_bmc_power_on_validate_host()
# Get OS level
l_oslevel = self.cv_HOST.host_get_OS_Level()
# Get kernel version
l_kernel = self.cv_HOST.host_get_kernel_version()
self.cv_HOST.host_check_command("cpupower")
# currently p8 cpu has 3 states
for i in (0, 1, 2):
self.enable_idle_state(i)
self.verify_enable_idle_state(i)
for i in (0, 1, 2):
self.disable_idle_state(i)
self.verify_disable_idle_state(i)
return BMC_CONST.FW_SUCCESS
##
# @brief sets the cpu frequency with i_freq value
#
# @param i_freq @type str: this is the frequency of cpu to be set
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
def set_cpu_freq(self, i_freq):
l_cmd = "for i in /sys/devices/system/cpu/cpu*/cpufreq/scaling_setspeed; do echo %s > $i; done" % i_freq
self.cv_HOST.host_run_command(l_cmd)
##
# @brief verify the cpu frequency with i_freq value
#
# @param i_freq @type str: this is the frequency to be verified with cpu frequency
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
def verify_cpu_freq(self, i_freq):
l_cmd = "cat /sys/devices/system/cpu/cpu0/cpufreq/cpuinfo_cur_freq"
cur_freq = self.cv_HOST.host_run_command(l_cmd)
if cur_freq.strip() == i_freq:
return BMC_CONST.FW_SUCCESS
else:
l_msg = "CPU frequency not changed to %s" % i_freq
raise OpTestError(l_msg)
##
# @brief sets the cpu governer with i_gov governer
#
# @param i_gov @type str: this is the governer to be set for all cpu's
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
def set_cpu_gov(self, i_gov):
l_cmd = "for i in /sys/devices/system/cpu/cpu*/cpufreq/scaling_governor; do echo %s > $i; done" % i_gov
self.cv_HOST.host_run_command(l_cmd)
##
# @brief verify the cpu governer with i_gov governer
#
# @param i_gov @type str: this is the governer to be verified with cpu governer
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
def verify_cpu_gov(self, i_gov):
l_cmd = "cat /sys/devices/system/cpu/cpu0/cpufreq/scaling_governor"
cur_gov = self.cv_HOST.host_run_command(l_cmd)
if cur_gov.strip() == i_gov:
return BMC_CONST.FW_SUCCESS
else:
l_msg = "CPU governor not changed to %s" % i_gov
raise OpTestError(l_msg)
##
# @brief enable cpu idle state i_idle
#
# @param i_idle @type str: this is the cpu idle state to be enabled
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
def enable_idle_state(self, i_idle):
l_cmd = "cpupower idle-set -e %s" % i_idle
self.cv_HOST.host_run_command(l_cmd)
##
# @brief disable cpu idle state i_idle
#
# @param i_idle @type str: this is the cpu idle state to be disabled
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
def disable_idle_state(self, i_idle):
l_cmd = "cpupower idle-set -d %s" % i_idle
self.cv_HOST.host_run_command(l_cmd)
##
# @brief verify whether cpu idle state i_idle enabled
#
# @param i_idle @type str: this is the cpu idle state to be verified for enable
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
def verify_enable_idle_state(self, i_idle):
l_cmd = "cat /sys/devices/system/cpu/cpu0/cpuidle/state%s/disable" % i_idle
cur_value = self.cv_HOST.host_run_command(l_cmd)
if cur_value.strip() == "0":
return BMC_CONST.FW_SUCCESS
else:
l_msg = "CPU state%s not enabled" % i_idle
raise OpTestError(l_msg)
##
# @brief verify whether cpu idle state i_idle disabled
#
# @param i_idle @type str: this is the cpu idle state to be verified for disable
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
def verify_disable_idle_state(self, i_idle):
l_cmd = "cat /sys/devices/system/cpu/cpu0/cpuidle/state%s/disable" % i_idle
cur_value = self.cv_HOST.host_run_command(l_cmd)
if cur_value.strip() == "1":
return BMC_CONST.FW_SUCCESS
else:
l_msg = "CPU state%s not disabled" % i_idle
raise OpTestError(l_msg)
class OpTestRTCdriver():
## Initialize this object
# @param i_bmcIP The IP address of the BMC
# @param i_bmcUser The userid to log into the BMC with
# @param i_bmcPasswd The password of the userid to log into the BMC with
# @param i_bmcUserIpmi The userid to issue the BMC IPMI commands with
# @param i_bmcPasswdIpmi The password of BMC IPMI userid
# @param i_ffdcDir Optional param to indicate where to write FFDC
#
# "Only required for inband tests" else Default = None
# @param i_hostIP The IP address of the HOST
# @param i_hostuser The userid to log into the HOST
# @param i_hostPasswd The password of the userid to log into the HOST with
#
def __init__(self,
i_bmcIP,
i_bmcUser,
i_bmcPasswd,
i_bmcUserIpmi,
i_bmcPasswdIpmi,
i_ffdcDir=None,
i_hostip=None,
i_hostuser=None,
i_hostPasswd=None):
self.cv_BMC = OpTestBMC(i_bmcIP, i_bmcUser, i_bmcPasswd, i_ffdcDir)
self.cv_IPMI = OpTestIPMI(i_bmcIP, i_bmcUserIpmi, i_bmcPasswdIpmi,
i_ffdcDir)
self.cv_HOST = OpTestHost(i_hostip, i_hostuser, i_hostPasswd, i_bmcIP)
self.cv_SYSTEM = OpTestSystem(i_bmcIP, i_bmcUser, i_bmcPasswd,
i_bmcUserIpmi, i_bmcPasswdIpmi,
i_ffdcDir, i_hostip, i_hostuser,
i_hostPasswd)
self.util = OpTestUtil()
##
# @brief This function will cover following test steps
# 1. Getting host information(OS and Kernel info)
# 2. Loading rtc_opal module based on config option
# 3. Testing the rtc driver functions
# Display the current time,
# set the Hardware Clock to a specified time,
# set the Hardware Clock from the System Time, or
# set the System Time from the Hardware Clock
# keep the Hardware clock in UTC or local time format
# Hardware clock compare, predict and adjust functions
# Hardware clock debug and test modes
# Reading the Hardware clock from special file instead of default
# 4. After executing above each function reading the Hardware clock in b/w functions.
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
def test_RTC_driver(self):
self.cv_SYSTEM.sys_bmc_power_on_validate_host()
# Get OS level
l_oslevel = self.cv_HOST.host_get_OS_Level()
# Get Kernel Version
l_kernel = self.cv_HOST.host_get_kernel_version()
# Get hwclock version
l_hwclock = self.cv_HOST.host_run_command("hwclock -V;echo $?")
# loading rtc_opal module based on config option
l_config = "CONFIG_RTC_DRV_OPAL"
l_module = "rtc_opal"
self.cv_HOST.host_load_module_based_on_config(l_kernel, l_config,
l_module)
# Get the device files for rtc driver
l_res = self.cv_HOST.host_run_command(
"ls /dev/ | grep -i --color=never rtc")
l_files = l_res.splitlines()
l_list = []
for name in l_files:
if name.__contains__("rtc"):
l_file = "/dev/" + name
l_list.append(l_file)
else:
continue
print l_list
# Display the time of hwclock from device files
for l_file in l_list:
self.read_hwclock_from_file(l_file)
self.cv_HOST.host_read_hwclock()
time.sleep(5)
self.cv_HOST.host_set_hwclock_time("2015-01-01 10:10:10")
time.sleep(5)
self.cv_HOST.host_read_hwclock()
self.cv_HOST.host_set_hwclock_time("2016-01-01 20:20:20")
self.cv_HOST.host_read_hwclock()
self.set_hwclock_in_utc("2017-01-01 10:10:10")
self.cv_HOST.host_read_hwclock()
self.set_hwclock_in_localtime("2014-01-01 05:05:05")
self.cv_HOST.host_read_hwclock()
self.cv_HOST.host_read_systime()
self.systime_to_hwclock()
self.cv_HOST.host_read_hwclock()
self.systime_to_hwclock_in_utc()
self.cv_HOST.host_read_hwclock()
self.systime_to_hwclock_in_localtime()
self.cv_HOST.host_read_hwclock()
self.hwclock_to_systime()
self.cv_HOST.host_read_hwclock()
self.cv_HOST.host_read_systime()
self.hwclock_in_utc()
self.cv_HOST.host_read_hwclock()
self.hwclock_in_localtime()
self.cv_HOST.host_read_hwclock()
self.hwclock_predict("2015-01-01 10:10:10")
self.cv_HOST.host_read_hwclock()
self.hwclock_debug_mode()
self.cv_HOST.host_read_hwclock()
self.hwclock_test_mode("2018-01-01 10:10:10")
self.cv_HOST.host_read_hwclock()
self.hwclock_adjust()
self.cv_HOST.host_read_hwclock()
self.hwclock_compare()
self.cv_HOST.host_read_hwclock()
##
# @brief This function reads hwclock from special /dev/... file instead of default
#
# @param i_file @type string: special /dev/ file
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
def read_hwclock_from_file(self, i_file):
print "Reading the hwclock from special file /dev/ ...: %s" % i_file
l_res = self.cv_HOST.host_run_command("hwclock -r -f %s;echo $?" %
i_file)
l_res = l_res.splitlines()
if int(l_res[-1]) == 0:
return BMC_CONST.FW_SUCCESS
else:
l_msg = "Reading the hwclock from file failed"
print l_msg
raise OpTestError(l_msg)
##
# @brief This function sets hwclock in UTC format
#
# @param i_time @type string: time to set hwclock
# Ex: "2016-01-01 12:12:12"
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
def set_hwclock_in_utc(self, i_time):
print "Setting the hwclock in UTC: %s" % i_time
l_res = self.cv_HOST.host_run_command(
"hwclock --set --date \'%s\' --utc;echo $?" % i_time)
l_res = l_res.splitlines()
if int(l_res[-1]) == 0:
return BMC_CONST.FW_SUCCESS
else:
l_msg = "Setting the hwclock in UTC failed"
print l_msg
raise OpTestError(l_msg)
##
# @brief This function sets hwclock in local time format
#
# @param i_time @type string: Time to set hwclock
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
def set_hwclock_in_localtime(self, i_time):
print "Setting the hwclock in localtime: %s" % i_time
l_res = self.cv_HOST.host_run_command(
"hwclock --set --date \'%s\' --localtime;echo $?" % i_time)
l_res = l_res.splitlines()
if int(l_res[-1]) == 0:
return BMC_CONST.FW_SUCCESS
else:
l_msg = "Setting the hwclock in localtime failed"
print l_msg
raise OpTestError(l_msg)
##
# @brief This function sets the time of hwclock from system time
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
def systime_to_hwclock(self):
print "Setting the hwclock from system time"
l_res = self.cv_HOST.host_run_command("hwclock --systohc;echo $?")
l_res = l_res.splitlines()
if int(l_res[-1]) == 0:
return BMC_CONST.FW_SUCCESS
else:
l_msg = "Setting the hwclock from system time failed"
print l_msg
raise OpTestError(l_msg)
##
# @brief This function sets the time of hwclock from system time in UTC format
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
def systime_to_hwclock_in_utc(self):
print "Setting the hwclock from system time, in UTC format"
l_res = self.cv_HOST.host_run_command(
"hwclock --systohc --utc;echo $?")
l_res = l_res.splitlines()
if int(l_res[-1]) == 0:
return BMC_CONST.FW_SUCCESS
else:
l_msg = "Setting the hwclock from system time in UTC format failed"
print l_msg
raise OpTestError(l_msg)
##
# @brief This function sets the time of hwclock from system time in local time format
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
def systime_to_hwclock_in_localtime(self):
print "Setting the hwclock from system time, in localtime format"
l_res = self.cv_HOST.host_run_command(
"hwclock --systohc --localtime;echo $?")
l_res = l_res.splitlines()
if int(l_res[-1]) == 0:
return BMC_CONST.FW_SUCCESS
else:
l_msg = "Setting the hwclock from system time in localtime format failed"
print l_msg
raise OpTestError(l_msg)
##
# @brief This function sets the system time from hwclock.
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
def hwclock_to_systime(self):
print "Setting the system time from hwclock"
l_res = self.cv_HOST.host_run_command("hwclock --hctosys;echo $?")
l_res = l_res.splitlines()
if int(l_res[-1]) == 0:
return BMC_CONST.FW_SUCCESS
else:
l_msg = "Setting the system time from hwclock failed"
print l_msg
raise OpTestError(l_msg)
##
# @brief This function keeps hwclock in UTC format.
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
def hwclock_in_utc(self):
print "Keeping the hwclock in UTC format"
l_res = self.cv_HOST.host_run_command("hwclock --utc;echo $?")
l_res = l_res.splitlines()
if int(l_res[-1]) == 0:
return BMC_CONST.FW_SUCCESS
else:
l_msg = "Keeping the hwclock in UTC is failed"
print l_msg
raise OpTestError(l_msg)
##
# @brief This function keeps hwclock in local time format.
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
def hwclock_in_localtime(self):
print "Keeping the hwclock in localtime"
l_res = self.cv_HOST.host_run_command("hwclock --localtime;echo $?")
l_res = l_res.splitlines()
if int(l_res[-1]) == 0:
return BMC_CONST.FW_SUCCESS
else:
l_msg = "Keeping the hwclock in localtime is failed"
print l_msg
raise OpTestError(l_msg)
##
# @brief This function tests hwclock compare functionality for a time of 100 seconds.
# Here checking the return status of timeout as 124, if compare works fine. any
# other return value means compare function failed.
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
def hwclock_compare(self):
print "Testing hwclock compare functionality for a time of 100 seconds"
l_res = self.cv_HOST.host_run_command(
"timeout 100 hwclock --compare; echo $?")
l_res = l_res.splitlines()
print l_res
if int(l_res[-1]) == 124:
return BMC_CONST.FW_SUCCESS
else:
l_msg = "hwclock compare function failed"
print l_msg
raise OpTestError(l_msg)
##
# @brief This function predict RTC reading at time given with --date
#
# @param i_time @type string: time at which predict hwclock reading
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
def hwclock_predict(self, i_time):
print "Testing the hwclock predict function to a time: %s" % i_time
l_res = self.cv_HOST.host_run_command(
"hwclock --predict --date \'%s\';echo $?" % i_time)
l_res = l_res.splitlines()
if int(l_res[-1]) == 0:
return BMC_CONST.FW_SUCCESS
else:
l_msg = "hwclock predict function failed"
print l_msg
raise OpTestError(l_msg)
##
# @brief This function tests hwclock debug mode.
# In this mode setting hwclock from system time
# and setting system time from hwclock
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
def hwclock_debug_mode(self):
print "Testing the hwclock debug mode"
l_res = self.cv_HOST.host_run_command(
"hwclock --systohc --debug;echo $?")
l_res = l_res.splitlines()
if int(l_res[-1]) == 0:
pass
else:
l_msg = "Setting the hwclock from system time in debug mode failed"
print l_msg
raise OpTestError(l_msg)
l_res = self.cv_HOST.host_run_command(
"hwclock --hctosys --debug;echo $?")
l_res = l_res.splitlines()
if int(l_res[-1]) == 0:
return BMC_CONST.FW_SUCCESS
else:
l_msg = "Setting the system time from hwclock in debug mode failed"
print l_msg
raise OpTestError(l_msg)
##
# @brief This function tests the hwclock test mode. In this mode setting the hwclock
# time using --set option. Here it just execute but should not set hwclock time.
#
# @param i_time @type string: time to set hwclock in test mode
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
def hwclock_test_mode(self, i_time):
print "Testing the hwclock test mode, set time to: %s" % i_time
l_res = self.cv_HOST.host_run_command(
"hwclock --set --date \'%s\' --test;echo $?" % i_time)
l_res = l_res.splitlines()
if int(l_res[-1]) == 0:
return BMC_CONST.FW_SUCCESS
else:
l_msg = "hwclock test function failed"
print l_msg
raise OpTestError(l_msg)
##
# @brief This function tests hwclock adjust functionality
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
def hwclock_adjust(self):
print "Testing the hwclock adjust function"
l_res = self.cv_HOST.host_run_command("hwclock --adjust;echo $?")
l_res = l_res.splitlines()
if int(l_res[-1]) == 0:
l_res = self.cv_HOST.host_run_command("cat /etc/adjtime")
return BMC_CONST.FW_SUCCESS
else:
l_msg = "hwclock adjust function failed"
print l_msg
raise OpTestError(l_msg)
class OpTestFastReboot():
## Initialize this object
# @param i_bmcIP The IP address of the BMC
# @param i_bmcUser The userid to log into the BMC with
# @param i_bmcPasswd The password of the userid to log into the BMC with
# @param i_bmcUserIpmi The userid to issue the BMC IPMI commands with
# @param i_bmcPasswdIpmi The password of BMC IPMI userid
# @param i_ffdcDir Optional param to indicate where to write FFDC
#
# "Only required for inband tests" else Default = None
# @param i_hostIP The IP address of the HOST
# @param i_hostuser The userid to log into the HOST
# @param i_hostPasswd The password of the userid to log into the HOST with
#
def __init__(self, i_bmcIP, i_bmcUser, i_bmcPasswd,
i_bmcUserIpmi, i_bmcPasswdIpmi, i_ffdcDir=None, i_hostip=None,
i_hostuser=None, i_hostPasswd=None):
self.cv_BMC = OpTestBMC(i_bmcIP, i_bmcUser, i_bmcPasswd, i_ffdcDir)
self.cv_IPMI = OpTestIPMI(i_bmcIP, i_bmcUserIpmi, i_bmcPasswdIpmi,
i_ffdcDir, i_hostip, i_hostuser, i_hostPasswd)
self.cv_HOST = OpTestHost(i_hostip, i_hostuser, i_hostPasswd, i_bmcIP)
self.cv_SYSTEM = OpTestSystem(i_bmcIP, i_bmcUser, i_bmcPasswd,
i_bmcUserIpmi, i_bmcPasswdIpmi, i_ffdcDir, i_hostip,
i_hostuser, i_hostPasswd)
self.util = OpTestUtil()
##
# @brief This function tests fast reset of power systems.
# It will check booting sequence when reboot command
# getting executed in both petitboot and host OS
#
# @return BMC_CONST.FW_SUCCESS or BMC_CONST.FW_FAILED
#
def test_opal_fast_reboot(self):
self.cv_SYSTEM.sys_bmc_power_on_validate_host()
self.cv_HOST.host_run_command(BMC_CONST.NVRAM_SET_FAST_RESET_MODE)
res = self.cv_HOST.host_run_command(BMC_CONST.NVRAM_PRINT_FAST_RESET_VALUE)
if "feeling-lucky" in res:
print "Setting the fast-reset mode successful"
else:
raise OpTestError("Failed to set the fast-reset mode")
self.con = self.cv_SYSTEM.sys_get_ipmi_console()
self.cv_IPMI.ipmi_host_login(self.con)
self.cv_IPMI.ipmi_host_set_unique_prompt(self.con)
self.cv_IPMI.run_host_cmd_on_ipmi_console("uname -a")
self.cv_IPMI.ipmi_set_boot_to_petitboot()
self.con.sendline("reboot")
self.con.expect(" RESET: Initiating fast reboot", timeout=60)
# Exiting to petitboot shell
self.con.expect('Petitboot', timeout=BMC_CONST.PETITBOOT_TIMEOUT)
self.con.expect('x=exit', timeout=10)
# Exiting to petitboot
self.con.sendcontrol('l')
self.con.send('\x1b[B')
self.con.send('\x1b[B')
self.con.send('\r')
self.con.expect('Exiting petitboot')
self.con.send('\r')
self.con.send('\x08')
self.cv_IPMI.ipmi_host_set_unique_prompt(self.con)
self.cv_IPMI.run_host_cmd_on_ipmi_console("uname -a")
self.con.sendline("reboot")
self.con.expect(" RESET: Initiating fast reboot", timeout=60)
# Exiting to petitboot shell
self.con.expect('Petitboot', timeout=BMC_CONST.PETITBOOT_TIMEOUT)
self.con.expect('x=exit', timeout=10)
print "fast-reset boots the system to runtime"
self.cv_IPMI.ipmi_set_boot_to_disk()
return BMC_CONST.FW_SUCCESS
class OpTestMtdPnorDriver():
## Initialize this object and also getting the host login credentials to use by scp utility
# @param i_bmcIP The IP address of the BMC
# @param i_bmcUser The userid to log into the BMC with
# @param i_bmcPasswd The password of the userid to log into the BMC with
# @param i_bmcUserIpmi The userid to issue the BMC IPMI commands with
# @param i_bmcPasswdIpmi The password of BMC IPMI userid
# @param i_ffdcDir Optional param to indicate where to write FFDC
#
# "Only required for inband tests" else Default = None
# @param i_hostIP The IP address of the HOST
# @param i_hostuser The userid to log into the HOST
# @param i_hostPasswd The password of the userid to log into the HOST with
#
def __init__(self, i_bmcIP, i_bmcUser, i_bmcPasswd,
i_bmcUserIpmi, i_bmcPasswdIpmi, i_ffdcDir=None, i_hostip=None,
i_hostuser=None, i_hostPasswd=None):
self.cv_BMC = OpTestBMC(i_bmcIP, i_bmcUser, i_bmcPasswd, i_ffdcDir)
self.cv_IPMI = OpTestIPMI(i_bmcIP, i_bmcUserIpmi, i_bmcPasswdIpmi,
i_ffdcDir)
self.cv_HOST = OpTestHost(i_hostip, i_hostuser, i_hostPasswd, i_bmcIP)
self.cv_SYSTEM = OpTestSystem(i_bmcIP, i_bmcUser, i_bmcPasswd,
i_bmcUserIpmi, i_bmcPasswdIpmi, i_ffdcDir, i_hostip,
i_hostuser, i_hostPasswd)
self.util = OpTestUtil()
self.host_user = i_hostuser
self.host_ip = i_hostip
self.host_Passwd = i_hostPasswd
##
# @brief This function has following test steps
# 1. Get host information(OS and Kernel information)
# 2. Load the mtd module based on config value
# 3. Check /dev/mtd0 character device file existence on host
# 4. Copying the contents of the flash in a file /tmp/pnor
# 5. Getting the /tmp/pnor file into local x86 machine using scp utility
# 6. Remove existing /tmp/ffs directory and
# Clone latest ffs git repository in local x86 working machine
# 7. Compile ffs repository to get fcp utility
# 8. Check existence of fcp utility in ffs repository, after compiling
# 9. Get the PNOR flash contents on an x86 machine using fcp utility
#
# @return BMC_CONST.FW_SUCCESS-success or raise OpTestError-fail
#
def testMtdPnorDriver(self):
self.cv_SYSTEM.sys_bmc_power_on_validate_host()
# Get OS level
l_oslevel = self.cv_HOST.host_get_OS_Level()
# Get Kernel Version
l_kernel = self.cv_HOST.host_get_kernel_version()
# loading mtd module based on config option
l_config = "CONFIG_MTD_POWERNV_FLASH"
l_module = "mtd"
self.cv_HOST.host_load_module_based_on_config(l_kernel, l_config, l_module)
# Check /dev/mtd0 file existence on host
l_cmd = "ls -l /dev/mtd0; echo $?"
l_res = self.cv_HOST.host_run_command(l_cmd)
l_res = l_res.splitlines()
if int(l_res[-1]) == 0:
print "/dev/mtd0 character device file exists on host"
else:
l_msg = "/dev/mtd0 character device file doesn't exist on host"
print l_msg
raise OpTestError(l_msg)
# Copying the contents of the PNOR flash in a file /tmp/pnor
l_file = "/tmp/pnor"
l_cmd = "cat /dev/mtd0 > %s; echo $?" % l_file
l_res = self.cv_HOST.host_run_command(l_cmd)
l_res = l_res.splitlines()
if int(l_res[-1]) == 0:
print "Fetched PNOR data from /dev/mtd0 into temp file /tmp/pnor"
else:
l_msg = "Fetching PNOR data is failed from /dev/mtd0 into temp file /tmp/pnor"
print l_msg
raise OpTestError(l_msg)
# Getting the /tmp/pnor file into local x86 machine
l_path = "/tmp/"
self.util.copyFilesToDest(l_path, self.host_user, self.host_ip, l_file, self.host_Passwd, "2", BMC_CONST.SCP_TO_LOCAL)
l_list = commands.getstatusoutput("ls -l %s; echo $?" % l_path)
print l_list
l_workdir = "/tmp/ffs"
# Remove existing /tmp/ffs directory
l_res = commands.getstatusoutput("rm -rf %s" % l_workdir)
print l_res
# Clone latest ffs git repository in local x86 working machine
l_cmd = "git clone https://github.com/open-power/ffs/ %s" % l_workdir
l_res = commands.getstatusoutput(l_cmd)
print l_res
if int(l_res[0]) == 0:
print "Cloning of ffs repository is successfull"
else:
l_msg = "Cloning ffs repository is failed"
print l_msg
raise OpTestError(l_msg)
# Compile ffs repository to get fcp utility
l_cmd = "cd %s/; make" % l_workdir
l_res = commands.getstatusoutput(l_cmd)
print l_res
if int(l_res[0]) == 0:
print "Compiling fcp utility is successfull"
else:
l_msg = "Compiling fcp utility is failed"
print l_msg
raise OpTestError(l_msg)
# Check existence of fcp utility in ffs repository, after compiling.
l_cmd = "test -f %s/fcp/x86/fcp" % l_workdir
l_res = commands.getstatusoutput(l_cmd)
print l_res
if int(l_res[0]) == 0:
print "Compiling fcp utility is successfull"
else:
l_msg = "Compiling fcp utility is failed"
print l_msg
raise OpTestError(l_msg)
# Check the PNOR flash contents on an x86 machine using fcp utility
l_cmd = "%s/fcp/x86/fcp -o 0x0 -L %s" % (l_workdir, l_file)
l_res = commands.getstatusoutput(l_cmd)
print l_res[1]
if int(l_res[0]) == 0:
print "Getting PNOR data successfull using fcp utility"
return BMC_CONST.FW_SUCCESS
else:
l_msg = "Getting the PNOR data using fcp utility failed"
print l_msg
raise OpTestError(l_msg)
class OpTestSystemBootSequence():
## Initialize this object
# @param i_bmcIP The IP address of the BMC
# @param i_bmcUser The userid to log into the BMC with
# @param i_bmcPasswd The password of the userid to log into the BMC with
# @param i_bmcUserIpmi The userid to issue the BMC IPMI commands with
# @param i_bmcPasswdIpmi The password of BMC IPMI userid
# @param i_ffdcDir Optional param to indicate where to write FFDC
#
# "Only required for inband tests" else Default = None
# @param i_hostip The IP address of the HOST
# @param i_hostuser The userid to log into the HOST
# @param i_hostpasswd The password of the userid to log into the HOST with
#
def __init__(self, i_bmcIP, i_bmcUser, i_bmcPasswd,
i_bmcUserIpmi, i_bmcPasswdIpmi, i_ffdcDir=None, i_hostip=None,
i_hostuser=None, i_hostpasswd=None):
self.cv_BMC = OpTestBMC(i_bmcIP, i_bmcUser, i_bmcPasswd, i_ffdcDir)
self.cv_IPMI = OpTestIPMI(i_bmcIP, i_bmcUserIpmi, i_bmcPasswdIpmi,
i_ffdcDir, i_hostip, i_hostuser, i_hostpasswd)
self.cv_HOST = OpTestHost(i_hostip, i_hostuser, i_hostpasswd, i_bmcIP, i_ffdcDir)
self.cv_SYSTEM = OpTestSystem(i_bmcIP, i_bmcUser, i_bmcPasswd,
i_bmcUserIpmi, i_bmcPasswdIpmi, i_ffdcDir, i_hostip,
i_hostuser, i_hostpasswd)
self.util = OpTestUtil()
##
# @brief This function will test mc cold reset boot sequence
# It has below steps
# 1. Do a system Power OFF(Host should go down)
# 2. Set auto reboot policy to off(chassis policy always-off)
# 3. Issue a BMC Cold reset.
# 4. After BMC comes up, Issue a Power ON of the system
# 5. Check for system status and gather OPAL msg log.
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
def testMcColdResetBootSequence(self):
self.cv_SYSTEM.sys_bmc_power_on_validate_host()
print "Testing MC Cold reset boot sequence"
print "Performing a IPMI Power OFF Operation"
# Perform a IPMI Power OFF Operation(Immediate Shutdown)
self.cv_IPMI.ipmi_power_off()
if int(self.cv_SYSTEM.sys_wait_for_standby_state(BMC_CONST.SYSTEM_STANDBY_STATE_DELAY)) == 0:
print "System is in standby/Soft-off state"
else:
l_msg = "System failed to reach standby/Soft-off state"
raise OpTestError(l_msg)
print "Setting the system power policy to always-off"
self.cv_IPMI.ipmi_set_power_policy("always-off")
# Perform a BMC Cold Reset Operation
self.cv_IPMI.ipmi_cold_reset()
print "Performing a IPMI Power ON Operation"
# Perform a IPMI Power ON Operation
self.cv_IPMI.ipmi_power_on()
self.cv_SYSTEM.sys_check_host_status()
self.util.PingFunc(self.cv_HOST.ip, BMC_CONST.PING_RETRY_POWERCYCLE)
self.cv_IPMI.clear_ssh_keys(self.cv_HOST.ip)
print "Gathering the OPAL msg logs"
self.cv_HOST.host_gather_opal_msg_log()
return BMC_CONST.FW_SUCCESS
##
# @brief This function will test mc warm reset boot sequence
# It has below steps
# 1. Do a system Power OFF(Host should go down)
# 2. Set auto reboot policy to off(chassis policy always-off)
# 3. Issue a BMC Warm reset.
# 4. After BMC comes up, Issue a Power ON of the system
# 5. Check for system status and gather OPAL msg log.
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
def testMcWarmResetBootSequence(self):
self.cv_SYSTEM.sys_bmc_power_on_validate_host()
print "Testing MC Warm reset boot sequence"
print "Performing a IPMI Power OFF Operation"
# Perform a IPMI Power OFF Operation(Immediate Shutdown)
self.cv_IPMI.ipmi_power_off()
if int(self.cv_SYSTEM.sys_wait_for_standby_state(BMC_CONST.SYSTEM_STANDBY_STATE_DELAY)) == 0:
print "System is in standby/Soft-off state"
else:
l_msg = "System failed to reach standby/Soft-off state"
raise OpTestError(l_msg)
print "Setting the system power policy to always-off"
self.cv_IPMI.ipmi_set_power_policy("always-off")
# Perform a BMC Warm Reset Operation
self.cv_IPMI.ipmi_warm_reset()
print "Performing a IPMI Power ON Operation"
# Perform a IPMI Power ON Operation
self.cv_IPMI.ipmi_power_on()
self.cv_SYSTEM.sys_check_host_status()
self.util.PingFunc(self.cv_HOST.ip, BMC_CONST.PING_RETRY_POWERCYCLE)
self.cv_IPMI.clear_ssh_keys(self.cv_HOST.ip)
print "Gathering the OPAL msg logs"
self.cv_HOST.host_gather_opal_msg_log()
return BMC_CONST.FW_SUCCESS
##
# @brief This function will test system auto reboot policy always-off.
# It has below steps
# 1. Do a system Power OFF(Host should go down)
# 2. Set auto reboot policy to off(chassis policy always-off)
# 3. Issue a BMC Cold reset.
# 4. After BMC comes up, expect the system to not boot.
# 5. Issue a Power ON of the system
# 6. Check for system status and gather OPAL msg log.
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
def testSystemPowerPolicyOff(self):
self.cv_SYSTEM.sys_bmc_power_on_validate_host()
print "Testing System Power Policy:always-off"
print "Performing a IPMI Power OFF Operation"
# Perform a IPMI Power OFF Operation(Immediate Shutdown)
self.cv_IPMI.ipmi_power_off()
if int(self.cv_SYSTEM.sys_wait_for_standby_state(BMC_CONST.SYSTEM_STANDBY_STATE_DELAY)) == BMC_CONST.FW_SUCCESS:
print "System is in standby/Soft-off state"
else:
l_msg = "System failed to reach standby/Soft-off state"
raise OpTestError(l_msg)
print "Setting the system power policy to always-off"
self.cv_IPMI.ipmi_set_power_policy("always-off")
# Perform a BMC Cold Reset Operation
if int(self.cv_SYSTEM.sys_cold_reset_bmc()) == BMC_CONST.FW_SUCCESS:
print "System auto reboot policy for always-off works as expected"
print "System Power status not changed"
print "Performing a IPMI Power ON Operation"
# Perform a IPMI Power ON Operation
self.cv_IPMI.ipmi_power_on()
else:
print "Power restore policy failed"
l_msg = "Fail: chassis policy always-off making the system to auto boot"
print l_msg
self.cv_SYSTEM.sys_check_host_status()
self.util.PingFunc(self.cv_HOST.ip, BMC_CONST.PING_RETRY_POWERCYCLE)
self.cv_IPMI.clear_ssh_keys(self.cv_HOST.ip)
print "Gathering the OPAL msg logs"
self.cv_HOST.host_gather_opal_msg_log()
return BMC_CONST.FW_SUCCESS
##
# @brief This function will test system auto reboot policy always-on.
# It has below steps
# 1. Do a system Power OFF(Host should go down)
# 2. Set auto reboot policy to on(chassis policy always-on)
# 3. Issue a BMC Cold reset.
# 4. After BMC comes up, Here expect the system to boot,
# If not power policy is not working as expected
# 5. Check for system status and gather OPAL msg log.
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
def testSystemPowerPolicyOn(self):
self.cv_SYSTEM.sys_bmc_power_on_validate_host()
print "Testing System Power Policy:Always-ON"
print "Performing a IPMI Power OFF Operation"
# Perform a IPMI Power OFF Operation(Immediate Shutdown)
self.cv_IPMI.ipmi_power_off()
if int(self.cv_SYSTEM.sys_wait_for_standby_state(BMC_CONST.SYSTEM_STANDBY_STATE_DELAY)) == BMC_CONST.FW_SUCCESS:
print "System is in standby/Soft-off state"
else:
l_msg = "System failed to reach standby/Soft-off state"
raise OpTestError(l_msg)
print "Setting the system power policy to always-on"
self.cv_IPMI.ipmi_set_power_policy("always-on")
# Perform a BMC Cold Reset Operation
if int(self.cv_SYSTEM.sys_cold_reset_bmc()) == BMC_CONST.FW_FAILED:
print "System auto reboot policy for always-on works as expected"
print "System Power status changed as expected"
else:
print "Power restore policy failed"
l_msg = "Fail: chassis policy always-on making the system not to auto boot"
print "Performing a IPMI Power ON Operation"
# Perform a IPMI Power ON Operation
self.cv_IPMI.ipmi_power_on()
self.cv_SYSTEM.sys_check_host_status()
self.util.PingFunc(self.cv_HOST.ip, BMC_CONST.PING_RETRY_POWERCYCLE)
self.cv_IPMI.clear_ssh_keys(self.cv_HOST.ip)
print "Gathering the OPAL msg logs"
self.cv_HOST.host_gather_opal_msg_log()
return BMC_CONST.FW_SUCCESS
##
# @brief This function will test system auto reboot policy previous
# It has below steps
# 1. Do a system Power OFF(Host should go down)
# 2. Set auto reboot policy to previous(chassis policy previous)
# 3. Issue a BMC Cold reset.
# 4. After BMC comes up, system power status will change based on
# previous power status before issuing cold reset.
# 5. Check for system status and gather OPAL msg log.
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
def testSystemPowerPolicyPrevious(self):
self.cv_SYSTEM.sys_bmc_power_on_validate_host()
print "Testing System Power Policy:previous"
print "Performing a IPMI Power OFF Operation"
# Perform a IPMI Power OFF Operation(Immediate Shutdown)
self.cv_IPMI.ipmi_power_off()
if int(self.cv_SYSTEM.sys_wait_for_standby_state(BMC_CONST.SYSTEM_STANDBY_STATE_DELAY)) == BMC_CONST.FW_SUCCESS:
print "System is in standby/Soft-off state"
else:
l_msg = "System failed to reach standby/Soft-off state"
raise OpTestError(l_msg)
print "Setting the system power policy to previous"
self.cv_IPMI.ipmi_set_power_policy("previous")
# Perform a BMC Cold Reset Operation
if int(self.cv_SYSTEM.sys_cold_reset_bmc()) == BMC_CONST.FW_SUCCESS:
print "System auto reboot policy for previous works as expected"
print "System Power status not changed"
print "Performing a IPMI Power ON Operation"
# Perform a IPMI Power ON Operation
self.cv_IPMI.ipmi_power_on()
else:
print "Power restore policy failed"
l_msg = "Fail: chassis policy previous making the system to auto boot"
print l_msg
self.cv_SYSTEM.sys_check_host_status()
self.util.PingFunc(self.cv_HOST.ip, BMC_CONST.PING_RETRY_POWERCYCLE)
self.cv_IPMI.clear_ssh_keys(self.cv_HOST.ip)
print "Gathering the OPAL msg logs"
self.cv_HOST.host_gather_opal_msg_log()
# Perform a BMC Cold Reset Operation
if int(self.cv_SYSTEM.sys_cold_reset_bmc()) == BMC_CONST.FW_SUCCESS:
print "System auto reboot policy for previous works as expected"
print "System Power status not changed"
else:
print "Power restore policy previous failed"
l_msg = "Fail: chassis policy previous making the system to change power status"
print l_msg
# Perform a IPMI Power ON Operation
self.cv_IPMI.ipmi_power_on()
self.cv_SYSTEM.sys_check_host_status()
self.util.PingFunc(self.cv_HOST.ip, BMC_CONST.PING_RETRY_POWERCYCLE)
self.cv_IPMI.clear_ssh_keys(self.cv_HOST.ip)
print "Gathering the OPAL msg logs"
self.cv_HOST.host_gather_opal_msg_log()
class OpTestRTCdriver():
## Initialize this object
# @param i_bmcIP The IP address of the BMC
# @param i_bmcUser The userid to log into the BMC with
# @param i_bmcPasswd The password of the userid to log into the BMC with
# @param i_bmcUserIpmi The userid to issue the BMC IPMI commands with
# @param i_bmcPasswdIpmi The password of BMC IPMI userid
# @param i_ffdcDir Optional param to indicate where to write FFDC
#
# "Only required for inband tests" else Default = None
# @param i_hostIP The IP address of the HOST
# @param i_hostuser The userid to log into the HOST
# @param i_hostPasswd The password of the userid to log into the HOST with
#
def __init__(self, i_bmcIP, i_bmcUser, i_bmcPasswd,
i_bmcUserIpmi, i_bmcPasswdIpmi, i_ffdcDir=None, i_hostip=None,
i_hostuser=None, i_hostPasswd=None):
self.cv_BMC = OpTestBMC(i_bmcIP, i_bmcUser, i_bmcPasswd, i_ffdcDir)
self.cv_IPMI = OpTestIPMI(i_bmcIP, i_bmcUserIpmi, i_bmcPasswdIpmi,
i_ffdcDir)
self.cv_HOST = OpTestHost(i_hostip, i_hostuser, i_hostPasswd,i_bmcIP)
self.cv_SYSTEM = OpTestSystem(i_bmcIP, i_bmcUser, i_bmcPasswd,
i_bmcUserIpmi, i_bmcPasswdIpmi, i_ffdcDir, i_hostip,
i_hostuser, i_hostPasswd)
self.util = OpTestUtil()
##
# @brief This function will cover following test steps
# 1. Getting host information(OS and Kernel info)
# 2. Loading rtc_opal module based on config option
# 3. Testing the rtc driver functions
# Display the current time,
# set the Hardware Clock to a specified time,
# set the Hardware Clock from the System Time, or
# set the System Time from the Hardware Clock
# keep the Hardware clock in UTC or local time format
# Hardware clock compare, predict and adjust functions
# Hardware clock debug and test modes
# Reading the Hardware clock from special file instead of default
# 4. After executing above each function reading the Hardware clock in b/w functions.
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
def test_RTC_driver(self):
self.cv_SYSTEM.sys_bmc_power_on_validate_host()
# Get OS level
l_oslevel = self.cv_HOST.host_get_OS_Level()
# Get Kernel Version
l_kernel = self.cv_HOST.host_get_kernel_version()
# Get hwclock version
l_hwclock = self.cv_HOST.host_run_command("hwclock -V;echo $?")
# loading rtc_opal module based on config option
l_config = "CONFIG_RTC_DRV_OPAL"
l_module = "rtc_opal"
self.cv_HOST.host_load_module_based_on_config(l_kernel, l_config, l_module)
# Get the device files for rtc driver
l_res = self.cv_HOST.host_run_command("ls /dev/ | grep -i --color=never rtc")
l_files = l_res.splitlines()
l_list = []
for name in l_files:
if name.__contains__("rtc"):
l_file = "/dev/" + name
l_list.append(l_file)
else:
continue
print l_list
# Display the time of hwclock from device files
for l_file in l_list:
self.read_hwclock_from_file(l_file)
self.cv_HOST.host_read_hwclock()
time.sleep(5)
self.cv_HOST.host_set_hwclock_time("2015-01-01 10:10:10")
time.sleep(5)
self.cv_HOST.host_read_hwclock()
self.cv_HOST.host_set_hwclock_time("2016-01-01 20:20:20")
self.cv_HOST.host_read_hwclock()
self.set_hwclock_in_utc("2017-01-01 10:10:10")
self.cv_HOST.host_read_hwclock()
self.set_hwclock_in_localtime("2014-01-01 05:05:05")
self.cv_HOST.host_read_hwclock()
self.cv_HOST.host_read_systime()
self.systime_to_hwclock()
self.cv_HOST.host_read_hwclock()
self.systime_to_hwclock_in_utc()
self.cv_HOST.host_read_hwclock()
self.systime_to_hwclock_in_localtime()
self.cv_HOST.host_read_hwclock()
self.hwclock_to_systime()
self.cv_HOST.host_read_hwclock()
self.cv_HOST.host_read_systime()
self.hwclock_in_utc()
self.cv_HOST.host_read_hwclock()
self.hwclock_in_localtime()
self.cv_HOST.host_read_hwclock()
self.hwclock_predict("2015-01-01 10:10:10")
self.cv_HOST.host_read_hwclock()
self.hwclock_debug_mode()
self.cv_HOST.host_read_hwclock()
self.hwclock_test_mode("2018-01-01 10:10:10")
self.cv_HOST.host_read_hwclock()
self.hwclock_adjust()
self.cv_HOST.host_read_hwclock()
self.hwclock_compare()
self.cv_HOST.host_read_hwclock()
##
# @brief This function reads hwclock from special /dev/... file instead of default
#
# @param i_file @type string: special /dev/ file
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
def read_hwclock_from_file(self, i_file):
print "Reading the hwclock from special file /dev/ ...: %s" % i_file
l_res = self.cv_HOST.host_run_command("hwclock -r -f %s;echo $?" % i_file)
l_res = l_res.splitlines()
if int(l_res[-1]) == 0:
return BMC_CONST.FW_SUCCESS
else:
l_msg = "Reading the hwclock from file failed"
print l_msg
raise OpTestError(l_msg)
##
# @brief This function sets hwclock in UTC format
#
# @param i_time @type string: time to set hwclock
# Ex: "2016-01-01 12:12:12"
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
def set_hwclock_in_utc(self, i_time):
print "Setting the hwclock in UTC: %s" % i_time
l_res = self.cv_HOST.host_run_command("hwclock --set --date \'%s\' --utc;echo $?" % i_time)
l_res = l_res.splitlines()
if int(l_res[-1]) == 0:
return BMC_CONST.FW_SUCCESS
else:
l_msg = "Setting the hwclock in UTC failed"
print l_msg
raise OpTestError(l_msg)
##
# @brief This function sets hwclock in local time format
#
# @param i_time @type string: Time to set hwclock
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
def set_hwclock_in_localtime(self, i_time):
print "Setting the hwclock in localtime: %s" % i_time
l_res = self.cv_HOST.host_run_command("hwclock --set --date \'%s\' --localtime;echo $?" % i_time)
l_res = l_res.splitlines()
if int(l_res[-1]) == 0:
return BMC_CONST.FW_SUCCESS
else:
l_msg = "Setting the hwclock in localtime failed"
print l_msg
raise OpTestError(l_msg)
##
# @brief This function sets the time of hwclock from system time
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
def systime_to_hwclock(self):
print "Setting the hwclock from system time"
l_res = self.cv_HOST.host_run_command("hwclock --systohc;echo $?")
l_res = l_res.splitlines()
if int(l_res[-1]) == 0:
return BMC_CONST.FW_SUCCESS
else:
l_msg = "Setting the hwclock from system time failed"
print l_msg
raise OpTestError(l_msg)
##
# @brief This function sets the time of hwclock from system time in UTC format
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
def systime_to_hwclock_in_utc(self):
print "Setting the hwclock from system time, in UTC format"
l_res = self.cv_HOST.host_run_command("hwclock --systohc --utc;echo $?")
l_res = l_res.splitlines()
if int(l_res[-1]) == 0:
return BMC_CONST.FW_SUCCESS
else:
l_msg = "Setting the hwclock from system time in UTC format failed"
print l_msg
raise OpTestError(l_msg)
##
# @brief This function sets the time of hwclock from system time in local time format
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
def systime_to_hwclock_in_localtime(self):
print "Setting the hwclock from system time, in localtime format"
l_res = self.cv_HOST.host_run_command("hwclock --systohc --localtime;echo $?")
l_res = l_res.splitlines()
if int(l_res[-1]) == 0:
return BMC_CONST.FW_SUCCESS
else:
l_msg = "Setting the hwclock from system time in localtime format failed"
print l_msg
raise OpTestError(l_msg)
##
# @brief This function sets the system time from hwclock.
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
def hwclock_to_systime(self):
print "Setting the system time from hwclock"
l_res = self.cv_HOST.host_run_command("hwclock --hctosys;echo $?")
l_res = l_res.splitlines()
if int(l_res[-1]) == 0:
return BMC_CONST.FW_SUCCESS
else:
l_msg = "Setting the system time from hwclock failed"
print l_msg
raise OpTestError(l_msg)
##
# @brief This function keeps hwclock in UTC format.
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
def hwclock_in_utc(self):
print "Keeping the hwclock in UTC format"
l_res = self.cv_HOST.host_run_command("hwclock --utc;echo $?")
l_res = l_res.splitlines()
if int(l_res[-1]) == 0:
return BMC_CONST.FW_SUCCESS
else:
l_msg = "Keeping the hwclock in UTC is failed"
print l_msg
raise OpTestError(l_msg)
##
# @brief This function keeps hwclock in local time format.
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
def hwclock_in_localtime(self):
print "Keeping the hwclock in localtime"
l_res = self.cv_HOST.host_run_command("hwclock --localtime;echo $?")
l_res = l_res.splitlines()
if int(l_res[-1]) == 0:
return BMC_CONST.FW_SUCCESS
else:
l_msg = "Keeping the hwclock in localtime is failed"
print l_msg
raise OpTestError(l_msg)
##
# @brief This function tests hwclock compare functionality for a time of 100 seconds.
# Here checking the return status of timeout as 124, if compare works fine. any
# other return value means compare function failed.
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
def hwclock_compare(self):
print "Testing hwclock compare functionality for a time of 100 seconds"
l_res = self.cv_HOST.host_run_command("timeout 100 hwclock --compare; echo $?")
l_res = l_res.splitlines()
print l_res
if int(l_res[-1]) == 124:
return BMC_CONST.FW_SUCCESS
else:
l_msg = "hwclock compare function failed"
print l_msg
raise OpTestError(l_msg)
##
# @brief This function predict RTC reading at time given with --date
#
# @param i_time @type string: time at which predict hwclock reading
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
def hwclock_predict(self, i_time):
print "Testing the hwclock predict function to a time: %s" % i_time
l_res = self.cv_HOST.host_run_command("hwclock --predict --date \'%s\';echo $?" % i_time)
l_res = l_res.splitlines()
if int(l_res[-1]) == 0:
return BMC_CONST.FW_SUCCESS
else:
l_msg = "hwclock predict function failed"
print l_msg
raise OpTestError(l_msg)
##
# @brief This function tests hwclock debug mode.
# In this mode setting hwclock from system time
# and setting system time from hwclock
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
def hwclock_debug_mode(self):
print "Testing the hwclock debug mode"
l_res = self.cv_HOST.host_run_command("hwclock --systohc --debug;echo $?")
l_res = l_res.splitlines()
if int(l_res[-1]) == 0:
pass
else:
l_msg = "Setting the hwclock from system time in debug mode failed"
print l_msg
raise OpTestError(l_msg)
l_res = self.cv_HOST.host_run_command("hwclock --hctosys --debug;echo $?")
l_res = l_res.splitlines()
if int(l_res[-1]) == 0:
return BMC_CONST.FW_SUCCESS
else:
l_msg = "Setting the system time from hwclock in debug mode failed"
print l_msg
raise OpTestError(l_msg)
##
# @brief This function tests the hwclock test mode. In this mode setting the hwclock
# time using --set option. Here it just execute but should not set hwclock time.
#
# @param i_time @type string: time to set hwclock in test mode
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
def hwclock_test_mode(self, i_time):
print "Testing the hwclock test mode, set time to: %s" % i_time
l_res = self.cv_HOST.host_run_command("hwclock --set --date \'%s\' --test;echo $?" % i_time)
l_res = l_res.splitlines()
if int(l_res[-1]) == 0:
return BMC_CONST.FW_SUCCESS
else:
l_msg = "hwclock test function failed"
print l_msg
raise OpTestError(l_msg)
##
# @brief This function tests hwclock adjust functionality
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
def hwclock_adjust(self):
print "Testing the hwclock adjust function"
l_res = self.cv_HOST.host_run_command("hwclock --adjust;echo $?")
l_res = l_res.splitlines()
if int(l_res[-1]) == 0:
l_res = self.cv_HOST.host_run_command("cat /etc/adjtime")
return BMC_CONST.FW_SUCCESS
else:
l_msg = "hwclock adjust function failed"
print l_msg
raise OpTestError(l_msg)
class OpTestAt24driver():
## Initialize this object
# @param i_bmcIP The IP address of the BMC
# @param i_bmcUser The userid to log into the BMC with
# @param i_bmcPasswd The password of the userid to log into the BMC with
# @param i_bmcUserIpmi The userid to issue the BMC IPMI commands with
# @param i_bmcPasswdIpmi The password of BMC IPMI userid
# @param i_ffdcDir Optional param to indicate where to write FFDC
#
# "Only required for inband tests" else Default = None
# @param i_hostIP The IP address of the HOST
# @param i_hostuser The userid to log into the HOST
# @param i_hostPasswd The password of the userid to log into the HOST with
#
def __init__(self,
i_bmcIP,
i_bmcUser,
i_bmcPasswd,
i_bmcUserIpmi,
i_bmcPasswdIpmi,
i_ffdcDir=None,
i_hostip=None,
i_hostuser=None,
i_hostPasswd=None):
self.cv_BMC = OpTestBMC(i_bmcIP, i_bmcUser, i_bmcPasswd, i_ffdcDir)
self.cv_IPMI = OpTestIPMI(i_bmcIP, i_bmcUserIpmi, i_bmcPasswdIpmi,
i_ffdcDir)
self.cv_HOST = OpTestHost(i_hostip, i_hostuser, i_hostPasswd, i_bmcIP)
self.cv_SYSTEM = OpTestSystem(i_bmcIP, i_bmcUser, i_bmcPasswd,
i_bmcUserIpmi, i_bmcPasswdIpmi,
i_ffdcDir, i_hostip, i_hostuser,
i_hostPasswd)
self.util = OpTestUtil()
##
# @brief This function has following test steps
# 1. Getting the host infromation(OS and kernel information)
# 2. Loading the necessary modules to test at24 device driver functionalites
# (i2c_dev, i2c_opal and at24)
# 3. Getting the list of i2c buses and eeprom chip addresses
# 4. Accessing the registers visible through the i2cbus using i2cdump utility
# 5. Getting the eeprom device data using hexdump utility in hex + Ascii format
#
# @return BMC_CONST.FW_SUCCESS-success or raise OpTestError
#
def testAt24driver(self):
self.cv_SYSTEM.sys_bmc_power_on_validate_host()
# Get OS level
self.cv_HOST.host_get_OS_Level()
# Check whether i2cdump and hexdump commands are available on host
self.cv_HOST.host_check_command("i2cdump", "hexdump")
# Get Kernel Version
l_kernel = self.cv_HOST.host_get_kernel_version()
# Loading i2c_opal module based on config option
l_config = "CONFIG_I2C_OPAL"
l_module = "i2c_opal"
self.cv_HOST.host_load_module_based_on_config(l_kernel, l_config,
l_module)
# Loading i2c_dev module based on config option
l_config = "CONFIG_I2C_CHARDEV"
l_module = "i2c_dev"
self.cv_HOST.host_load_module_based_on_config(l_kernel, l_config,
l_module)
# Loading at24 module based on config option
l_config = "CONFIG_EEPROM_AT24"
l_module = "at24"
self.cv_HOST.host_load_module_based_on_config(l_kernel, l_config,
l_module)
# Get infomtion of EEPROM chips
self.cv_HOST.host_get_info_of_eeprom_chips()
# Get list of pairs of i2c bus and EEPROM device addresses in the host
l_chips = self.cv_HOST.host_get_list_of_eeprom_chips()
for l_args in l_chips:
# Accessing the registers visible through the i2cbus using i2cdump utility
# l_args format: "0 0x51","1 0x53",.....etc
self.i2c_dump(l_args)
# Getting the list of sysfs eeprom interfaces
l_res = self.cv_HOST.host_run_command(
"find /sys/ -name eeprom; echo $?")
l_res = l_res.splitlines()
if int(l_res[-1]) == 0:
pass
else:
l_msg = "EEPROM sysfs entries are not created"
print l_msg
raise OpTestError(l_msg)
for l_dev in l_res:
if l_dev.__contains__("eeprom"):
# Getting the eeprom device data using hexdump utility in hex + Ascii format
self.cv_HOST.host_hexdump(l_dev)
else:
pass
return BMC_CONST.FW_SUCCESS
##
# @brief This i2cdump function takes arguments in pair of a string like "i2cbus address".
# i2cbus indicates the number or name of the I2C bus to be scanned. This number should
# correspond to one of the busses listed by i2cdetect -l. address indicates
# the address to be scanned on that bus, and is an integer between 0x03 and 0x77
# i2cdump is a program to examine registers visible through the I2C bus
#
# @param i_args @type string: this is the argument to i2cdump utility
# args are in the form of "i2c-bus-number eeprom-chip-address"
# Ex: "0 0x51","3 0x52" ....etc
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
def i2c_dump(self, i_args):
l_res = self.cv_HOST.host_run_command("i2cdump -f -y %s; echo $?" %
i_args)
l_res = l_res.splitlines()
if int(l_res[-1]) == 0:
return BMC_CONST.FW_SUCCESS
else:
l_msg = "i2cdump failed on addr %s" % i_args
print l_msg
raise OpTestError(l_msg)
class OpTestOOBIPMI():
## Initialize this object
# @param i_bmcIP The IP address of the BMC
# @param i_bmcUser The userid to log into the BMC with
# @param i_bmcPasswd The password of the userid to log into the BMC with
# @param i_bmcUserIpmi The userid to issue the BMC IPMI commands with
# @param i_bmcPasswdIpmi The password of BMC IPMI userid
# @param i_ffdcDir Optional param to indicate where to write FFDC
#
# "Only required for inband tests" else Default = None
# @param i_hostIP The IP address of the HOST
# @param i_hostuser The userid to log into the HOST
# @param i_hostPasswd The password of the userid to log into the HOST with
#
def __init__(self,
i_bmcIP,
i_bmcUser,
i_bmcPasswd,
i_bmcUserIpmi,
i_bmcPasswdIpmi,
i_ffdcDir=None,
i_hostip=None,
i_hostuser=None,
i_hostPasswd=None):
self.cv_BMC = OpTestBMC(i_bmcIP, i_bmcUser, i_bmcPasswd, i_ffdcDir)
self.cv_IPMI = OpTestIPMI(i_bmcIP, i_bmcUserIpmi, i_bmcPasswdIpmi,
i_ffdcDir)
self.cv_HOST = OpTestHost(i_hostip, i_hostuser, i_hostPasswd, i_bmcIP)
self.cv_SYSTEM = OpTestSystem(i_bmcIP, i_bmcUser, i_bmcPasswd,
i_bmcUserIpmi, i_bmcPasswdIpmi,
i_ffdcDir, i_hostip, i_hostuser,
i_hostPasswd)
self.util = OpTestUtil()
##
# @brief It will execute and test all Out-of-band ipmi commands.
# bmc, channel, chassis, dcmi, echo, event, exec, firewall, fru, lan
# mc, pef, power, raw, sdr, sel, sensor, session, user
#
# @return l_res @type list: output of command or raise OpTestError
#
def test_oob_ipmi(self):
self.cv_SYSTEM.sys_bmc_power_on_validate_host()
# Get OS level
l_oslevel = self.cv_HOST.host_get_OS_Level()
# Get kernel version
l_kernel = self.cv_HOST.host_get_kernel_version()
# Checking for ipmitool command and lm_sensors package
self.cv_HOST.host_check_command("ipmitool")
l_pkg = self.cv_HOST.host_check_pkg_for_utility(l_oslevel, "ipmitool")
print "Installed package: %s" % l_pkg
# loading below ipmi modules based on config option
# ipmi_devintf, ipmi_powernv and ipmi_masghandler
self.cv_HOST.host_load_module_based_on_config(
l_kernel, BMC_CONST.CONFIG_IPMI_DEVICE_INTERFACE,
BMC_CONST.IPMI_DEV_INTF)
self.cv_HOST.host_load_module_based_on_config(
l_kernel, BMC_CONST.CONFIG_IPMI_POWERNV, BMC_CONST.IPMI_POWERNV)
self.cv_HOST.host_load_module_based_on_config(
l_kernel, BMC_CONST.CONFIG_IPMI_HANDLER,
BMC_CONST.IPMI_MSG_HANDLER)
test_cases = [
self.test_chassis, self.test_chassisIdentifytests,
self.test_chassisBootdev, self.test_Info,
self.test_sdr_list_by_type, self.test_sdr_elist_by_type,
self.test_sdr_type_list, self.test_sdr_get_id, self.test_fru_print,
self.test_fru_read, self.test_mc, self.test_sensor_list,
self.test_sensor_get_host_status, self.test_sensor_get_os_boot,
self.test_sel_info, self.test_sel_list, self.test_sel_elist,
self.test_set_sel_time, self.test_sel_time_get,
self.test_sel_list_first_3_entries,
self.test_sel_list_last_3_entries, self.test_sel_get_functionality,
self.test_sel_clear_functionality, self.test_channel,
self.test_dcmi, self.test_echo, self.test_event,
self.test_firewall, self.test_pef, self.test_raw, self.test_exec,
self.test_bmc_golden_side_version,
self.test_get_pnor_partition_size_cmd,
self.test_bmc_boot_completed_cmd, self.test_get_led_state_cmd,
self.test_set_led_state_cmd
]
fail_count = 0
for test in test_cases:
try:
print "OOB IPMI: test case %s" % test
test(self)
except:
print "Test Fail: %s failed" % test
fail_count += 1
print sys.exc_info()
continue
print "OOB IPMI: Test case failure count %s" % fail_count
print self.cv_IPMI.ipmi_get_bmc_golden_side_version()
print self.cv_IPMI.ipmi_get_pnor_partition_size("NVRAM")
print self.cv_IPMI.ipmi_get_pnor_partition_size("GUARD")
print self.cv_IPMI.ipmi_get_pnor_partition_size("BOOTKERNEL")
print self.cv_IPMI.ipmi_get_bmc_boot_completion_status()
print self.cv_IPMI.ipmi_get_fault_led_state()
print self.cv_IPMI.ipmi_get_power_on_led_state()
print self.cv_IPMI.ipmi_get_host_status_led_state()
print self.cv_IPMI.ipmi_get_chassis_identify_led_state()
self.cv_IPMI.ipmi_enable_fan_control_task_command()
self.cv_IPMI.ipmi_get_fan_control_task_state_command()
self.cv_IPMI.ipmi_disable_fan_control_task_command()
self.cv_IPMI.ipmi_get_fan_control_task_state_command()
##
# @brief This function is used to get the bmc golden image version.
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_bmc_golden_side_version(self):
print "OOB IPMI: Get BMC Golden side Version Test"
self.run_ipmi_cmd(BMC_CONST.IPMI_GET_BMC_GOLDEN_SIDE_VERSION)
##
# @brief This function is used to get partition size of given PNOR Partition.
# Currently added NVRAM,GUARD and BOOTKERNEL partitions.
# TODO: Add all the necessary partitions to get the size.
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_get_pnor_partition_size_cmd(self):
print "OOB IPMI: Get size of PNOR partition Test"
print "OOB IPMI: Getting the size of NVRAM partition"
self.run_ipmi_cmd(BMC_CONST.IPMI_GET_NVRAM_PARTITION_SIZE)
print "OOB IPMI: Getting the size of GUARD partition"
self.run_ipmi_cmd(BMC_CONST.IPMI_GET_GUARD_PARTITION_SIZE)
print "OOB IPMI: Getting the size of BOOTKERNEL partition"
self.run_ipmi_cmd(BMC_CONST.IPMI_GET_BOOTKERNEL_PARTITION_SIZE)
##
# @brief This function is used to test reading of pnor partition data
# via ipmitool command. Here it will currently read NVRAM
# and FIRDATA partition's data of size 254 bytes.
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_read_pnor_partition_data(self):
self.run_ipmi_cmd(BMC_CONST.IPMI_READ_NVRAM_PARTITION_DATA)
self.run_ipmi_cmd(BMC_CONST.IPMI_READ_FIRDATA_PARTITION_DATA)
##
# @brief This function is used to check whether BMC Completed Booting.
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_bmc_boot_completed_cmd(self):
print "OOB IPMI: Get BMC boot completion status Test"
self.run_ipmi_cmd(BMC_CONST.IPMI_HAS_BMC_BOOT_COMPLETED)
##
# @brief This command is used to get the State of below Supported LED.
# LED Number Table:
# Fault RollUP LED 0x00
# Power ON LED 0x01
# Host Status LED 0x02
# Chassis Identify LED 0x03
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_get_led_state_cmd(self):
print "OOB IPMI: Get state of various LED's"
print "LED: Fault RollUP LED 0x00"
self.run_ipmi_cmd(BMC_CONST.IPMI_GET_LED_STATE_FAULT_ROLLUP)
print "LED: Power ON LED 0x01"
self.run_ipmi_cmd(BMC_CONST.IPMI_GET_LED_STATE_POWER_ON)
print "LED: Host Status LED 0x02"
self.run_ipmi_cmd(BMC_CONST.IPMI_GET_LED_STATE_HOST_STATUS)
print "LED: Chassis Identify LED 0x03"
self.run_ipmi_cmd(BMC_CONST.IPMI_GET_LED_STATE_CHASSIS_IDENTIFY)
##
# @brief This function is used to test set LED state feature.
# LED Number Table:
# Fault RollUP LED 0x00
# Power ON LED 0x01
# Host Status LED 0x02
# Chassis Identify LED 0x03
# LED State Table:
# LED State to be set.
# 0x0 LED OFF
# 0x1 LED ON
# 0x2 LED Standby Blink Rate
# 0x3 LED Slow Blink rate.
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_set_led_state_cmd(self):
print "OOB IPMI: Set LED state of various LED's"
self.cv_IPMI.ipmi_set_led_state("0x00", "0x0")
self.cv_IPMI.ipmi_get_fault_led_state()
self.cv_IPMI.ipmi_set_led_state("0x00", "0x1")
self.cv_IPMI.ipmi_get_fault_led_state()
self.cv_IPMI.ipmi_set_led_state("0x00", "0x2")
self.cv_IPMI.ipmi_get_fault_led_state()
self.cv_IPMI.ipmi_set_led_state("0x00", "0x3")
self.cv_IPMI.ipmi_get_fault_led_state()
self.cv_IPMI.ipmi_set_led_state("0x01", "0x0")
self.cv_IPMI.ipmi_get_power_on_led_state()
self.cv_IPMI.ipmi_set_led_state("0x01", "0x1")
self.cv_IPMI.ipmi_get_power_on_led_state()
self.cv_IPMI.ipmi_set_led_state("0x01", "0x2")
self.cv_IPMI.ipmi_get_power_on_led_state()
self.cv_IPMI.ipmi_set_led_state("0x01", "0x3")
self.cv_IPMI.ipmi_get_power_on_led_state()
##
# @brief Step 1: Stop Fan Control Thread:
# ipmitool -I lanplus -U admin -P admin -H <BMC IP> raw 0x3a 0x12 0x00
# Step 2: Fan Control STOPPED OEM SEL created
# ipmitool -I lanplus -U admin -P admin -H <BMC IP> sel list |grep OEM
# 7b | 04/20/2015 | 03:03:14 | OEM record c0 | 000000 | 3a1100ffffff
# Step 3: #Run IsFanRunning OEM Command
# ipmitool -I lanplus -U admin -P admin -H <BMC IP> raw 0x3a 0x13
# 00
#
# @return return BMC_CONST.FW_SUCCESS or raise OpTestError
#
@staticmethod
def test_fan_control_algorithm_1(self):
print "OOB IPMI: Testing Fan control disable functionality"
self.cv_IPMI.ipmi_enable_fan_control_task_command()
self.cv_IPMI.ipmi_sdr_clear()
l_state = self.cv_IPMI.ipmi_get_fan_control_task_state_command()
if str(BMC_CONST.IPMI_FAN_CONTROL_THREAD_RUNNING) in l_state:
self.cv_IPMI.ipmi_disable_fan_control_task_command()
l_state = self.cv_IPMI.ipmi_get_fan_control_task_state_command()
if str(BMC_CONST.IPMI_FAN_CONTROL_THREAD_NOT_RUNNING) in l_state:
l_output = self.cv_IPMI.ipmi_get_sel_list()
print l_output
if "OEM" in l_output:
print "IPMI: Disabling of fan control creates an OEM SEL event"
return BMC_CONST.FW_SUCCESS
else:
l_msg = "IPMI: Disabling of fan control doesn't create an OEM SEL event"
raise OpTestError(l_msg)
else:
l_msg = "IPMI: Fan control thread still running, disable failed"
raise OpTestError(l_msg)
else:
l_msg = "IPMI: Fan control thread still in not running state, enable failed"
raise OpTestError(l_msg)
##
# @brief Step 1: Start Fan Control Thread:
# ipmitool -I lanplus -U admin -P admin -H <BMC IP> raw 0x3a 0x12 0x01
# Step 2: Fan Control STOPPED OEM SEL created
# ipmitool -I lanplus -U admin -P admin -H <BMC IP> sel list |grep OEM
# 7b | 04/20/2015 | 03:03:14 | OEM record c0 | 000000 | 3a1100ffffff
# Step 3: #Run IsFanRunning OEM Command
# ipmitool -I lanplus -U admin -P admin -H <BMC IP> raw 0x3a 0x13
# 01
#
# @return return BMC_CONST.FW_SUCCESS or raise OpTestError
#
@staticmethod
def test_fan_control_algorithm_2(self):
print "OOB IPMI: Testing Fan control enable functionality"
self.cv_IPMI.ipmi_disable_fan_control_task_command()
self.cv_IPMI.ipmi_sdr_clear()
l_state = self.cv_IPMI.ipmi_get_fan_control_task_state_command()
if l_state == str(BMC_CONST.IPMI_FAN_CONTROL_THREAD_NOT_RUNNING):
self.cv_IPMI.ipmi_enable_fan_control_task_command()
l_state = self.cv_IPMI.ipmi_get_fan_control_task_state_command()
if l_state == str(BMC_CONST.IPMI_FAN_CONTROL_THREAD_RUNNING):
l_output = self.cv_IPMI.ipmi_get_sel_list()
print l_output
if "OEM" in l_output:
print "IPMI: Enabling of fan control creates an OEM SEL event"
return BMC_CONST.FW_SUCCESS
else:
l_msg = "IPMI: Enabling of fan control doesn't create an OEM SEL event"
raise OpTestError(l_msg)
else:
l_msg = "IPMI: Fan control thread still in not running state, enable failed"
raise OpTestError(l_msg)
else:
l_msg = "IPMI: Fan control thread still running, disable failed"
raise OpTestError(l_msg)
##
# @brief It will check basic channel functionalities: info and authentication capabilities.
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_channel(self):
print "OOB IPMI: Channel Tests"
self.run_ipmi_cmd(BMC_CONST.IPMI_CHANNEL_AUTHCAP)
self.run_ipmi_cmd(BMC_CONST.IPMI_CHANNEL_INFO)
##
# @brief It will execute and test the return code of ipmi command.
#
# @param i_cmd @type string:The ipmitool command, for example: chassis power on; echo $?
#
# @return l_res @type list: output of command or raise OpTestError
#
def run_ipmi_cmd(self, i_cmd):
l_cmd = i_cmd
l_res = self.cv_IPMI.ipmitool_execute_command(l_cmd)
print l_res
l_res = l_res.splitlines()
if int(l_res[-1]):
l_msg = "IPMI: command failed %c" % l_cmd
raise OpTestError(l_msg)
return l_res
##
# @brief It will execute and test the ipmi chassis <cmd> commands
# cmd: status, poh, restart_cause, policy list and policy set
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_chassis(self):
print "OOB IPMI: Chassis tests"
self.run_ipmi_cmd(BMC_CONST.IPMI_CHASSIS_STATUS)
self.run_ipmi_cmd(BMC_CONST.IPMI_CHASSIS_POH)
self.run_ipmi_cmd(BMC_CONST.IPMI_CHASSIS_RESTART_CAUSE)
self.run_ipmi_cmd(BMC_CONST.IPMI_CHASSIS_POLICY_LIST)
self.run_ipmi_cmd(BMC_CONST.IPMI_CHASSIS_POLICY_ALWAYS_OFF)
##
# @brief It will execute and test the ipmi chassis identify commands
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_chassisIdentifytests(self):
print "OOB IPMI: chassis identify tests"
self.run_ipmi_cmd(BMC_CONST.IPMI_CHASSIS_IDENTIFY)
self.run_ipmi_cmd(BMC_CONST.IPMI_CHASSIS_IDENTIFY_5)
self.run_ipmi_cmd(BMC_CONST.IPMI_CHASSIS_IDENTIFY)
self.run_ipmi_cmd(BMC_CONST.IPMI_CHASSIS_IDENTIFY_FORCE)
self.run_ipmi_cmd(BMC_CONST.IPMI_CHASSIS_IDENTIFY)
##
# @brief It will execute and test the functionality of ipmi chassis bootdev <dev>
# dev: none,pxe,cdrom,disk,bios,safe,diag,floppy and none.
#
# @return BMC_CONST.FW_SUCCESS on success or raise OpTestError
#
@staticmethod
def test_chassisBootdev(self):
print "OOB IPMI: chassis bootdevice tests"
self.run_ipmi_cmd(BMC_CONST.IPMI_CHASSIS_BOOTDEV_NONE)
self.verify_bootdev("none")
self.run_ipmi_cmd(BMC_CONST.IPMI_CHASSIS_BOOTDEV_PXE)
self.verify_bootdev("pxe")
self.run_ipmi_cmd(BMC_CONST.IPMI_CHASSIS_BOOTDEV_CDROM)
self.verify_bootdev("cdrom")
self.run_ipmi_cmd(BMC_CONST.IPMI_CHASSIS_BOOTDEV_DISK)
self.verify_bootdev("disk")
self.run_ipmi_cmd(BMC_CONST.IPMI_CHASSIS_BOOTDEV_BIOS)
self.verify_bootdev("bios")
self.run_ipmi_cmd(BMC_CONST.IPMI_CHASSIS_BOOTDEV_SAFE)
self.verify_bootdev("safe")
self.run_ipmi_cmd(BMC_CONST.IPMI_CHASSIS_BOOTDEV_DIAG)
self.verify_bootdev("diag")
self.run_ipmi_cmd(BMC_CONST.IPMI_CHASSIS_BOOTDEV_FLOPPY)
self.verify_bootdev("floppy")
self.run_ipmi_cmd(BMC_CONST.IPMI_CHASSIS_BOOTDEV_NONE)
self.verify_bootdev("none")
##
# @brief It will verify whether setting of given bootdevice is honoured or not
# by reading chassis bootparam get 5
#
# @param i_dev @type string: boot device name: Ex safe, disk and cdrom
#
# @return BMC_CONST.FW_SUCCESS on success or raise OpTestError
#
def verify_bootdev(self, i_dev):
l_res = self.run_ipmi_cmd(BMC_CONST.IPMI_CHASSIS_BOOTPARAM_GET_5)
if i_dev == "safe":
l_msg = "Force Boot from default Hard-Drive, request Safe-Mode"
elif i_dev == "disk":
l_msg = "Force Boot from default Hard-Drive"
elif i_dev == "diag":
l_msg = "Force Boot from Diagnostic Partition"
elif i_dev == "bios":
l_msg = "Force Boot into BIOS Setup"
elif i_dev == "pxe":
l_msg = "Force PXE"
elif i_dev == "cdrom":
l_msg = "Force Boot from CD/DVD"
elif i_dev == "none":
l_msg = "No override"
elif i_dev == "floppy":
l_msg = "Force Boot from Floppy/primary removable media"
else:
print "pass proper bootdevice"
for l_line in l_res:
if l_line.__contains__(l_msg):
print "Verifying bootdev is successfull for %s" % i_dev
return BMC_CONST.FW_SUCCESS
else:
l_msg = "Boot device is not set to %s" % i_dev
raise OpTestError(l_msg)
##
# @brief It will execute and test the ipmi <sdr/sel/mc/channel> info related commands.
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_Info(self):
print "OOB IPMI: info tests"
self.run_ipmi_cmd(BMC_CONST.IPMI_CHANNEL_INFO)
self.run_ipmi_cmd(BMC_CONST.IPMI_MC_INFO)
self.run_ipmi_cmd(BMC_CONST.IPMI_SEL_INFO)
self.run_ipmi_cmd(BMC_CONST.IPMI_SDR_INFO)
##
# @brief It will execute and test the ipmi sdr list <all/fru/event/mcloc/compact/full/generic>
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_sdr_list_by_type(self):
self.run_ipmi_cmd(BMC_CONST.IPMI_SDR_LIST)
self.run_ipmi_cmd(BMC_CONST.IPMI_SDR_LIST_ALL)
self.run_ipmi_cmd(BMC_CONST.IPMI_SDR_LIST_FRU)
self.run_ipmi_cmd(BMC_CONST.IPMI_SDR_LIST_EVENT)
self.run_ipmi_cmd(BMC_CONST.IPMI_SDR_LIST_MCLOC)
self.run_ipmi_cmd(BMC_CONST.IPMI_SDR_LIST_COMPACT)
self.run_ipmi_cmd(BMC_CONST.IPMI_SDR_LIST_FULL)
self.run_ipmi_cmd(BMC_CONST.IPMI_SDR_LIST_GENERIC)
##
# @brief It will execute and test the ipmi sdr elist <all/fru/event/mcloc/compact/full/generic>
# commands
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_sdr_elist_by_type(self):
self.run_ipmi_cmd(BMC_CONST.IPMI_SDR_ELIST)
self.run_ipmi_cmd(BMC_CONST.IPMI_SDR_ELIST_ALL)
self.run_ipmi_cmd(BMC_CONST.IPMI_SDR_ELIST_FRU)
self.run_ipmi_cmd(BMC_CONST.IPMI_SDR_ELIST_EVENT)
self.run_ipmi_cmd(BMC_CONST.IPMI_SDR_ELIST_MCLOC)
self.run_ipmi_cmd(BMC_CONST.IPMI_SDR_ELIST_COMPACT)
self.run_ipmi_cmd(BMC_CONST.IPMI_SDR_ELIST_FULL)
self.run_ipmi_cmd(BMC_CONST.IPMI_SDR_ELIST_GENERIC)
##
# @brief It will execute and test the ipmi sdr type <Temp/fan/Powersupply> commands
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_sdr_type_list(self):
self.run_ipmi_cmd(BMC_CONST.IPMI_SDR_TYPE_LIST)
self.run_ipmi_cmd(BMC_CONST.IPMI_SDR_TYPE_TEMPERATURE)
self.run_ipmi_cmd(BMC_CONST.IPMI_SDR_TYPE_FAN)
self.run_ipmi_cmd(BMC_CONST.IPMI_SDR_TYPE_POWER_SUPPLY)
##
# @brief It will execute and test the ipmi sdr get <sensor-id> command
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_sdr_get_id(self):
l_cmd = BMC_CONST.IPMI_SDR_GET_WATCHDOG + "; echo $?"
self.run_ipmi_cmd(l_cmd)
##
# @brief It will execute and test the ipmi fru print command.
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_fru_print(self):
print "OOB IPMI: Fru tests"
self.run_ipmi_cmd(BMC_CONST.IPMI_FRU_PRINT)
##
# @brief It will execute and test the ipmi fru read command.
# then the output file is displayed by hexdump
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_fru_read(self):
self.run_ipmi_cmd(BMC_CONST.IPMI_FRU_READ)
l_res = commands.getstatusoutput("hexdump -C file_fru")
if int(l_res[0]) == 0:
print l_res[1]
else:
l_msg = "Failing to do hexdump for fru file"
print l_msg
raise OpTestError(l_msg)
##
# @brief It will execute and test the ipmi sensor list functionality
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_sensor_list(self):
print "OOB IPMI: Sensor tests"
self.run_ipmi_cmd(BMC_CONST.IPMI_SENSOR_LIST)
##
# @brief It will execute and test the ipmi sensor get <id> functionality
#
# @param i_sensor @type string:sensor id to retrieve the data
#
# @return l_res @type list: output of command or raise OpTestError
#
def test_sensor_byid(self, i_sensor):
l_cmd = "sensor get \"%s\"; echo $?" % i_sensor
self.run_ipmi_cmd(l_cmd)
##
# @brief It will execute and test the management controller(mc) commands functionality
# info-Displays information about the BMC hardware, including device revision,
# firmware revision, IPMI version supported, manufacturer ID, and information
# on additional device support
# watchdog get-Show current Watchdog Timer settings and countdown state.
# watchdog off-Turn off a currently running Watchdog countdown timer.
# watchdog reset-Reset the Watchdog Timer to its most recent state and restart the countdown timer.
# selftest- Check on the basic health of the BMC by executing the
# Get Self Test results command and report the results.
# setenables-Enables or disables the given option
# getenables-Displays a list of the currently enabled options for the BMC.
# getsysinfo-Retrieves system info from bmc for given argument
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_mc(self):
print "OOB IPMI: MC tests"
self.run_ipmi_cmd(BMC_CONST.IPMI_MC_INFO)
self.run_ipmi_cmd(BMC_CONST.IPMI_MC_WATCHDOG_GET)
self.run_ipmi_cmd(BMC_CONST.IPMI_MC_SELFTEST)
self.run_ipmi_cmd(BMC_CONST.IPMI_MC_SELFTEST)
self.run_ipmi_cmd(BMC_CONST.IPMI_MC_SETENABLES_OEM_0_OFF)
self.run_ipmi_cmd(BMC_CONST.IPMI_MC_GETENABLES)
self.run_ipmi_cmd(BMC_CONST.IPMI_MC_SETENABLES_OEM_0_ON)
self.run_ipmi_cmd(BMC_CONST.IPMI_MC_GETENABLES)
self.run_ipmi_cmd(BMC_CONST.IPMI_MC_WATCHDOG_OFF)
self.run_ipmi_cmd(BMC_CONST.IPMI_MC_WATCHDOG_RESET)
self.run_ipmi_cmd(BMC_CONST.IPMI_MC_GETSYS_INFO)
##
# @brief It will execute and test the ipmi sel info functionality
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_sel_info(self):
print "OOB IPMI: SEL tests"
self.run_ipmi_cmd(BMC_CONST.IPMI_SEL_INFO)
##
# @brief It will execute and test ipmi sel list functionality.
# the entire contents of the System Event Log are displayed.
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_sel_list(self):
self.run_ipmi_cmd(BMC_CONST.IPMI_SEL_LIST)
##
# @brief It will execute and test the ipmi sel elist functionality
# If invoked as elist (extended list) it will also use the
# Sensor Data Record entries to display the sensor ID for
# the sensor that caused each event.
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_sel_elist(self):
self.run_ipmi_cmd(BMC_CONST.IPMI_SEL_ELIST)
##
# @brief It will execute and test the ipmi sel time get functionality
# Displays the SEL clock's current time.
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_sel_time_get(self):
l_res = self.run_ipmi_cmd(BMC_CONST.IPMI_SEL_TIME_GET)
return l_res
##
# @brief It will execute and test the ipmi sel set <time string> functionality
# Sets the SEL clock. Future SEL entries will use the time set by this command.
#
# @param i_time @type string: the value to be set as a sel time
# <time string> is of the form "MM/DD/YYYY HH:MM:SS"
#
# @return l_res @type list: output of command or raise OpTestError
#
def test_sel_time_set(self, i_time):
l_cmd = "sel time set \'%s\'; echo $?" % i_time
self.run_ipmi_cmd(l_cmd)
##
# @brief It will execute and test the ipmi sel list first <n entries>
#
# @param i_num @type string:The num of entries of sel to be listed
#
# @return l_res @type list: output of command or raise OpTestError
#
def test_sel_list_first_n_entries(self, i_num):
l_cmd = "sel list first %i; echo $?" % int(i_num)
self.run_ipmi_cmd(l_cmd)
##
# @brief It will execute and test the ipmi sel list last <n entries>
#
# @param i_num @type string:The num of entries of sel to be listed
#
# @return l_res @type list: output of command or raise OpTestError
#
def test_sel_list_last_n_entries(self, i_num):
l_cmd = "sel list last %i; echo $?" % int(i_num)
self.run_ipmi_cmd(l_cmd)
##
# @brief It will execute and test the ipmi sel get <id> functionality
#
# @param i_sel_id @type string: for example 0x05, 0x06..
#
# @return l_res @type list: output of command or raise OpTestError
#
def test_sel_get_byid(self, i_sel_id):
l_cmd = "sel get %s; echo $?" % i_sel_id
self.run_ipmi_cmd(l_cmd)
##
# @brief It will execute and test the ipmi sel clear functionality
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_sel_clear(self):
self.run_ipmi_cmd(BMC_CONST.IPMI_SEL_CLEAR)
##
# @brief It will execute and test the ipmi sel get <id> functionality
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
@staticmethod
def test_sel_get_functionality(self):
l_res = self.cv_IPMI.ipmitool_execute_command(
"sel list first 3 | awk '{print $1}'; echo $?")
l_list = l_res.splitlines()
if int(l_list[-1]) == 0:
if l_res.__contains__("SEL has no entries"):
print "There are No sel entries to fetch"
pass
else:
del l_list[-1]
for l in l_list:
l_id = "0x" + l
self.test_sel_get_byid(l_id)
return BMC_CONST.FW_SUCCESS
else:
l_msg = "Not able to get sel entries"
print l_msg
raise OpTestError(l_msg)
##
# @brief It will execute and test the ipmi sel clear functionality
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
@staticmethod
def test_sel_clear_functionality(self):
self.test_sel_clear(self)
l_res = self.cv_HOST.host_run_command("ipmitool sel list; echo $?")
l_list = l_res.splitlines()
for l_line in l_list:
if l_line.__contains__("SEL has no entries"):
print "Sel clear function got cleared event entries"
return BMC_CONST.FW_SUCCESS
else:
l_msg = "OOB IPMI: sel clear function failing in clearing entries"
print l_msg
print l_res
raise OpTestError(l_msg)
##
# @brief It will execute and test the dcmi related ipmi commands.
# discover-This command is used to discover supported capabilities in DCMI
# Power reading-Get power related readings from the system.
# get_limit-Get the configured power limits.
# sensors-Prints the available DCMI sensors.
# get_mc_id_string-Get management controller identifier string
# get_temp_reading-Get Temperature Sensor Readings.
# get_conf_param-Get DCMI Configuration Parameters.
# oob_discover-Ping/Pong Message for DCMI Discovery
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_dcmi(self):
print "OOB IPMI: dcmi tests"
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_DISCOVER)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_POWER_READING)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_POWER_GET_LIMIT)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_SENSORS)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_GET_MC_ID_STRING)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_GET_TEMP_READING)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_GET_CONF_PARAM)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_OOB_DISCOVER)
##
# @brief It will execute and test the functionality of ipmi echo command.
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_echo(self):
print "OOB IPMI: echo tests"
self.run_ipmi_cmd(BMC_CONST.IPMI_ECHO_DONE)
##
# @brief It will execute and test event related commands to test sel functionality.
# Send a pre-defined test event to the System Event Log. The following
# events are included as a means to test the functionality of the System
# Event Log component of the BMC (an entry will be added each time the
# event N command is executed)
# Currently supported values for N are:
# 1 Temperature: Upper Critical: Going High
# 2 Voltage Threshold: Lower Critical: Going Low
# 3 Memory: Correctable ECC
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_event(self):
print "OOB IPMI: event tests"
self.run_ipmi_cmd(BMC_CONST.IPMI_EVENT_1)
self.run_ipmi_cmd(BMC_CONST.IPMI_EVENT_2)
self.run_ipmi_cmd(BMC_CONST.IPMI_EVENT_3)
##
# @brief It will execute and test ipmi exec command.
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_exec(self):
print "OOB IPMI: exec tests"
pass
# TODO: need to execute ipmi commands from a file
##
# @brief It will execute and test firmware firewall info command.
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_firewall(self):
print "OOB IPMI: Firewall test"
self.run_ipmi_cmd(BMC_CONST.IPMI_FIREWALL_INFO)
##
# @brief It will execute and test pef related commands:
# info:This command will query the BMC and print information about the PEF supported features.
# status: This command prints the current PEF status
# policy: This command lists the PEF policy table entries
# list: This command lists the PEF table entries.
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_pef(self):
print "OOB IPMI: Pef tests"
self.run_ipmi_cmd(BMC_CONST.IPMI_PEF_INFO)
self.run_ipmi_cmd(BMC_CONST.IPMI_PEF_STATUS)
self.run_ipmi_cmd(BMC_CONST.IPMI_PEF_POLICY)
self.run_ipmi_cmd(BMC_CONST.IPMI_PEF_LIST)
##
# @brief This will test raw IPMI commands. For example to query the POH counter with a raw command
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_raw(self):
print "OOB IPMI: raw command execution tests"
self.run_ipmi_cmd(BMC_CONST.IPMI_RAW_POH)
##
# @brief It will execute and test the ipmi sensor get "Host Status" functionality
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_sensor_get_host_status(self):
self.test_sensor_byid(BMC_CONST.SENSOR_HOST_STATUS)
##
# @brief It will execute and test the ipmi sensor get "OS Boot" functionality
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_sensor_get_os_boot(self):
self.test_sensor_byid(BMC_CONST.SENSOR_OS_BOOT)
##
# @brief It will execute and test the ipmi sensor get "OCC Active" functionality
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_sensor_get_occ_active(self):
self.test_sensor_byid(BMC_CONST.SENSOR_OCC_ACTIVE)
##
# @brief It will execute and test the ipmi sel set <time string> functionality
# Sets the SEL clock. Future SEL entries will use the time set by this command.
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_set_sel_time(self):
l_res = self.test_sel_time_get(self)
self.test_sel_time_set(l_res[0])
##
# @brief It will execute and test the ipmi sel list first <3 entries>
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_sel_list_first_3_entries(self):
self.test_sel_list_first_n_entries(BMC_CONST.IPMI_SEL_LIST_ENTRIES)
##
# @brief It will execute and test the ipmi sel list last <3 entries>
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_sel_list_last_3_entries(self):
self.test_sel_list_last_n_entries(BMC_CONST.IPMI_SEL_LIST_ENTRIES)
class OpTestSwitchEndianSyscall():
## Initialize this object
# @param i_bmcIP The IP address of the BMC
# @param i_bmcUser The userid to log into the BMC with
# @param i_bmcPasswd The password of the userid to log into the BMC with
# @param i_bmcUserIpmi The userid to issue the BMC IPMI commands with
# @param i_bmcPasswdIpmi The password of BMC IPMI userid
# @param i_ffdcDir Optional param to indicate where to write FFDC
#
# "Only required for inband tests" else Default = None
# @param i_hostIP The IP address of the HOST
# @param i_hostuser The userid to log into the HOST
# @param i_hostPasswd The password of the userid to log into the HOST with
#
def __init__(self, i_bmcIP, i_bmcUser, i_bmcPasswd,
i_bmcUserIpmi, i_bmcPasswdIpmi, i_ffdcDir=None, i_hostip=None,
i_hostuser=None, i_hostPasswd=None):
self.cv_BMC = OpTestBMC(i_bmcIP, i_bmcUser, i_bmcPasswd, i_ffdcDir)
self.cv_IPMI = OpTestIPMI(i_bmcIP, i_bmcUserIpmi, i_bmcPasswdIpmi,
i_ffdcDir)
self.cv_HOST = OpTestHost(i_hostip, i_hostuser, i_hostPasswd,i_bmcIP)
self.cv_SYSTEM = OpTestSystem(i_bmcIP, i_bmcUser, i_bmcPasswd,
i_bmcUserIpmi, i_bmcPasswdIpmi, i_ffdcDir, i_hostip,
i_hostuser, i_hostPasswd)
self.util = OpTestUtil()
##
# @brief If git and gcc commands are availble on host, this function will clone linux
# git repository and check for switch_endian_test directory and make
# the required files. And finally execute bin file switch_endian_test.
#
# @return BMC_CONST.FW_SUCCESS-success or BMC_CONST.FW_FAILED-fail
#
def testSwitchEndianSysCall(self):
self.cv_SYSTEM.sys_bmc_power_on_validate_host()
# Get OS level
self.cv_HOST.host_get_OS_Level()
# Check whether git and gcc commands are available on host
self.cv_HOST.host_check_command("git", "gcc")
# Clone latest linux git repository into l_dir
l_dir = "/tmp/linux"
self.cv_HOST.host_clone_linux_source(l_dir)
# Check for switch_endian test directory.
self.check_dir_exists(l_dir)
# make the required files
self.make_test(l_dir)
# Run the switch_endian sys call test once
l_rc = self.run_once(l_dir)
if int(l_rc) == 1:
print "Switch endian sys call test got succesful"
return BMC_CONST.FW_SUCCESS
else:
print "Switch endian sys call test failed"
return BMC_CONST.FW_FAILED
##
# @brief It will check for existence of switch_endian directory in the cloned repository
#
# @param i_dir @type string: linux source directory
#
# @return 1-success or raise OpTestError
#
def check_dir_exists(self, i_dir):
l_dir = '%s/tools/testing/selftests/powerpc/switch_endian' % i_dir
l_cmd = "test -d %s; echo $?" % l_dir
print l_cmd
l_res = self.cv_HOST.host_run_command(l_cmd)
print l_res
l_res = l_res.replace("\r\n", "")
if int(l_res) == 0:
print "Switch endian test directory exists"
return 1
else:
l_msg = "Switch endian directory is not present"
print l_msg
raise OpTestError(l_msg)
##
# @brief It will prepare for executable bin files using make command
# At the end it will check for bin file switch_endian_test and
# will throw an exception in case of missing bin file after make
#
# @param i_dir @type string: linux source directory
#
# @return 1-success or raise OpTestError
#
def make_test(self, i_dir):
l_cmd = "cd %s/tools/testing/selftests/powerpc/switch_endian;\
make;" % i_dir
print l_cmd
l_res = self.cv_HOST.host_run_command(l_cmd)
l_cmd = "test -f %s/tools/testing/selftests/powerpc/switch_endian/switch_endian_test; echo $?" % i_dir
l_res = self.cv_HOST.host_run_command(l_cmd)
l_res = l_res.replace("\r\n", "")
if int(l_res) == 0:
print "Executable binary switch_endian_test is available"
return 1
else:
l_msg = "Switch_endian_test bin file is not present after make"
print l_msg
raise OpTestError(l_msg)
##
# @brief This function will run executable file switch_endian_test and
# check for switch_endian() sys call functionality
#
# @param i_dir @type string: linux source directory
#
# @return 1-success ; 0-fail
#
def run_once(self, i_dir):
l_cmd = "cd %s/tools/testing/selftests/powerpc/switch_endian/;\
./switch_endian_test" % i_dir
print l_cmd
l_res = self.cv_HOST.host_run_command(l_cmd)
if (l_res.__contains__('success: switch_endian_test')):
return 1
else:
return 0
class OpTestSensors():
## Initialize this object
# @param i_bmcIP The IP address of the BMC
# @param i_bmcUser The userid to log into the BMC with
# @param i_bmcPasswd The password of the userid to log into the BMC with
# @param i_bmcUserIpmi The userid to issue the BMC IPMI commands with
# @param i_bmcPasswdIpmi The password of BMC IPMI userid
# @param i_ffdcDir Optional param to indicate where to write FFDC
#
# "Only required for inband tests" else Default = None
# @param i_hostIP The IP address of the HOST
# @param i_hostuser The userid to log into the HOST
# @param i_hostPasswd The password of the userid to log into the HOST with
#
def __init__(self, i_bmcIP, i_bmcUser, i_bmcPasswd,
i_bmcUserIpmi, i_bmcPasswdIpmi, i_ffdcDir=None, i_hostip=None,
i_hostuser=None, i_hostPasswd=None):
self.cv_BMC = OpTestBMC(i_bmcIP, i_bmcUser, i_bmcPasswd, i_ffdcDir)
self.cv_IPMI = OpTestIPMI(i_bmcIP, i_bmcUserIpmi, i_bmcPasswdIpmi,
i_ffdcDir)
self.cv_HOST = OpTestHost(i_hostip, i_hostuser, i_hostPasswd,i_bmcIP)
self.cv_SYSTEM = OpTestSystem(i_bmcIP, i_bmcUser, i_bmcPasswd,
i_bmcUserIpmi, i_bmcPasswdIpmi, i_ffdcDir, i_hostip,
i_hostuser, i_hostPasswd)
self.util = OpTestUtil()
##
# @brief This function will cover following test steps
# 1. It will check for kernel config option CONFIG_SENSORS_IBMPOWERNV
# 2. It will load ibmpowernv driver only on powernv platform
# 3. It will check for sensors command existence and lm_sensors package
# 4. start the lm_sensors service and detect any sensor chips
# using sensors-detect.
# 5. At the end it will test sensors command functionality
# with different options
#
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
def test_hwmon_driver(self):
self.cv_SYSTEM.sys_bmc_power_on_validate_host()
# Get OS level
l_oslevel = self.cv_HOST.host_get_OS_Level()
# Get kernel version
l_kernel = self.cv_HOST.host_get_kernel_version()
# Checking for sensors config option CONFIG_SENSORS_IBMPOWERNV
l_config = "CONFIG_SENSORS_IBMPOWERNV"
l_val = self.cv_HOST.host_check_config(l_kernel, l_config)
if l_val == "y":
print "Driver build into kernel itself"
else:
print "Driver will be built as module"
# Loading ibmpowernv driver only on powernv platform
self.cv_HOST.host_load_ibmpowernv(l_oslevel)
# Checking for sensors command and lm_sensors package
self.cv_HOST.host_check_command("sensors")
l_pkg = self.cv_HOST.host_check_pkg_for_utility(l_oslevel, "sensors")
print "Installed package: %s" % l_pkg
# Restart the lm_sensor service
self.cv_HOST.host_start_lm_sensor_svc(l_oslevel)
# To detect different sensor chips and modules
res = self.cv_HOST.host_run_command("yes | sensors-detect")
print res
# Checking sensors command functionality with different options
output = self.cv_HOST.host_run_command("sensors; echo $?")
response = output.splitlines()
if int(response[-1]):
l_msg = "sensors not working,exiting...."
raise OpTestError(l_msg)
print output
output = self.cv_HOST.host_run_command("sensors -f; echo $?")
response = output.splitlines()
if int(response[-1]):
l_msg = "sensors -f not working,exiting...."
raise OpTestError(l_msg)
print output
output = self.cv_HOST.host_run_command("sensors -A; echo $?")
response = output.splitlines()
if int(response[-1]):
l_msg = "sensors -A not working,exiting...."
raise OpTestError(l_msg)
print output
output = self.cv_HOST.host_run_command("sensors -u; echo $?")
response = output.splitlines()
if int(response[-1]):
l_msg = "sensors -u not working,exiting...."
raise OpTestError(l_msg)
print output
return BMC_CONST.FW_SUCCESS
class OpTestMCColdResetEffects():
## Initialize this object
# @param i_bmcIP The IP address of the BMC
# @param i_bmcUser The userid to log into the BMC with
# @param i_bmcPasswd The password of the userid to log into the BMC with
# @param i_bmcUserIpmi The userid to issue the BMC IPMI commands with
# @param i_bmcPasswdIpmi The password of BMC IPMI userid
# @param i_ffdcDir Optional param to indicate where to write FFDC
#
# "Only required for inband tests" else Default = None
# @param i_hostIP The IP address of the HOST
# @param i_hostuser The userid to log into the HOST
# @param i_hostPasswd The password of the userid to log into the HOST with
#
def __init__(self, i_bmcIP, i_bmcUser, i_bmcPasswd,
i_bmcUserIpmi, i_bmcPasswdIpmi, i_ffdcDir=None, i_hostip=None,
i_hostuser=None, i_hostPasswd=None):
self.cv_BMC = OpTestBMC(i_bmcIP, i_bmcUser, i_bmcPasswd, i_ffdcDir)
self.cv_IPMI = OpTestIPMI(i_bmcIP, i_bmcUserIpmi, i_bmcPasswdIpmi,
i_ffdcDir, i_hostip, i_hostuser, i_hostPasswd)
self.cv_HOST = OpTestHost(i_hostip, i_hostuser, i_hostPasswd, i_bmcIP, i_ffdcDir)
self.cv_SYSTEM = OpTestSystem(i_bmcIP, i_bmcUser, i_bmcPasswd,
i_bmcUserIpmi, i_bmcPasswdIpmi, i_ffdcDir, i_hostip,
i_hostuser, i_hostPasswd)
self.util = OpTestUtil()
self.opTestSensors = OpTestSensors(i_bmcIP, i_bmcUser, i_bmcPasswd,
i_bmcUserIpmi, i_bmcPasswdIpmi, i_ffdcDir, i_hostip,
i_hostuser, i_hostPasswd)
##
# @brief This function will test BMC Cold reset vs Host FW status
# 1. When system is in runtime issue BMC Cold reset.
# 2. Check Host FW services and drivers.
# 3. Run sensors command
# 4. Get list of chips
# 5. This is expected to fail.
# https://github.com/open-power/op-build/issues/482
# 6. Reboot the system at the end of test.
#
# @return BMC_CONST.FW_SUCCESS or BMC_CONST.FW_FAILED
#
def test_bmc_cold_reset_effects(self):
print "Test BMC Cold reset effects versus Host Firmware Status"
self.cv_SYSTEM.sys_bmc_power_on_validate_host()
print "Issue BMC Cold reset"
result = True
try:
self.cv_SYSTEM.sys_cold_reset_bmc()
l_dir = BMC_CONST.SKIBOOT_WORKING_DIR
self.cv_HOST.host_clone_skiboot_source(l_dir)
self.cv_HOST.host_compile_xscom_utilities(l_dir)
l_con = self.cv_SYSTEM.sys_get_ipmi_console()
self.cv_IPMI.ipmi_host_login(l_con)
self.cv_IPMI.ipmi_host_set_unique_prompt(l_con)
self.cv_IPMI.run_host_cmd_on_ipmi_console("uname -a")
self.cv_IPMI.run_host_cmd_on_ipmi_console("cd %s/external/xscom-utils/; ./getscom -l" % l_dir)
self.opTestSensors.test_hwmon_driver()
self.cv_SYSTEM.sys_ipmi_close_console(l_con)
except:
result = False
pass
print "Gathering the OPAL msg logs"
self.cv_HOST.host_gather_opal_msg_log()
self.cv_IPMI.ipmi_power_off()
self.cv_SYSTEM.sys_bmc_power_on_validate_host()
if result is False:
raise OpTestError("MC Cold reset vs Host FW Test failed")
class OpTestEnergyScale():
## Initialize this object
# @param i_bmcIP The IP address of the BMC
# @param i_bmcUser The userid to log into the BMC with
# @param i_bmcPasswd The password of the userid to log into the BMC with
# @param i_bmcUserIpmi The userid to issue the BMC IPMI commands with
# @param i_bmcPasswdIpmi The password of BMC IPMI userid
# @param i_ffdcDir Optional param to indicate where to write FFDC
#
# "Only required for inband tests" else Default = None
# @param i_hostIP The IP address of the HOST
# @param i_hostuser The userid to log into the HOST
# @param i_hostPasswd The password of the userid to log into the HOST with
#
def __init__(self,
i_bmcIP,
i_bmcUser,
i_bmcPasswd,
i_bmcUserIpmi,
i_bmcPasswdIpmi,
i_ffdcDir=None,
i_platName=None,
i_hostip=None,
i_hostuser=None,
i_hostPasswd=None):
self.cv_BMC = OpTestBMC(i_bmcIP, i_bmcUser, i_bmcPasswd, i_ffdcDir)
self.cv_IPMI = OpTestIPMI(i_bmcIP, i_bmcUserIpmi, i_bmcPasswdIpmi,
i_ffdcDir, i_hostip, i_hostuser,
i_hostPasswd)
self.cv_HOST = OpTestHost(i_hostip, i_hostuser, i_hostPasswd, i_bmcIP)
self.cv_SYSTEM = OpTestSystem(i_bmcIP, i_bmcUser, i_bmcPasswd,
i_bmcUserIpmi, i_bmcPasswdIpmi,
i_ffdcDir, i_hostip, i_hostuser,
i_hostPasswd)
self.cv_PLATFORM = i_platName
self.util = OpTestUtil()
##
# @brief This function will get and return platform power limits for supported machine
#
# @param i_platform type: str platform name to get the power limits
#
# @return l_power_limit_low lower platform power limit
# l_power_limit_high higher platform power limit
# or raise OpTestError if it is a new platform
#
def get_platform_power_limits(self, i_platform):
l_platform = i_platform
if BMC_CONST.HABANERO in l_platform:
l_power_limit_high = BMC_CONST.HABANERO_POWER_LIMIT_HIGH
l_power_limit_low = BMC_CONST.HABANERO_POWER_LIMIT_LOW
elif BMC_CONST.FIRESTONE in l_platform:
l_power_limit_high = BMC_CONST.FIRESTONE_POWER_LIMIT_HIGH
l_power_limit_low = BMC_CONST.FIRESTONE_POWER_LIMIT_LOW
elif BMC_CONST.GARRISON in l_platform:
l_power_limit_high = BMC_CONST.GARRISON_POWER_LIMIT_HIGH
l_power_limit_low = BMC_CONST.GARRISON_POWER_LIMIT_LOW
else:
l_msg = "New platform, add power limit support to this platform and retry"
raise OpTestError(l_msg)
return l_power_limit_low, l_power_limit_high
##
# @brief This function will test Energy scale features at standby state
# 1. Power OFF the system.
# 2. Validate below Energy scale features at standby state
# ipmitool dcmi power get_limit :Get the configured power limits.
# ipmitool dcmi power set_limit limit <value> :Power Limit Requested in Watts.
# ipmitool dcmi power activate :Activate the set power limit.
# ipmitool dcmi power deactivate :Deactivate the set power limit.
# 3. Once platform power limit activated execute below dcmi commands at standby state.
# ipmitool dcmi discover :This command is used to discover
# supported capabilities in DCMI.
# ipmitool dcmi power reading :Get power related readings from the system.
# ipmitool dcmi power get_limit :Get the configured power limits.
# ipmitool dcmi power sensors :Prints the available DCMI sensors.
# ipmitool dcmi get_temp_reading :Get Temperature Sensor Readings.
# 4. Power ON the system.
# 5. Check after system booted to runtime, whether occ's are active or not.
# 6. Again in runtime execute all dcmi commands to check the functionality.
#
# @return BMC_CONST.FW_SUCCESS or BMC_CONST.FW_FAILED
#
def test_energy_scale_at_standby_state(self):
self.cv_SYSTEM.sys_bmc_power_on_validate_host()
print "Energy Scale Test 1: Get, Set, activate and deactivate platform power limit at power off"
l_power_limit_low, l_power_limit_high = self.get_platform_power_limits(
self.cv_PLATFORM)
print "Performing a IPMI Power OFF Operation"
# Perform a IPMI Power OFF Operation(Immediate Shutdown)
self.cv_IPMI.ipmi_power_off()
if int(
self.cv_SYSTEM.sys_wait_for_standby_state(
BMC_CONST.SYSTEM_STANDBY_STATE_DELAY)) == 0:
print "System is in standby/Soft-off state"
else:
l_msg = "System failed to reach standby/Soft-off state"
raise OpTestError(l_msg)
self.cv_IPMI.ipmi_sdr_clear()
print self.cv_IPMI.ipmi_get_power_limit()
self.cv_IPMI.ipmi_set_power_limit(l_power_limit_high)
self.cv_IPMI.ipmi_activate_power_limit()
self.cv_IPMI.ipmi_deactivate_power_limit()
print self.cv_IPMI.ipmi_get_power_limit()
self.cv_IPMI.ipmi_activate_power_limit()
print self.cv_IPMI.ipmi_get_power_limit()
self.cv_IPMI.ipmi_deactivate_power_limit()
self.cv_IPMI.ipmi_set_power_limit(l_power_limit_low)
self.cv_IPMI.ipmi_activate_power_limit()
print self.cv_IPMI.ipmi_get_power_limit()
self.cv_IPMI.ipmi_set_power_limit(l_power_limit_high)
self.cv_IPMI.ipmi_get_power_limit()
print "Get All dcmi readings at power off"
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_DISCOVER)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_POWER_READING)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_POWER_GET_LIMIT)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_SENSORS)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_GET_MC_ID_STRING)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_GET_TEMP_READING)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_GET_CONF_PARAM)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_OOB_DISCOVER)
print "Performing a IPMI Power ON Operation"
# Perform a IPMI Power ON Operation
self.cv_IPMI.ipmi_power_on()
self.cv_SYSTEM.sys_check_host_status()
self.util.PingFunc(self.cv_HOST.ip, BMC_CONST.PING_RETRY_POWERCYCLE)
l_status = self.cv_IPMI.ipmi_get_occ_status()
print l_status
if BMC_CONST.OCC_DEVICE_ENABLED in l_status:
print "OCC's are up and active"
else:
l_msg = "OCC's are not in active state"
raise OpTestError(l_msg)
print self.cv_IPMI.ipmi_get_power_limit()
print "Get All dcmi readings at runtime"
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_DISCOVER)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_POWER_READING)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_POWER_GET_LIMIT)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_SENSORS)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_GET_MC_ID_STRING)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_GET_TEMP_READING)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_GET_CONF_PARAM)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_OOB_DISCOVER)
##
# @brief This function will test Energy scale features at standby state
# 1. Power OFF the system.
# 2. Power On the system to boot to host OS
# 2. Validate below Energy scale features at runtime state
# ipmitool dcmi power get_limit :Get the configured power limits.
# ipmitool dcmi power set_limit limit <value> :Power Limit Requested in Watts.
# ipmitool dcmi power activate :Activate the set power limit.
# ipmitool dcmi power deactivate :Deactivate the set power limit.
# 3. Once platform power limit activated execute below dcmi commands at runtime state.
# ipmitool dcmi discover :This command is used to discover
# supported capabilities in DCMI.
# ipmitool dcmi power reading :Get power related readings from the system.
# ipmitool dcmi power get_limit :Get the configured power limits.
# ipmitool dcmi power sensors :Prints the available DCMI sensors.
# ipmitool dcmi get_temp_reading :Get Temperature Sensor Readings.
# 4. Issue Power OFF/ON to check whether system boots after setting platform power limit at runtime.
# 5. Again in runtime execute all dcmi commands to check the functionality.
#
# @return BMC_CONST.FW_SUCCESS or BMC_CONST.FW_FAILED
#
def test_energy_scale_at_runtime_state(self):
self.cv_SYSTEM.sys_bmc_power_on_validate_host()
print "Energy Scale Test 2: Get, Set, activate and deactivate platform power limit at runtime"
l_power_limit_low, l_power_limit_high = self.get_platform_power_limits(
self.cv_PLATFORM)
print "Performing a IPMI Power OFF Operation"
# Perform a IPMI Power OFF Operation(Immediate Shutdown)
self.cv_IPMI.ipmi_power_off()
if int(
self.cv_SYSTEM.sys_wait_for_standby_state(
BMC_CONST.SYSTEM_STANDBY_STATE_DELAY)) == 0:
print "System is in standby/Soft-off state"
else:
l_msg = "System failed to reach standby/Soft-off state"
raise OpTestError(l_msg)
print "Get All dcmi readings at power off"
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_DISCOVER)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_POWER_READING)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_POWER_GET_LIMIT)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_SENSORS)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_GET_MC_ID_STRING)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_GET_TEMP_READING)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_GET_CONF_PARAM)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_OOB_DISCOVER)
self.cv_IPMI.ipmi_sdr_clear()
print self.cv_IPMI.ipmi_get_power_limit()
print "Performing a IPMI Power ON Operation"
# Perform a IPMI Power ON Operation
self.cv_IPMI.ipmi_power_on()
self.cv_SYSTEM.sys_check_host_status()
self.util.PingFunc(self.cv_HOST.ip, BMC_CONST.PING_RETRY_POWERCYCLE)
l_status = self.cv_IPMI.ipmi_get_occ_status()
print l_status
if BMC_CONST.OCC_DEVICE_ENABLED in l_status:
print "OCC's are up and active"
else:
l_msg = "OCC's are not in active state"
raise OpTestError(l_msg)
print self.cv_IPMI.ipmi_get_power_limit()
self.cv_IPMI.ipmi_set_power_limit(l_power_limit_high)
self.cv_IPMI.ipmi_activate_power_limit()
print self.cv_IPMI.ipmi_get_power_limit()
self.cv_IPMI.ipmi_deactivate_power_limit()
print self.cv_IPMI.ipmi_get_power_limit()
self.cv_IPMI.ipmi_activate_power_limit()
print self.cv_IPMI.ipmi_get_power_limit()
self.cv_IPMI.ipmi_set_power_limit(l_power_limit_low)
self.cv_IPMI.ipmi_activate_power_limit()
print self.cv_IPMI.ipmi_get_power_limit()
self.cv_IPMI.ipmi_deactivate_power_limit()
print self.cv_IPMI.ipmi_get_power_limit()
self.cv_IPMI.ipmi_activate_power_limit()
print self.cv_IPMI.ipmi_get_power_limit()
print "Get All dcmi readings at runtime"
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_DISCOVER)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_POWER_READING)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_POWER_GET_LIMIT)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_SENSORS)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_GET_MC_ID_STRING)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_GET_TEMP_READING)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_GET_CONF_PARAM)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_OOB_DISCOVER)
print "Performing a IPMI Power OFF Operation"
# Perform a IPMI Power OFF Operation(Immediate Shutdown)
self.cv_IPMI.ipmi_power_off()
if int(
self.cv_SYSTEM.sys_wait_for_standby_state(
BMC_CONST.SYSTEM_STANDBY_STATE_DELAY)) == 0:
print "System is in standby/Soft-off state"
else:
l_msg = "System failed to reach standby/Soft-off state"
raise OpTestError(l_msg)
print "Performing a IPMI Power ON Operation"
# Perform a IPMI Power ON Operation
self.cv_IPMI.ipmi_power_on()
self.cv_SYSTEM.sys_check_host_status()
self.util.PingFunc(self.cv_HOST.ip, BMC_CONST.PING_RETRY_POWERCYCLE)
l_status = self.cv_IPMI.ipmi_get_occ_status()
print l_status
if BMC_CONST.OCC_DEVICE_ENABLED in l_status:
print "OCC's are up and active"
else:
l_msg = "OCC's are not in active state"
raise OpTestError(l_msg)
print "Get All dcmi readings at runtime"
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_DISCOVER)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_POWER_READING)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_POWER_GET_LIMIT)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_SENSORS)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_GET_MC_ID_STRING)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_GET_TEMP_READING)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_GET_CONF_PARAM)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_OOB_DISCOVER)
##
# @brief This function will test below dcmi commands at both standby and runtime states
# ipmitool dcmi discover :This command is used to discover
# supported capabilities in DCMI.
# ipmitool dcmi power reading :Get power related readings from the system.
# ipmitool dcmi power get_limit :Get the configured power limits.
# ipmitool dcmi power sensors :Prints the available DCMI sensors.
# ipmitool dcmi get_temp_reading :Get Temperature Sensor Readings.
# ipmitool dcmi get_mc_id_string :Get management controller identifier string.
# ipmitool dcmi get_conf_param :Get DCMI Configuration Parameters.
# ipmitool dcmi oob_discover :Ping/Pong Message for DCMI Discovery.
#
# @return BMC_CONST.FW_SUCCESS or BMC_CONST.FW_FAILED
#
def test_dcmi_at_standby_and_runtime_states(self):
self.cv_SYSTEM.sys_bmc_power_on_validate_host()
print "Energy scale Test 3: Get Sensors, Temperature and Power reading's at power off and runtime"
print "Performing a IPMI Power OFF Operation"
# Perform a IPMI Power OFF Operation(Immediate Shutdown)
self.cv_IPMI.ipmi_power_off()
if int(
self.cv_SYSTEM.sys_wait_for_standby_state(
BMC_CONST.SYSTEM_STANDBY_STATE_DELAY)) == 0:
print "System is in standby/Soft-off state"
else:
l_msg = "System failed to reach standby/Soft-off state"
raise OpTestError(l_msg)
print "Get All dcmi readings at power off"
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_DISCOVER)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_POWER_READING)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_POWER_GET_LIMIT)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_SENSORS)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_GET_MC_ID_STRING)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_GET_TEMP_READING)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_GET_CONF_PARAM)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_OOB_DISCOVER)
print "Performing a IPMI Power ON Operation"
# Perform a IPMI Power ON Operation
self.cv_IPMI.ipmi_power_on()
self.cv_SYSTEM.sys_check_host_status()
self.util.PingFunc(self.cv_HOST.ip, BMC_CONST.PING_RETRY_POWERCYCLE)
l_status = self.cv_IPMI.ipmi_get_occ_status()
print l_status
if BMC_CONST.OCC_DEVICE_ENABLED in l_status:
print "OCC's are up and active"
else:
l_msg = "OCC's are not in active state"
raise OpTestError(l_msg)
print "Get All dcmi readings at runtime"
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_DISCOVER)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_POWER_READING)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_POWER_GET_LIMIT)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_SENSORS)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_GET_MC_ID_STRING)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_GET_TEMP_READING)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_GET_CONF_PARAM)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_OOB_DISCOVER)
##
# @brief It will execute and test the return code of ipmi command.
#
# @param i_cmd @type string:The ipmitool command, for example: chassis power on; echo $?
#
# @return l_res @type list: output of command or raise OpTestError
#
def run_ipmi_cmd(self, i_cmd):
l_cmd = i_cmd
l_res = self.cv_IPMI.ipmitool_execute_command(l_cmd)
print l_res
l_res = l_res.splitlines()
if int(l_res[-1]):
l_msg = "IPMI: command failed %c" % l_cmd
raise OpTestError(l_msg)
return l_res
class OpTestEM():
## Initialize this object
# @param i_bmcIP The IP address of the BMC
# @param i_bmcUser The userid to log into the BMC with
# @param i_bmcPasswd The password of the userid to log into the BMC with
# @param i_bmcUserIpmi The userid to issue the BMC IPMI commands with
# @param i_bmcPasswdIpmi The password of BMC IPMI userid
# @param i_ffdcDir Optional param to indicate where to write FFDC
#
# "Only required for inband tests" else Default = None
# @param i_hostIP The IP address of the HOST
# @param i_hostuser The userid to log into the HOST
# @param i_hostPasswd The password of the userid to log into the HOST with
#
def __init__(self, i_bmcIP, i_bmcUser, i_bmcPasswd,
i_bmcUserIpmi, i_bmcPasswdIpmi, i_ffdcDir=None, i_hostip=None,
i_hostuser=None, i_hostPasswd=None):
self.cv_BMC = OpTestBMC(i_bmcIP, i_bmcUser, i_bmcPasswd, i_ffdcDir)
self.cv_IPMI = OpTestIPMI(i_bmcIP, i_bmcUserIpmi, i_bmcPasswdIpmi,
i_ffdcDir)
self.cv_HOST = OpTestHost(i_hostip, i_hostuser, i_hostPasswd, i_bmcIP)
self.cv_SYSTEM = OpTestSystem(i_bmcIP, i_bmcUser, i_bmcPasswd,
i_bmcUserIpmi, i_bmcPasswdIpmi, i_ffdcDir, i_hostip,
i_hostuser, i_hostPasswd)
self.util = OpTestUtil()
##
# @brief This function will cover following test steps
# 1. It will get the OS and kernel versions.
# 2. Check the cpupower utility is available in host.
# 3. Get available cpu scaling frequencies
# 4. Set the userspace governer for all cpu's
# 5. test the cpufreq driver by set/verify cpu frequency
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
def test_cpu_freq_states(self):
self.cv_SYSTEM.sys_bmc_power_on_validate_host()
# Get OS level
l_oslevel = self.cv_HOST.host_get_OS_Level()
# Get kernel version
l_kernel = self.cv_HOST.host_get_kernel_version()
self.cv_HOST.host_check_command("cpupower")
# Get available cpu scaling frequencies
l_res = self.cv_HOST.host_run_command("cat /sys/devices/system/cpu/cpu0/cpufreq/scaling_available_frequencies")
freq_list = (l_res.strip()).split(' ')
print freq_list
# Set the cpu governer to userspace
self.set_cpu_gov("userspace")
self.verify_cpu_gov("userspace")
for i in range(1, 100):
i_freq = random.choice(freq_list)
self.set_cpu_freq(i_freq)
self.verify_cpu_freq(i_freq)
return BMC_CONST.FW_SUCCESS
##
# @brief This function will cover following test steps
# 1. It will get the OS and kernel versions.
# 2. Check the cpupower utility is available in host.
# 3. Set the userspace governer for all cpu's
# 4. test the cpuidle driver by enable/disable/verify the idle states
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
def test_cpu_idle_states(self):
self.cv_SYSTEM.sys_bmc_power_on_validate_host()
# Get OS level
l_oslevel = self.cv_HOST.host_get_OS_Level()
# Get kernel version
l_kernel = self.cv_HOST.host_get_kernel_version()
self.cv_HOST.host_check_command("cpupower")
# currently p8 cpu has 3 states
for i in (0, 1, 2):
self.enable_idle_state(i)
self.verify_enable_idle_state(i)
for i in (0, 1, 2):
self.disable_idle_state(i)
self.verify_disable_idle_state(i)
return BMC_CONST.FW_SUCCESS
##
# @brief sets the cpu frequency with i_freq value
#
# @param i_freq @type str: this is the frequency of cpu to be set
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
def set_cpu_freq(self, i_freq):
l_cmd = "for i in /sys/devices/system/cpu/cpu*/cpufreq/scaling_setspeed; do echo %s > $i; done" % i_freq
self.cv_HOST.host_run_command(l_cmd)
##
# @brief verify the cpu frequency with i_freq value
#
# @param i_freq @type str: this is the frequency to be verified with cpu frequency
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
def verify_cpu_freq(self, i_freq):
l_cmd = "cat /sys/devices/system/cpu/cpu0/cpufreq/cpuinfo_cur_freq"
cur_freq = self.cv_HOST.host_run_command(l_cmd)
if cur_freq.strip() == i_freq:
return BMC_CONST.FW_SUCCESS
else:
l_msg = "CPU frequency not changed to %s" % i_freq
raise OpTestError(l_msg)
##
# @brief sets the cpu governer with i_gov governer
#
# @param i_gov @type str: this is the governer to be set for all cpu's
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
def set_cpu_gov(self, i_gov):
l_cmd = "for i in /sys/devices/system/cpu/cpu*/cpufreq/scaling_governor; do echo %s > $i; done" % i_gov
self.cv_HOST.host_run_command(l_cmd)
##
# @brief verify the cpu governer with i_gov governer
#
# @param i_gov @type str: this is the governer to be verified with cpu governer
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
def verify_cpu_gov(self, i_gov):
l_cmd = "cat /sys/devices/system/cpu/cpu0/cpufreq/scaling_governor"
cur_gov = self.cv_HOST.host_run_command(l_cmd)
if cur_gov.strip() == i_gov:
return BMC_CONST.FW_SUCCESS
else:
l_msg = "CPU governor not changed to %s" % i_gov
raise OpTestError(l_msg)
##
# @brief enable cpu idle state i_idle
#
# @param i_idle @type str: this is the cpu idle state to be enabled
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
def enable_idle_state(self, i_idle):
l_cmd = "cpupower idle-set -e %s" % i_idle
self.cv_HOST.host_run_command(l_cmd)
##
# @brief disable cpu idle state i_idle
#
# @param i_idle @type str: this is the cpu idle state to be disabled
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
def disable_idle_state(self, i_idle):
l_cmd = "cpupower idle-set -d %s" % i_idle
self.cv_HOST.host_run_command(l_cmd)
##
# @brief verify whether cpu idle state i_idle enabled
#
# @param i_idle @type str: this is the cpu idle state to be verified for enable
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
def verify_enable_idle_state(self, i_idle):
l_cmd = "cat /sys/devices/system/cpu/cpu0/cpuidle/state%s/disable" % i_idle
cur_value = self.cv_HOST.host_run_command(l_cmd)
if cur_value.strip() == "0":
return BMC_CONST.FW_SUCCESS
else:
l_msg = "CPU state%s not enabled" % i_idle
raise OpTestError(l_msg)
##
# @brief verify whether cpu idle state i_idle disabled
#
# @param i_idle @type str: this is the cpu idle state to be verified for disable
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
def verify_disable_idle_state(self, i_idle):
l_cmd = "cat /sys/devices/system/cpu/cpu0/cpuidle/state%s/disable" % i_idle
cur_value = self.cv_HOST.host_run_command(l_cmd)
if cur_value.strip() == "1":
return BMC_CONST.FW_SUCCESS
else:
l_msg = "CPU state%s not disabled" % i_idle
raise OpTestError(l_msg)
class OpTestSensors():
## Initialize this object
# @param i_bmcIP The IP address of the BMC
# @param i_bmcUser The userid to log into the BMC with
# @param i_bmcPasswd The password of the userid to log into the BMC with
# @param i_bmcUserIpmi The userid to issue the BMC IPMI commands with
# @param i_bmcPasswdIpmi The password of BMC IPMI userid
# @param i_ffdcDir Optional param to indicate where to write FFDC
#
# "Only required for inband tests" else Default = None
# @param i_hostIP The IP address of the HOST
# @param i_hostuser The userid to log into the HOST
# @param i_hostPasswd The password of the userid to log into the HOST with
#
def __init__(self,
i_bmcIP,
i_bmcUser,
i_bmcPasswd,
i_bmcUserIpmi,
i_bmcPasswdIpmi,
i_ffdcDir=None,
i_hostip=None,
i_hostuser=None,
i_hostPasswd=None):
self.cv_BMC = OpTestBMC(i_bmcIP, i_bmcUser, i_bmcPasswd, i_ffdcDir)
self.cv_IPMI = OpTestIPMI(i_bmcIP, i_bmcUserIpmi, i_bmcPasswdIpmi,
i_ffdcDir)
self.cv_HOST = OpTestHost(i_hostip, i_hostuser, i_hostPasswd, i_bmcIP)
self.cv_SYSTEM = OpTestSystem(i_bmcIP, i_bmcUser, i_bmcPasswd,
i_bmcUserIpmi, i_bmcPasswdIpmi,
i_ffdcDir, i_hostip, i_hostuser,
i_hostPasswd)
self.util = OpTestUtil()
##
# @brief This function will cover following test steps
# 1. It will check for kernel config option CONFIG_SENSORS_IBMPOWERNV
# 2. It will load ibmpowernv driver only on powernv platform
# 3. It will check for sensors command existence and lm_sensors package
# 4. start the lm_sensors service and detect any sensor chips
# using sensors-detect.
# 5. At the end it will test sensors command functionality
# with different options
#
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
def test_hwmon_driver(self):
self.cv_SYSTEM.sys_bmc_power_on_validate_host()
# Get OS level
l_oslevel = self.cv_HOST.host_get_OS_Level()
# Get kernel version
l_kernel = self.cv_HOST.host_get_kernel_version()
# Checking for sensors config option CONFIG_SENSORS_IBMPOWERNV
l_config = "CONFIG_SENSORS_IBMPOWERNV"
l_val = self.cv_HOST.host_check_config(l_kernel, l_config)
if l_val == "y":
print "Driver build into kernel itself"
else:
print "Driver will be built as module"
# Loading ibmpowernv driver only on powernv platform
self.cv_HOST.host_load_ibmpowernv(l_oslevel)
# Checking for sensors command and lm_sensors package
self.cv_HOST.host_check_command("sensors")
l_pkg = self.cv_HOST.host_check_pkg_for_utility(l_oslevel, "sensors")
print "Installed package: %s" % l_pkg
# Restart the lm_sensor service
self.cv_HOST.host_start_lm_sensor_svc(l_oslevel)
# To detect different sensor chips and modules
res = self.cv_HOST.host_run_command("yes | sensors-detect")
print res
# Checking sensors command functionality with different options
output = self.cv_HOST.host_run_command("sensors; echo $?")
response = output.splitlines()
if int(response[-1]):
l_msg = "sensors not working,exiting...."
raise OpTestError(l_msg)
print output
output = self.cv_HOST.host_run_command("sensors -f; echo $?")
response = output.splitlines()
if int(response[-1]):
l_msg = "sensors -f not working,exiting...."
raise OpTestError(l_msg)
print output
output = self.cv_HOST.host_run_command("sensors -A; echo $?")
response = output.splitlines()
if int(response[-1]):
l_msg = "sensors -A not working,exiting...."
raise OpTestError(l_msg)
print output
output = self.cv_HOST.host_run_command("sensors -u; echo $?")
response = output.splitlines()
if int(response[-1]):
l_msg = "sensors -u not working,exiting...."
raise OpTestError(l_msg)
print output
return BMC_CONST.FW_SUCCESS
def _config_read():
""" returns bmc system and test config options """
bmcConfig = ConfigParser.RawConfigParser()
configFile = os.path.join(os.path.dirname(__file__), 'op_ci_tools.cfg')
bmcConfig.read(configFile)
return dict(bmcConfig.items('bmc')), dict(bmcConfig.items('test')), dict(
bmcConfig.items('host'))
''' Read the configuration settings into global space so they can be used by
other functions '''
bmcCfg, testCfg, hostCfg = _config_read()
opTestSys = OpTestSystem(bmcCfg['ip'], bmcCfg['username'], bmcCfg['password'],
bmcCfg.get('usernameipmi'),
bmcCfg.get('passwordipmi'), testCfg['ffdcdir'],
hostCfg['hostip'], hostCfg['hostuser'],
hostCfg['hostpasswd'])
def validate_host():
"""This function Validates the host and waits for host to connect
:returns: int -- 0: success, 1: error
"""
opTestSys.sys_bmc_validate_host()
return 0
def outofband_fw_update_hpm():
"""This function Update the BMC fw image using hpm file
def objs(self):
host = OpTestHost(self.args.host_ip,
self.args.host_user,
self.args.host_password,
self.args.bmc_ip)
if self.args.bmc_type in ['AMI']:
ipmi = OpTestIPMI(self.args.bmc_ip,
self.args.bmc_usernameipmi,
self.args.bmc_passwordipmi,
self.args.ffdcdir, host=host)
web = OpTestWeb(self.args.bmc_ip,
self.args.bmc_usernameipmi,
self.args.bmc_passwordipmi)
bmc = OpTestBMC(ip=self.args.bmc_ip,
username=self.args.bmc_username,
password=self.args.bmc_password,
ipmi=ipmi,
web=web,
)
self.op_system = OpTestSystem(
i_ffdcDir=self.args.ffdcdir,
state=self.startState,
bmc=bmc,
host=host,
)
elif self.args.bmc_type in ['FSP']:
ipmi = OpTestIPMI(self.args.bmc_ip,
self.args.bmc_usernameipmi,
self.args.bmc_passwordipmi,
self.args.ffdcdir, host=host)
bmc = OpTestFSP(self.args.bmc_ip,
self.args.bmc_username,
self.args.bmc_password,
ipmi=ipmi,
)
self.op_system = OpTestFSPSystem(
i_ffdcDir=self.args.ffdcdir,
state=self.startState,
bmc=bmc,
host=host,
)
elif self.args.bmc_type in ['OpenBMC']:
ipmi = OpTestIPMI(self.args.bmc_ip,
self.args.bmc_usernameipmi,
self.args.bmc_passwordipmi,
self.args.ffdcdir, host=host)
bmc = OpTestOpenBMC(self.args.bmc_ip,
self.args.bmc_username,
self.args.bmc_password,
ipmi=ipmi)
self.op_system = OpTestOpenBMCSystem(
host=host,
bmc=bmc,
state=self.startState,
)
elif self.args.bmc_type in ['qemu']:
print repr(self.args)
bmc = OpTestQemu(self.args.qemu_binary,
self.args.skiboot,
self.args.kernel,
self.args.initramfs)
self.op_system = OpTestQemuSystem(host=host, bmc=bmc)
else:
raise Exception("Unsupported BMC Type")
return
class OpTestOOBIPMI():
## Initialize this object
# @param i_bmcIP The IP address of the BMC
# @param i_bmcUser The userid to log into the BMC with
# @param i_bmcPasswd The password of the userid to log into the BMC with
# @param i_bmcUserIpmi The userid to issue the BMC IPMI commands with
# @param i_bmcPasswdIpmi The password of BMC IPMI userid
# @param i_ffdcDir Optional param to indicate where to write FFDC
#
# "Only required for inband tests" else Default = None
# @param i_hostIP The IP address of the HOST
# @param i_hostuser The userid to log into the HOST
# @param i_hostPasswd The password of the userid to log into the HOST with
#
def __init__(self, i_bmcIP, i_bmcUser, i_bmcPasswd,
i_bmcUserIpmi, i_bmcPasswdIpmi, i_ffdcDir=None, i_hostip=None,
i_hostuser=None, i_hostPasswd=None):
self.cv_BMC = OpTestBMC(i_bmcIP, i_bmcUser, i_bmcPasswd, i_ffdcDir)
self.cv_IPMI = OpTestIPMI(i_bmcIP, i_bmcUserIpmi, i_bmcPasswdIpmi,
i_ffdcDir)
self.cv_HOST = OpTestHost(i_hostip, i_hostuser, i_hostPasswd, i_bmcIP)
self.cv_SYSTEM = OpTestSystem(i_bmcIP, i_bmcUser, i_bmcPasswd,
i_bmcUserIpmi, i_bmcPasswdIpmi, i_ffdcDir, i_hostip,
i_hostuser, i_hostPasswd)
self.util = OpTestUtil()
##
# @brief It will execute and test all Out-of-band ipmi commands.
# bmc, channel, chassis, dcmi, echo, event, exec, firewall, fru, lan
# mc, pef, power, raw, sdr, sel, sensor, session, user
#
# @return l_res @type list: output of command or raise OpTestError
#
def test_oob_ipmi(self):
self.cv_SYSTEM.sys_bmc_power_on_validate_host()
# Get OS level
l_oslevel = self.cv_HOST.host_get_OS_Level()
# Get kernel version
l_kernel = self.cv_HOST.host_get_kernel_version()
# Checking for ipmitool command and lm_sensors package
self.cv_HOST.host_check_command("ipmitool")
l_pkg = self.cv_HOST.host_check_pkg_for_utility(l_oslevel, "ipmitool")
print "Installed package: %s" % l_pkg
# loading below ipmi modules based on config option
# ipmi_devintf, ipmi_powernv and ipmi_masghandler
self.cv_HOST.host_load_module_based_on_config(l_kernel, BMC_CONST.CONFIG_IPMI_DEVICE_INTERFACE,
BMC_CONST.IPMI_DEV_INTF)
self.cv_HOST.host_load_module_based_on_config(l_kernel, BMC_CONST.CONFIG_IPMI_POWERNV,
BMC_CONST.IPMI_POWERNV)
self.cv_HOST.host_load_module_based_on_config(l_kernel, BMC_CONST.CONFIG_IPMI_HANDLER,
BMC_CONST.IPMI_MSG_HANDLER)
test_cases = [self.test_chassis, self.test_chassisIdentifytests,
self.test_chassisBootdev, self.test_Info, self.test_sdr_list_by_type,
self.test_sdr_elist_by_type, self.test_sdr_type_list, self.test_sdr_get_id,
self.test_fru_print, self.test_fru_read, self.test_mc,
self.test_sensor_list, self.test_sensor_get_host_status,
self.test_sensor_get_os_boot, self.test_sel_info, self.test_sel_list,
self.test_sel_elist, self.test_set_sel_time,
self.test_sel_time_get, self.test_sel_list_first_3_entries,
self.test_sel_list_last_3_entries, self.test_sel_get_functionality,
self.test_sel_clear_functionality, self.test_channel,
self.test_dcmi, self.test_echo, self.test_event,
self.test_firewall, self.test_pef, self.test_raw,
self.test_exec, self.test_bmc_golden_side_version,
self.test_get_pnor_partition_size_cmd,
self.test_bmc_boot_completed_cmd,
self.test_get_led_state_cmd, self.test_set_led_state_cmd]
fail_count = 0
for test in test_cases:
try:
print "OOB IPMI: test case %s" % test
test(self)
except:
print "Test Fail: %s failed" % test
fail_count += 1
print sys.exc_info()
continue
print "OOB IPMI: Test case failure count %s" % fail_count
print self.cv_IPMI.ipmi_get_bmc_golden_side_version()
print self.cv_IPMI.ipmi_get_pnor_partition_size("NVRAM")
print self.cv_IPMI.ipmi_get_pnor_partition_size("GUARD")
print self.cv_IPMI.ipmi_get_pnor_partition_size("BOOTKERNEL")
print self.cv_IPMI.ipmi_get_bmc_boot_completion_status()
print self.cv_IPMI.ipmi_get_fault_led_state()
print self.cv_IPMI.ipmi_get_power_on_led_state()
print self.cv_IPMI.ipmi_get_host_status_led_state()
print self.cv_IPMI.ipmi_get_chassis_identify_led_state()
self.cv_IPMI.ipmi_enable_fan_control_task_command()
self.cv_IPMI.ipmi_get_fan_control_task_state_command()
self.cv_IPMI.ipmi_disable_fan_control_task_command()
self.cv_IPMI.ipmi_get_fan_control_task_state_command()
##
# @brief This function is used to get the bmc golden image version.
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_bmc_golden_side_version(self):
print "OOB IPMI: Get BMC Golden side Version Test"
self.run_ipmi_cmd(BMC_CONST.IPMI_GET_BMC_GOLDEN_SIDE_VERSION)
##
# @brief This function is used to get partition size of given PNOR Partition.
# Currently added NVRAM,GUARD and BOOTKERNEL partitions.
# TODO: Add all the necessary partitions to get the size.
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_get_pnor_partition_size_cmd(self):
print "OOB IPMI: Get size of PNOR partition Test"
print "OOB IPMI: Getting the size of NVRAM partition"
self.run_ipmi_cmd(BMC_CONST.IPMI_GET_NVRAM_PARTITION_SIZE)
print "OOB IPMI: Getting the size of GUARD partition"
self.run_ipmi_cmd(BMC_CONST.IPMI_GET_GUARD_PARTITION_SIZE)
print "OOB IPMI: Getting the size of BOOTKERNEL partition"
self.run_ipmi_cmd(BMC_CONST.IPMI_GET_BOOTKERNEL_PARTITION_SIZE)
##
# @brief This function is used to test reading of pnor partition data
# via ipmitool command. Here it will currently read NVRAM
# and FIRDATA partition's data of size 254 bytes.
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_read_pnor_partition_data(self):
self.run_ipmi_cmd(BMC_CONST.IPMI_READ_NVRAM_PARTITION_DATA)
self.run_ipmi_cmd(BMC_CONST.IPMI_READ_FIRDATA_PARTITION_DATA)
##
# @brief This function is used to check whether BMC Completed Booting.
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_bmc_boot_completed_cmd(self):
print "OOB IPMI: Get BMC boot completion status Test"
self.run_ipmi_cmd(BMC_CONST.IPMI_HAS_BMC_BOOT_COMPLETED)
##
# @brief This command is used to get the State of below Supported LED.
# LED Number Table:
# Fault RollUP LED 0x00
# Power ON LED 0x01
# Host Status LED 0x02
# Chassis Identify LED 0x03
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_get_led_state_cmd(self):
print "OOB IPMI: Get state of various LED's"
print "LED: Fault RollUP LED 0x00"
self.run_ipmi_cmd(BMC_CONST.IPMI_GET_LED_STATE_FAULT_ROLLUP)
print "LED: Power ON LED 0x01"
self.run_ipmi_cmd(BMC_CONST.IPMI_GET_LED_STATE_POWER_ON)
print "LED: Host Status LED 0x02"
self.run_ipmi_cmd(BMC_CONST.IPMI_GET_LED_STATE_HOST_STATUS)
print "LED: Chassis Identify LED 0x03"
self.run_ipmi_cmd(BMC_CONST.IPMI_GET_LED_STATE_CHASSIS_IDENTIFY)
##
# @brief This function is used to test set LED state feature.
# LED Number Table:
# Fault RollUP LED 0x00
# Power ON LED 0x01
# Host Status LED 0x02
# Chassis Identify LED 0x03
# LED State Table:
# LED State to be set.
# 0x0 LED OFF
# 0x1 LED ON
# 0x2 LED Standby Blink Rate
# 0x3 LED Slow Blink rate.
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_set_led_state_cmd(self):
print "OOB IPMI: Set LED state of various LED's"
self.cv_IPMI.ipmi_set_led_state("0x00", "0x0")
self.cv_IPMI.ipmi_get_fault_led_state()
self.cv_IPMI.ipmi_set_led_state("0x00", "0x1")
self.cv_IPMI.ipmi_get_fault_led_state()
self.cv_IPMI.ipmi_set_led_state("0x00", "0x2")
self.cv_IPMI.ipmi_get_fault_led_state()
self.cv_IPMI.ipmi_set_led_state("0x00", "0x3")
self.cv_IPMI.ipmi_get_fault_led_state()
self.cv_IPMI.ipmi_set_led_state("0x01", "0x0")
self.cv_IPMI.ipmi_get_power_on_led_state()
self.cv_IPMI.ipmi_set_led_state("0x01", "0x1")
self.cv_IPMI.ipmi_get_power_on_led_state()
self.cv_IPMI.ipmi_set_led_state("0x01", "0x2")
self.cv_IPMI.ipmi_get_power_on_led_state()
self.cv_IPMI.ipmi_set_led_state("0x01", "0x3")
self.cv_IPMI.ipmi_get_power_on_led_state()
##
# @brief Step 1: Stop Fan Control Thread:
# ipmitool -I lanplus -U admin -P admin -H <BMC IP> raw 0x3a 0x12 0x00
# Step 2: Fan Control STOPPED OEM SEL created
# ipmitool -I lanplus -U admin -P admin -H <BMC IP> sel list |grep OEM
# 7b | 04/20/2015 | 03:03:14 | OEM record c0 | 000000 | 3a1100ffffff
# Step 3: #Run IsFanRunning OEM Command
# ipmitool -I lanplus -U admin -P admin -H <BMC IP> raw 0x3a 0x13
# 00
#
# @return return BMC_CONST.FW_SUCCESS or raise OpTestError
#
@staticmethod
def test_fan_control_algorithm_1(self):
print "OOB IPMI: Testing Fan control disable functionality"
self.cv_IPMI.ipmi_enable_fan_control_task_command()
self.cv_IPMI.ipmi_sdr_clear()
l_state = self.cv_IPMI.ipmi_get_fan_control_task_state_command()
if str(BMC_CONST.IPMI_FAN_CONTROL_THREAD_RUNNING) in l_state:
self.cv_IPMI.ipmi_disable_fan_control_task_command()
l_state = self.cv_IPMI.ipmi_get_fan_control_task_state_command()
if str(BMC_CONST.IPMI_FAN_CONTROL_THREAD_NOT_RUNNING) in l_state:
l_output = self.cv_IPMI.ipmi_get_sel_list()
print l_output
if "OEM" in l_output:
print "IPMI: Disabling of fan control creates an OEM SEL event"
return BMC_CONST.FW_SUCCESS
else:
l_msg = "IPMI: Disabling of fan control doesn't create an OEM SEL event"
raise OpTestError(l_msg)
else:
l_msg = "IPMI: Fan control thread still running, disable failed"
raise OpTestError(l_msg)
else:
l_msg = "IPMI: Fan control thread still in not running state, enable failed"
raise OpTestError(l_msg)
##
# @brief Step 1: Start Fan Control Thread:
# ipmitool -I lanplus -U admin -P admin -H <BMC IP> raw 0x3a 0x12 0x01
# Step 2: Fan Control STOPPED OEM SEL created
# ipmitool -I lanplus -U admin -P admin -H <BMC IP> sel list |grep OEM
# 7b | 04/20/2015 | 03:03:14 | OEM record c0 | 000000 | 3a1100ffffff
# Step 3: #Run IsFanRunning OEM Command
# ipmitool -I lanplus -U admin -P admin -H <BMC IP> raw 0x3a 0x13
# 01
#
# @return return BMC_CONST.FW_SUCCESS or raise OpTestError
#
@staticmethod
def test_fan_control_algorithm_2(self):
print "OOB IPMI: Testing Fan control enable functionality"
self.cv_IPMI.ipmi_disable_fan_control_task_command()
self.cv_IPMI.ipmi_sdr_clear()
l_state = self.cv_IPMI.ipmi_get_fan_control_task_state_command()
if l_state == str(BMC_CONST.IPMI_FAN_CONTROL_THREAD_NOT_RUNNING):
self.cv_IPMI.ipmi_enable_fan_control_task_command()
l_state = self.cv_IPMI.ipmi_get_fan_control_task_state_command()
if l_state == str(BMC_CONST.IPMI_FAN_CONTROL_THREAD_RUNNING):
l_output = self.cv_IPMI.ipmi_get_sel_list()
print l_output
if "OEM" in l_output:
print "IPMI: Enabling of fan control creates an OEM SEL event"
return BMC_CONST.FW_SUCCESS
else:
l_msg = "IPMI: Enabling of fan control doesn't create an OEM SEL event"
raise OpTestError(l_msg)
else:
l_msg = "IPMI: Fan control thread still in not running state, enable failed"
raise OpTestError(l_msg)
else:
l_msg = "IPMI: Fan control thread still running, disable failed"
raise OpTestError(l_msg)
##
# @brief It will check basic channel functionalities: info and authentication capabilities.
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_channel(self):
print "OOB IPMI: Channel Tests"
self.run_ipmi_cmd(BMC_CONST.IPMI_CHANNEL_AUTHCAP)
self.run_ipmi_cmd(BMC_CONST.IPMI_CHANNEL_INFO)
##
# @brief It will execute and test the return code of ipmi command.
#
# @param i_cmd @type string:The ipmitool command, for example: chassis power on; echo $?
#
# @return l_res @type list: output of command or raise OpTestError
#
def run_ipmi_cmd(self, i_cmd):
l_cmd = i_cmd
l_res = self.cv_IPMI.ipmitool_execute_command(l_cmd)
print l_res
l_res = l_res.splitlines()
if int(l_res[-1]):
l_msg = "IPMI: command failed %c" % l_cmd
raise OpTestError(l_msg)
return l_res
##
# @brief It will execute and test the ipmi chassis <cmd> commands
# cmd: status, poh, restart_cause, policy list and policy set
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_chassis(self):
print "OOB IPMI: Chassis tests"
self.run_ipmi_cmd(BMC_CONST.IPMI_CHASSIS_STATUS)
self.run_ipmi_cmd(BMC_CONST.IPMI_CHASSIS_POH)
self.run_ipmi_cmd(BMC_CONST.IPMI_CHASSIS_RESTART_CAUSE)
self.run_ipmi_cmd(BMC_CONST.IPMI_CHASSIS_POLICY_LIST)
self.run_ipmi_cmd(BMC_CONST.IPMI_CHASSIS_POLICY_ALWAYS_OFF)
##
# @brief It will execute and test the ipmi chassis identify commands
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_chassisIdentifytests(self):
print "OOB IPMI: chassis identify tests"
self.run_ipmi_cmd(BMC_CONST.IPMI_CHASSIS_IDENTIFY)
self.run_ipmi_cmd(BMC_CONST.IPMI_CHASSIS_IDENTIFY_5)
self.run_ipmi_cmd(BMC_CONST.IPMI_CHASSIS_IDENTIFY)
self.run_ipmi_cmd(BMC_CONST.IPMI_CHASSIS_IDENTIFY_FORCE)
self.run_ipmi_cmd(BMC_CONST.IPMI_CHASSIS_IDENTIFY)
##
# @brief It will execute and test the functionality of ipmi chassis bootdev <dev>
# dev: none,pxe,cdrom,disk,bios,safe,diag,floppy and none.
#
# @return BMC_CONST.FW_SUCCESS on success or raise OpTestError
#
@staticmethod
def test_chassisBootdev(self):
print "OOB IPMI: chassis bootdevice tests"
self.run_ipmi_cmd(BMC_CONST.IPMI_CHASSIS_BOOTDEV_NONE)
self.verify_bootdev("none")
self.run_ipmi_cmd(BMC_CONST.IPMI_CHASSIS_BOOTDEV_PXE)
self.verify_bootdev("pxe")
self.run_ipmi_cmd(BMC_CONST.IPMI_CHASSIS_BOOTDEV_CDROM)
self.verify_bootdev("cdrom")
self.run_ipmi_cmd(BMC_CONST.IPMI_CHASSIS_BOOTDEV_DISK)
self.verify_bootdev("disk")
self.run_ipmi_cmd(BMC_CONST.IPMI_CHASSIS_BOOTDEV_BIOS)
self.verify_bootdev("bios")
self.run_ipmi_cmd(BMC_CONST.IPMI_CHASSIS_BOOTDEV_SAFE)
self.verify_bootdev("safe")
self.run_ipmi_cmd(BMC_CONST.IPMI_CHASSIS_BOOTDEV_DIAG)
self.verify_bootdev("diag")
self.run_ipmi_cmd(BMC_CONST.IPMI_CHASSIS_BOOTDEV_FLOPPY)
self.verify_bootdev("floppy")
self.run_ipmi_cmd(BMC_CONST.IPMI_CHASSIS_BOOTDEV_NONE)
self.verify_bootdev("none")
##
# @brief It will verify whether setting of given bootdevice is honoured or not
# by reading chassis bootparam get 5
#
# @param i_dev @type string: boot device name: Ex safe, disk and cdrom
#
# @return BMC_CONST.FW_SUCCESS on success or raise OpTestError
#
def verify_bootdev(self, i_dev):
l_res = self.run_ipmi_cmd(BMC_CONST.IPMI_CHASSIS_BOOTPARAM_GET_5)
if i_dev == "safe":
l_msg = "Force Boot from default Hard-Drive, request Safe-Mode"
elif i_dev == "disk":
l_msg = "Force Boot from default Hard-Drive"
elif i_dev == "diag":
l_msg = "Force Boot from Diagnostic Partition"
elif i_dev == "bios":
l_msg = "Force Boot into BIOS Setup"
elif i_dev == "pxe":
l_msg = "Force PXE"
elif i_dev == "cdrom":
l_msg = "Force Boot from CD/DVD"
elif i_dev == "none":
l_msg = "No override"
elif i_dev == "floppy":
l_msg = "Force Boot from Floppy/primary removable media"
else:
print "pass proper bootdevice"
for l_line in l_res:
if l_line.__contains__(l_msg):
print "Verifying bootdev is successfull for %s" % i_dev
return BMC_CONST.FW_SUCCESS
else:
l_msg = "Boot device is not set to %s" % i_dev
raise OpTestError(l_msg)
##
# @brief It will execute and test the ipmi <sdr/sel/mc/channel> info related commands.
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_Info(self):
print "OOB IPMI: info tests"
self.run_ipmi_cmd(BMC_CONST.IPMI_CHANNEL_INFO)
self.run_ipmi_cmd(BMC_CONST.IPMI_MC_INFO)
self.run_ipmi_cmd(BMC_CONST.IPMI_SEL_INFO)
self.run_ipmi_cmd(BMC_CONST.IPMI_SDR_INFO)
##
# @brief It will execute and test the ipmi sdr list <all/fru/event/mcloc/compact/full/generic>
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_sdr_list_by_type(self):
self.run_ipmi_cmd(BMC_CONST.IPMI_SDR_LIST)
self.run_ipmi_cmd(BMC_CONST.IPMI_SDR_LIST_ALL)
self.run_ipmi_cmd(BMC_CONST.IPMI_SDR_LIST_FRU)
self.run_ipmi_cmd(BMC_CONST.IPMI_SDR_LIST_EVENT)
self.run_ipmi_cmd(BMC_CONST.IPMI_SDR_LIST_MCLOC)
self.run_ipmi_cmd(BMC_CONST.IPMI_SDR_LIST_COMPACT)
self.run_ipmi_cmd(BMC_CONST.IPMI_SDR_LIST_FULL)
self.run_ipmi_cmd(BMC_CONST.IPMI_SDR_LIST_GENERIC)
##
# @brief It will execute and test the ipmi sdr elist <all/fru/event/mcloc/compact/full/generic>
# commands
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_sdr_elist_by_type(self):
self.run_ipmi_cmd(BMC_CONST.IPMI_SDR_ELIST)
self.run_ipmi_cmd(BMC_CONST.IPMI_SDR_ELIST_ALL)
self.run_ipmi_cmd(BMC_CONST.IPMI_SDR_ELIST_FRU)
self.run_ipmi_cmd(BMC_CONST.IPMI_SDR_ELIST_EVENT)
self.run_ipmi_cmd(BMC_CONST.IPMI_SDR_ELIST_MCLOC)
self.run_ipmi_cmd(BMC_CONST.IPMI_SDR_ELIST_COMPACT)
self.run_ipmi_cmd(BMC_CONST.IPMI_SDR_ELIST_FULL)
self.run_ipmi_cmd(BMC_CONST.IPMI_SDR_ELIST_GENERIC)
##
# @brief It will execute and test the ipmi sdr type <Temp/fan/Powersupply> commands
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_sdr_type_list(self):
self.run_ipmi_cmd(BMC_CONST.IPMI_SDR_TYPE_LIST)
self.run_ipmi_cmd(BMC_CONST.IPMI_SDR_TYPE_TEMPERATURE)
self.run_ipmi_cmd(BMC_CONST.IPMI_SDR_TYPE_FAN)
self.run_ipmi_cmd(BMC_CONST.IPMI_SDR_TYPE_POWER_SUPPLY)
##
# @brief It will execute and test the ipmi sdr get <sensor-id> command
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_sdr_get_id(self):
l_cmd = BMC_CONST.IPMI_SDR_GET_WATCHDOG + "; echo $?"
self.run_ipmi_cmd(l_cmd)
##
# @brief It will execute and test the ipmi fru print command.
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_fru_print(self):
print "OOB IPMI: Fru tests"
self.run_ipmi_cmd(BMC_CONST.IPMI_FRU_PRINT)
##
# @brief It will execute and test the ipmi fru read command.
# then the output file is displayed by hexdump
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_fru_read(self):
self.run_ipmi_cmd(BMC_CONST.IPMI_FRU_READ)
l_res = commands.getstatusoutput("hexdump -C file_fru")
if int(l_res[0]) == 0:
print l_res[1]
else:
l_msg = "Failing to do hexdump for fru file"
print l_msg
raise OpTestError(l_msg)
##
# @brief It will execute and test the ipmi sensor list functionality
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_sensor_list(self):
print "OOB IPMI: Sensor tests"
self.run_ipmi_cmd(BMC_CONST.IPMI_SENSOR_LIST)
##
# @brief It will execute and test the ipmi sensor get <id> functionality
#
# @param i_sensor @type string:sensor id to retrieve the data
#
# @return l_res @type list: output of command or raise OpTestError
#
def test_sensor_byid(self, i_sensor):
l_cmd = "sensor get \"%s\"; echo $?" % i_sensor
self.run_ipmi_cmd(l_cmd)
##
# @brief It will execute and test the management controller(mc) commands functionality
# info-Displays information about the BMC hardware, including device revision,
# firmware revision, IPMI version supported, manufacturer ID, and information
# on additional device support
# watchdog get-Show current Watchdog Timer settings and countdown state.
# watchdog off-Turn off a currently running Watchdog countdown timer.
# watchdog reset-Reset the Watchdog Timer to its most recent state and restart the countdown timer.
# selftest- Check on the basic health of the BMC by executing the
# Get Self Test results command and report the results.
# setenables-Enables or disables the given option
# getenables-Displays a list of the currently enabled options for the BMC.
# getsysinfo-Retrieves system info from bmc for given argument
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_mc(self):
print "OOB IPMI: MC tests"
self.run_ipmi_cmd(BMC_CONST.IPMI_MC_INFO)
self.run_ipmi_cmd(BMC_CONST.IPMI_MC_WATCHDOG_GET)
self.run_ipmi_cmd(BMC_CONST.IPMI_MC_SELFTEST)
self.run_ipmi_cmd(BMC_CONST.IPMI_MC_SELFTEST)
self.run_ipmi_cmd(BMC_CONST.IPMI_MC_SETENABLES_OEM_0_OFF)
self.run_ipmi_cmd(BMC_CONST.IPMI_MC_GETENABLES)
self.run_ipmi_cmd(BMC_CONST.IPMI_MC_SETENABLES_OEM_0_ON)
self.run_ipmi_cmd(BMC_CONST.IPMI_MC_GETENABLES)
self.run_ipmi_cmd(BMC_CONST.IPMI_MC_WATCHDOG_OFF)
self.run_ipmi_cmd(BMC_CONST.IPMI_MC_WATCHDOG_RESET)
self.run_ipmi_cmd(BMC_CONST.IPMI_MC_GETSYS_INFO)
##
# @brief It will execute and test the ipmi sel info functionality
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_sel_info(self):
print "OOB IPMI: SEL tests"
self.run_ipmi_cmd(BMC_CONST.IPMI_SEL_INFO)
##
# @brief It will execute and test ipmi sel list functionality.
# the entire contents of the System Event Log are displayed.
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_sel_list(self):
self.run_ipmi_cmd(BMC_CONST.IPMI_SEL_LIST)
##
# @brief It will execute and test the ipmi sel elist functionality
# If invoked as elist (extended list) it will also use the
# Sensor Data Record entries to display the sensor ID for
# the sensor that caused each event.
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_sel_elist(self):
self.run_ipmi_cmd(BMC_CONST.IPMI_SEL_ELIST)
##
# @brief It will execute and test the ipmi sel time get functionality
# Displays the SEL clock's current time.
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_sel_time_get(self):
l_res = self.run_ipmi_cmd(BMC_CONST.IPMI_SEL_TIME_GET)
return l_res
##
# @brief It will execute and test the ipmi sel set <time string> functionality
# Sets the SEL clock. Future SEL entries will use the time set by this command.
#
# @param i_time @type string: the value to be set as a sel time
# <time string> is of the form "MM/DD/YYYY HH:MM:SS"
#
# @return l_res @type list: output of command or raise OpTestError
#
def test_sel_time_set(self, i_time):
l_cmd = "sel time set \'%s\'; echo $?" % i_time
self.run_ipmi_cmd(l_cmd)
##
# @brief It will execute and test the ipmi sel list first <n entries>
#
# @param i_num @type string:The num of entries of sel to be listed
#
# @return l_res @type list: output of command or raise OpTestError
#
def test_sel_list_first_n_entries(self, i_num):
l_cmd = "sel list first %i; echo $?" % int(i_num)
self.run_ipmi_cmd(l_cmd)
##
# @brief It will execute and test the ipmi sel list last <n entries>
#
# @param i_num @type string:The num of entries of sel to be listed
#
# @return l_res @type list: output of command or raise OpTestError
#
def test_sel_list_last_n_entries(self, i_num):
l_cmd = "sel list last %i; echo $?" % int(i_num)
self.run_ipmi_cmd(l_cmd)
##
# @brief It will execute and test the ipmi sel get <id> functionality
#
# @param i_sel_id @type string: for example 0x05, 0x06..
#
# @return l_res @type list: output of command or raise OpTestError
#
def test_sel_get_byid(self, i_sel_id):
l_cmd = "sel get %s; echo $?" % i_sel_id
self.run_ipmi_cmd(l_cmd)
##
# @brief It will execute and test the ipmi sel clear functionality
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_sel_clear(self):
self.run_ipmi_cmd(BMC_CONST.IPMI_SEL_CLEAR)
##
# @brief It will execute and test the ipmi sel get <id> functionality
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
@staticmethod
def test_sel_get_functionality(self):
l_res = self.cv_IPMI.ipmitool_execute_command("sel list first 3 | awk '{print $1}'; echo $?")
l_list = l_res.splitlines()
if int(l_list[-1]) == 0:
if l_res.__contains__("SEL has no entries"):
print "There are No sel entries to fetch"
pass
else:
del l_list[-1]
for l in l_list:
l_id = "0x" + l
self.test_sel_get_byid(l_id)
return BMC_CONST.FW_SUCCESS
else:
l_msg = "Not able to get sel entries"
print l_msg
raise OpTestError(l_msg)
##
# @brief It will execute and test the ipmi sel clear functionality
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
@staticmethod
def test_sel_clear_functionality(self):
self.test_sel_clear(self)
l_res = self.cv_HOST.host_run_command("ipmitool sel list; echo $?")
l_list = l_res.splitlines()
for l_line in l_list:
if l_line.__contains__("SEL has no entries"):
print "Sel clear function got cleared event entries"
return BMC_CONST.FW_SUCCESS
else:
l_msg = "OOB IPMI: sel clear function failing in clearing entries"
print l_msg
print l_res
raise OpTestError(l_msg)
##
# @brief It will execute and test the dcmi related ipmi commands.
# discover-This command is used to discover supported capabilities in DCMI
# Power reading-Get power related readings from the system.
# get_limit-Get the configured power limits.
# sensors-Prints the available DCMI sensors.
# get_mc_id_string-Get management controller identifier string
# get_temp_reading-Get Temperature Sensor Readings.
# get_conf_param-Get DCMI Configuration Parameters.
# oob_discover-Ping/Pong Message for DCMI Discovery
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_dcmi(self):
print "OOB IPMI: dcmi tests"
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_DISCOVER)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_POWER_READING)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_POWER_GET_LIMIT)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_SENSORS)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_GET_MC_ID_STRING)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_GET_TEMP_READING)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_GET_CONF_PARAM)
self.run_ipmi_cmd(BMC_CONST.IPMI_DCMI_OOB_DISCOVER)
##
# @brief It will execute and test the functionality of ipmi echo command.
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_echo(self):
print "OOB IPMI: echo tests"
self.run_ipmi_cmd(BMC_CONST.IPMI_ECHO_DONE)
##
# @brief It will execute and test event related commands to test sel functionality.
# Send a pre-defined test event to the System Event Log. The following
# events are included as a means to test the functionality of the System
# Event Log component of the BMC (an entry will be added each time the
# event N command is executed)
# Currently supported values for N are:
# 1 Temperature: Upper Critical: Going High
# 2 Voltage Threshold: Lower Critical: Going Low
# 3 Memory: Correctable ECC
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_event(self):
print "OOB IPMI: event tests"
self.run_ipmi_cmd(BMC_CONST.IPMI_EVENT_1)
self.run_ipmi_cmd(BMC_CONST.IPMI_EVENT_2)
self.run_ipmi_cmd(BMC_CONST.IPMI_EVENT_3)
##
# @brief It will execute and test ipmi exec command.
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_exec(self):
print "OOB IPMI: exec tests"
pass
# TODO: need to execute ipmi commands from a file
##
# @brief It will execute and test firmware firewall info command.
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_firewall(self):
print "OOB IPMI: Firewall test"
self.run_ipmi_cmd(BMC_CONST.IPMI_FIREWALL_INFO)
##
# @brief It will execute and test pef related commands:
# info:This command will query the BMC and print information about the PEF supported features.
# status: This command prints the current PEF status
# policy: This command lists the PEF policy table entries
# list: This command lists the PEF table entries.
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_pef(self):
print "OOB IPMI: Pef tests"
self.run_ipmi_cmd(BMC_CONST.IPMI_PEF_INFO)
self.run_ipmi_cmd(BMC_CONST.IPMI_PEF_STATUS)
self.run_ipmi_cmd(BMC_CONST.IPMI_PEF_POLICY)
self.run_ipmi_cmd(BMC_CONST.IPMI_PEF_LIST)
##
# @brief This will test raw IPMI commands. For example to query the POH counter with a raw command
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_raw(self):
print "OOB IPMI: raw command execution tests"
self.run_ipmi_cmd(BMC_CONST.IPMI_RAW_POH)
##
# @brief It will execute and test the ipmi sensor get "Host Status" functionality
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_sensor_get_host_status(self):
self.test_sensor_byid(BMC_CONST.SENSOR_HOST_STATUS)
##
# @brief It will execute and test the ipmi sensor get "OS Boot" functionality
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_sensor_get_os_boot(self):
self.test_sensor_byid(BMC_CONST.SENSOR_OS_BOOT)
##
# @brief It will execute and test the ipmi sensor get "OCC Active" functionality
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_sensor_get_occ_active(self):
self.test_sensor_byid(BMC_CONST.SENSOR_OCC_ACTIVE)
##
# @brief It will execute and test the ipmi sel set <time string> functionality
# Sets the SEL clock. Future SEL entries will use the time set by this command.
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_set_sel_time(self):
l_res = self.test_sel_time_get(self)
self.test_sel_time_set(l_res[0])
##
# @brief It will execute and test the ipmi sel list first <3 entries>
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_sel_list_first_3_entries(self):
self.test_sel_list_first_n_entries(BMC_CONST.IPMI_SEL_LIST_ENTRIES)
##
# @brief It will execute and test the ipmi sel list last <3 entries>
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_sel_list_last_3_entries(self):
self.test_sel_list_last_n_entries(BMC_CONST.IPMI_SEL_LIST_ENTRIES)
class OpTestIPMIPowerControl():
## Initialize this object
# @param i_bmcIP The IP address of the BMC
# @param i_bmcUser The userid to log into the BMC with
# @param i_bmcPasswd The password of the userid to log into the BMC with
# @param i_bmcUserIpmi The userid to issue the BMC IPMI commands with
# @param i_bmcPasswdIpmi The password of BMC IPMI userid
# @param i_ffdcDir Optional param to indicate where to write FFDC
#
# "Only required for inband tests" else Default = None
# @param i_hostIP The IP address of the HOST
# @param i_hostuser The userid to log into the HOST
# @param i_hostPasswd The password of the userid to log into the HOST with
#
def __init__(self, i_bmcIP, i_bmcUser, i_bmcPasswd,
i_bmcUserIpmi, i_bmcPasswdIpmi, i_ffdcDir=None, i_hostip=None,
i_hostuser=None, i_hostPasswd=None):
self.cv_BMC = OpTestBMC(i_bmcIP, i_bmcUser, i_bmcPasswd, i_ffdcDir)
self.cv_IPMI = OpTestIPMI(i_bmcIP, i_bmcUserIpmi, i_bmcPasswdIpmi,
i_ffdcDir, i_hostip, i_hostuser, i_hostPasswd)
self.cv_HOST = OpTestHost(i_hostip, i_hostuser, i_hostPasswd, i_bmcIP)
self.cv_SYSTEM = OpTestSystem(i_bmcIP, i_bmcUser, i_bmcPasswd,
i_bmcUserIpmi, i_bmcPasswdIpmi, i_ffdcDir, i_hostip,
i_hostuser, i_hostPasswd)
self.util = OpTestUtil()
##
# @brief This function will test below system power control operations
# IPMI Power ON
# Power OFF
# Power Soft
# Power Cycle
# Power Reset
# So each operation is executed through ipmi commands. and
# check_system_status function will check whether FW and Host OS
# Boot completed or not.
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
def testIPMIPowerControl(self):
self.cv_SYSTEM.sys_bmc_power_on_validate_host()
print "Performing a IPMI Power OFF Operation"
# Perform a IPMI Power OFF Operation(Immediate Shutdown)
self.cv_IPMI.ipmi_power_off()
if int(self.cv_SYSTEM.sys_wait_for_standby_state(BMC_CONST.SYSTEM_STANDBY_STATE_DELAY)) == 0:
print "System is in standby/Soft-off state"
else:
l_msg = "System failed to reach standby/Soft-off state"
raise OpTestError(l_msg)
print "Performing a IPMI Power ON Operation"
# Perform a IPMI Power ON Operation
self.cv_IPMI.ipmi_power_on()
self.check_system_status()
self.util.PingFunc(self.cv_HOST.ip, BMC_CONST.PING_RETRY_POWERCYCLE)
print "Performing a IPMI Soft Power OFF Operation"
# Perform a IPMI Soft Power OFF Operation(Graceful shutdown)
self.cv_IPMI.ipmi_power_soft()
if int(self.cv_SYSTEM.sys_wait_for_standby_state(BMC_CONST.SYSTEM_STANDBY_STATE_DELAY)) == 0:
print "System is in standby/Soft-off state"
else:
l_msg = "System failed to reach standby/Soft-off state"
raise OpTestError(l_msg)
print "Perform a IPMI Power ON Operation"
# Perform a IPMI Power ON Operation
self.cv_IPMI.ipmi_power_on()
self.check_system_status()
self.util.PingFunc(self.cv_HOST.ip, BMC_CONST.PING_RETRY_POWERCYCLE)
print "Performing a IPMI Power Cycle(Soft reboot) Operation "
# Perform a IPMI Power Cycle(Soft reboot) Operation only when system is in ON state
self.cv_IPMI.ipmi_power_cycle()
self.check_system_status()
self.util.PingFunc(self.cv_HOST.ip, BMC_CONST.PING_RETRY_POWERCYCLE)
print "Performing a IPMI Power Hard Reset Operation"
# Perform a IPMI Power Hard Reset Operation
self.cv_IPMI.ipmi_power_reset()
self.check_system_status()
self.util.PingFunc(self.cv_HOST.ip, BMC_CONST.PING_RETRY_POWERCYCLE)
return BMC_CONST.FW_SUCCESS
##
# @brief This function will check for system status and wait for
# FW and Host OS Boot progress to complete.
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
def check_system_status(self):
if int(self.cv_SYSTEM.sys_ipl_wait_for_working_state()) == 0:
print "System booted to working state"
else:
l_msg = "System failed to boot"
raise OpTestError(l_msg)
if int(self.cv_SYSTEM.sys_wait_for_os_boot_complete()) == 0:
print "System booted to Host OS"
else:
l_msg = "System failed to boot Host OS"
raise OpTestError(l_msg)
return BMC_CONST.FW_SUCCESS
class OpTestOCC():
## Initialize this object
# @param i_bmcIP The IP address of the BMC
# @param i_bmcUser The userid to log into the BMC with
# @param i_bmcPasswd The password of the userid to log into the BMC with
# @param i_bmcUserIpmi The userid to issue the BMC IPMI commands with
# @param i_bmcPasswdIpmi The password of BMC IPMI userid
# @param i_ffdcDir Optional param to indicate where to write FFDC
#
# "Only required for inband tests" else Default = None
# @param i_hostIP The IP address of the HOST
# @param i_hostuser The userid to log into the HOST
# @param i_hostPasswd The password of the userid to log into the HOST with
#
def __init__(self,
i_bmcIP,
i_bmcUser,
i_bmcPasswd,
i_bmcUserIpmi,
i_bmcPasswdIpmi,
i_ffdcDir=None,
i_hostip=None,
i_hostuser=None,
i_hostPasswd=None):
self.cv_BMC = OpTestBMC(i_bmcIP, i_bmcUser, i_bmcPasswd, i_ffdcDir)
self.cv_IPMI = OpTestIPMI(i_bmcIP, i_bmcUserIpmi, i_bmcPasswdIpmi,
i_ffdcDir, i_hostip, i_hostuser,
i_hostPasswd)
self.cv_HOST = OpTestHost(i_hostip, i_hostuser, i_hostPasswd, i_bmcIP)
self.cv_SYSTEM = OpTestSystem(i_bmcIP, i_bmcUser, i_bmcPasswd,
i_bmcUserIpmi, i_bmcPasswdIpmi,
i_ffdcDir, i_hostip, i_hostuser,
i_hostPasswd)
self.util = OpTestUtil()
##
# @brief This function is used to test OCC Reset funtionality in BMC based systems.
# OCC Reset reload is limited to 3 times per full power cycle.
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
def test_occ_reset_functionality(self):
self.cv_SYSTEM.sys_bmc_power_on_validate_host()
print "Performing a IPMI Power OFF Operation"
# Perform a IPMI Power OFF Operation(Immediate Shutdown)
self.cv_IPMI.ipmi_power_off()
if int(
self.cv_SYSTEM.sys_wait_for_standby_state(
BMC_CONST.SYSTEM_STANDBY_STATE_DELAY)) == 0:
print "System is in standby/Soft-off state"
else:
l_msg = "System failed to reach standby/Soft-off state"
raise OpTestError(l_msg)
self.cv_IPMI.ipmi_power_on()
self.cv_SYSTEM.sys_check_host_status()
if self.check_occ_status() == BMC_CONST.FW_FAILED:
l_msg = "OCC's are not in active state"
#raise OpTestError(l_msg)
print "OPAL-PRD: OCC Enable"
self.cv_HOST.host_run_command(BMC_CONST.OCC_ENABLE)
print "OPAL-PRD: OCC DISABLE"
self.cv_HOST.host_run_command(BMC_CONST.OCC_DISABLE)
print "OPAL-PRD: OCC RESET"
self.cv_HOST.host_run_command(BMC_CONST.OCC_RESET)
time.sleep(60)
if self.check_occ_status() == BMC_CONST.FW_FAILED:
l_msg = "OCC's are not in active state"
#raise OpTestError(l_msg)
print "OPAL-PRD: OCC Enable"
self.cv_HOST.host_run_command(BMC_CONST.OCC_ENABLE)
print "OPAL-PRD: OCC DISABLE"
self.cv_HOST.host_run_command(BMC_CONST.OCC_DISABLE)
print "OPAL-PRD: OCC RESET"
self.cv_HOST.host_run_command(BMC_CONST.OCC_RESET)
time.sleep(60)
if self.check_occ_status() == BMC_CONST.FW_FAILED:
l_msg = "OCC's are not in active state"
#raise OpTestError(l_msg)
print "OPAL-PRD: OCC Enable"
self.cv_HOST.host_run_command(BMC_CONST.OCC_ENABLE)
print "OPAL-PRD: OCC DISABLE"
self.cv_HOST.host_run_command(BMC_CONST.OCC_DISABLE)
print "OPAL-PRD: OCC RESET"
self.cv_HOST.host_run_command(BMC_CONST.OCC_RESET)
time.sleep(60)
if self.check_occ_status() == BMC_CONST.FW_FAILED:
l_msg = "OCC's are not in active state, rebooting the system"
print "Performing a IPMI Power OFF Operation"
# Perform a IPMI Power OFF Operation(Immediate Shutdown)
self.cv_IPMI.ipmi_power_off()
if int(
self.cv_SYSTEM.sys_wait_for_standby_state(
BMC_CONST.SYSTEM_STANDBY_STATE_DELAY)) == 0:
print "System is in standby/Soft-off state"
else:
l_msg = "System failed to reach standby/Soft-off state"
raise OpTestError(l_msg)
self.cv_IPMI.ipmi_power_on()
self.cv_SYSTEM.sys_check_host_status()
if self.check_occ_status() == BMC_CONST.FW_FAILED:
l_msg = "OCC's are not in active state"
raise OpTestError(l_msg)
##
# @brief This function is used to test OCC Reset funtionality in BMC based systems.
# OCC Reset reload can be done more than 3 times per full power cycle, by
# resetting OCC resetreload count.
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
def test_occ_reset_n_times(self):
self.cv_SYSTEM.sys_bmc_power_on_validate_host()
print "Performing a IPMI Power OFF Operation"
# Perform a IPMI Power OFF Operation(Immediate Shutdown)
self.cv_IPMI.ipmi_power_off()
if int(
self.cv_SYSTEM.sys_wait_for_standby_state(
BMC_CONST.SYSTEM_STANDBY_STATE_DELAY)) == 0:
print "System is in standby/Soft-off state"
else:
l_msg = "System failed to reach standby/Soft-off state"
raise OpTestError(l_msg)
self.cv_IPMI.ipmi_power_on()
self.cv_SYSTEM.sys_check_host_status()
if self.check_occ_status() == BMC_CONST.FW_FAILED:
l_msg = "OCC's are not in active state after rebooting"
raise OpTestError(l_msg)
for i in range(1, BMC_CONST.OCC_RESET_RELOAD_COUNT):
print "*******************OCC Reset count %d*******************" % i
print "OPAL-PRD: OCC Enable"
self.cv_HOST.host_run_command(BMC_CONST.OCC_ENABLE)
print "OPAL-PRD: OCC DISABLE"
self.cv_HOST.host_run_command(BMC_CONST.OCC_DISABLE)
print "OPAL-PRD: OCC RESET"
self.cv_HOST.host_run_command(BMC_CONST.OCC_RESET)
time.sleep(60)
if self.check_occ_status() == BMC_CONST.FW_FAILED:
l_msg = "OCC's are not in active state"
raise OpTestError(l_msg)
print "OPAL-PRD: occ query reset reload count"
self.cv_HOST.host_run_command(BMC_CONST.OCC_QUERY_RESET_COUNTS)
print "OPAL-PRD: occ reset reset/reload count"
self.cv_HOST.host_run_command(BMC_CONST.OCC_SET_RESET_RELOAD_COUNT)
print "OPAL-PRD: occ query reset reload count"
self.cv_HOST.host_run_command(BMC_CONST.OCC_QUERY_RESET_COUNTS)
print "Performing a IPMI Power OFF Operation"
# Perform a IPMI Power OFF Operation(Immediate Shutdown)
self.cv_IPMI.ipmi_power_off()
if int(
self.cv_SYSTEM.sys_wait_for_standby_state(
BMC_CONST.SYSTEM_STANDBY_STATE_DELAY)) == 0:
print "System is in standby/Soft-off state"
else:
l_msg = "System failed to reach standby/Soft-off state"
raise OpTestError(l_msg)
self.cv_IPMI.ipmi_power_on()
self.cv_SYSTEM.sys_check_host_status()
if self.check_occ_status() == BMC_CONST.FW_FAILED:
l_msg = "OCC's are not in active state after rebooting"
raise OpTestError(l_msg)
##
# @brief This function is used to test OCC Enable and Disable funtionality in BMC based systems.
# There is no limit for occ enable and disable, as of now doing 10 times in a loop.
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
def test_occ_enable_disable_functionality(self):
self.cv_SYSTEM.sys_bmc_power_on_validate_host()
print "Performing a IPMI Power OFF Operation"
# Perform a IPMI Power OFF Operation(Immediate Shutdown)
self.cv_IPMI.ipmi_power_off()
if int(
self.cv_SYSTEM.sys_wait_for_standby_state(
BMC_CONST.SYSTEM_STANDBY_STATE_DELAY)) == 0:
print "System is in standby/Soft-off state"
else:
l_msg = "System failed to reach standby/Soft-off state"
raise OpTestError(l_msg)
self.cv_IPMI.ipmi_power_on()
self.cv_SYSTEM.sys_check_host_status()
if self.check_occ_status() == BMC_CONST.FW_FAILED:
l_msg = "OCC's are not in active state"
raise OpTestError(l_msg)
for count in range(1, 10):
print "OPAL-PRD: OCC Enable"
self.cv_HOST.host_run_command(BMC_CONST.OCC_ENABLE)
print "OPAL-PRD: OCC Disable"
self.cv_HOST.host_run_command(BMC_CONST.OCC_DISABLE)
time.sleep(60)
if self.check_occ_status() == BMC_CONST.FW_FAILED:
l_msg = "OCC's are not in active state"
#raise OpTestError(l_msg)
print "Performing a IPMI Power OFF Operation"
# Perform a IPMI Power OFF Operation(Immediate Shutdown)
self.cv_IPMI.ipmi_power_off()
if int(
self.cv_SYSTEM.sys_wait_for_standby_state(
BMC_CONST.SYSTEM_STANDBY_STATE_DELAY)) == 0:
print "System is in standby/Soft-off state"
else:
l_msg = "System failed to reach standby/Soft-off state"
raise OpTestError(l_msg)
self.cv_IPMI.ipmi_power_on()
self.cv_SYSTEM.sys_check_host_status()
if self.check_occ_status() == BMC_CONST.FW_FAILED:
l_msg = "OCC's are not in active state"
raise OpTestError(l_msg)
##
# @brief This function is used to get OCC status enable/disable.
#
# @return BMC_CONST.FW_SUCCESS - OCC's are active or
# BMC_CONST.FW_FAILED - OCC's are not in active state
#
def check_occ_status(self):
l_status = self.cv_IPMI.ipmi_get_occ_status()
print l_status
if BMC_CONST.OCC_DEVICE_ENABLED in l_status:
print "OCC's are up and active"
return BMC_CONST.FW_SUCCESS
else:
print "OCC's are not in active state"
return BMC_CONST.FW_FAILED
class OpTestIPMILockMode():
## Initialize this object
# @param i_bmcIP The IP address of the BMC
# @param i_bmcUser The userid to log into the BMC with
# @param i_bmcPasswd The password of the userid to log into the BMC with
# @param i_bmcUserIpmi The userid to issue the BMC IPMI commands with
# @param i_bmcPasswdIpmi The password of BMC IPMI userid
# @param i_ffdcDir Optional param to indicate where to write FFDC
#
# "Only required for inband tests" else Default = None
# @param i_lparIP The IP address of the LPAR
# @param i_lparuser The userid to log into the LPAR
# @param i_lparPasswd The password of the userid to log into the LPAR with
#
def __init__(self, i_bmcIP, i_bmcUser, i_bmcPasswd,
i_bmcUserIpmi, i_bmcPasswdIpmi, i_ffdcDir=None, i_lparip=None,
i_lparuser=None, i_lparPasswd=None):
self.cv_BMC = OpTestBMC(i_bmcIP, i_bmcUser, i_bmcPasswd, i_ffdcDir)
self.cv_IPMI = OpTestIPMI(i_bmcIP, i_bmcUserIpmi, i_bmcPasswdIpmi,
i_ffdcDir, i_lparip, i_lparuser, i_lparPasswd)
self.cv_LPAR = OpTestLpar(i_lparip, i_lparuser, i_lparPasswd, i_bmcIP)
self.cv_SYSTEM = OpTestSystem(i_bmcIP, i_bmcUser, i_bmcPasswd,
i_bmcUserIpmi, i_bmcPasswdIpmi, i_ffdcDir, i_lparip,
i_lparuser, i_lparPasswd)
self.util = OpTestUtil()
##
# @brief This function will cover following test steps
# 1. It will get the OS level installed on power platform
# 2. It will check for kernel version installed on the Open Power Machine
# 3. It will check for ipmitool command existence and ipmitool package
# 4. Load the necessary ipmi modules based on config values
# 5. Issue a ipmi lock command through out-of-band authenticated interface
# 6. Now BMC IPMI is in locked mode, at this point only white listed
# in-band ipmi commands sholud work(No other in-band ipmi command should work)
# 7. Execute and test the functionality of whitelisted in-band ipmi
# commands in locked mode
# 8. At the end of test issue a ipmi unlock command to revert the availablity of all
# in-band ipmi commands in unlocked mode.
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
def test_ipmi_lock_mode(self):
# Get OS level
l_oslevel = self.cv_LPAR.lpar_get_OS_Level()
# Get kernel version
l_kernel = self.cv_LPAR.lpar_get_kernel_version()
# Checking for ipmitool command and lm_sensors package
self.cv_LPAR.lpar_check_command("ipmitool")
l_pkg = self.cv_LPAR.lpar_check_pkg_for_utility(l_oslevel, "ipmitool")
print "Installed package: %s" % l_pkg
# loading below ipmi modules based on config option
# ipmi_devintf, ipmi_powernv and ipmi_masghandler
self.cv_LPAR.lpar_load_module_based_on_config(l_kernel, BMC_CONST.CONFIG_IPMI_DEVICE_INTERFACE,
BMC_CONST.IPMI_DEV_INTF)
self.cv_LPAR.lpar_load_module_based_on_config(l_kernel, BMC_CONST.CONFIG_IPMI_POWERNV,
BMC_CONST.IPMI_POWERNV)
self.cv_LPAR.lpar_load_module_based_on_config(l_kernel, BMC_CONST.CONFIG_IPMI_HANDLER,
BMC_CONST.IPMI_MSG_HANDLER)
# Issue a ipmi lock command through authenticated interface
print "Issuing ipmi lock command through authenticated interface"
l_res = self.cv_IPMI.ipmitool_execute_command(BMC_CONST.IPMI_LOCK_CMD)
l_res = l_res.splitlines()
if int(l_res[-1]):
l_msg = "IPMI:Lock command failed, There may be two reasons here.\n\
a. check the corresponding parches available in AMI driver code,\n\
b. if patches available then command is failing"
print l_msg
raise OpTestError(l_msg)
print "IPMI:Lock command executed successfully"
try:
self.run_inband_ipmi_whitelisted_cmds()
except:
l_msg = "One of white listed in-band ipmi command execution failed"
print sys.exc_info()
finally:
# Issue a ipmi unlock command at the end of test.
print "Issuing ipmi unlock command through authenticated interface"
self.cv_IPMI.ipmitool_execute_command(BMC_CONST.IPMI_UNLOCK_CMD)
##
# @brief This function will execute whitelisted in-band ipmi commands
# and test the functionality in locked mode.
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
def run_inband_ipmi_whitelisted_cmds(self):
l_con = self.cv_SYSTEM.sys_get_ipmi_console()
self.cv_IPMI.ipmi_lpar_login(l_con)
self.cv_IPMI.ipmi_lpar_set_unique_prompt(l_con)
self.cv_IPMI.run_lpar_cmd_on_ipmi_console("uname -a")
# Test IPMI white listed commands those should be allowed through un-authenticated
# in-band interface
# 1.[App] Get Device ID
print "Testing Get Device ID command"
l_res = self.cv_IPMI.run_lpar_cmd_on_ipmi_console(BMC_CONST.LPAR_GET_DEVICE_ID)
if l_res[-1] != "0":
l_msg = "IPMI: Get Device ID command failed"
raise OpTestError(l_msg)
# 2.[App] Get Device GUID
print "Testing Get Device GUID"
l_res = self.cv_IPMI.run_lpar_cmd_on_ipmi_console(BMC_CONST.LPAR_GET_DEVICE_GUID)
if l_res[-1] != "0":
l_msg = "IPMI: Get Device GUID command failed"
raise OpTestError(l_msg)
# 3.[App] Get System GUID
print "Testing Get system GUID"
l_res = self.cv_IPMI.run_lpar_cmd_on_ipmi_console(BMC_CONST.LPAR_GET_SYSTEM_GUID)
if l_res[-1] != "0":
l_msg = "IPMI: Get System GUID command failed"
raise OpTestError(l_msg)
# 4.[Storage] Get SEL info
print "Testing Get SEL info"
l_res = self.cv_IPMI.run_lpar_cmd_on_ipmi_console(BMC_CONST.LPAR_GET_SEL_INFO)
if l_res[-1] != "0":
l_msg = "IPMI: Get SEL info command failed"
raise OpTestError(l_msg)
# 5.[Storage] Get SEL time
print "Testing Get SEL time"
l_res = self.cv_IPMI.run_lpar_cmd_on_ipmi_console(BMC_CONST.LPAR_GET_SEL_TIME_RAW)
if l_res[-1] != "0":
l_msg = "IPMI: Get SEL time command failed"
raise OpTestError(l_msg)
# 6. [Storage] Reserve SEL
print "Testing Reserve SEL"
l_res = self.cv_IPMI.run_lpar_cmd_on_ipmi_console(BMC_CONST.LPAR_RESERVE_SEL)
if l_res[-1] != "0":
l_msg = "IPMI: Reserve SEL command failed"
raise OpTestError(l_msg)
# 7. [Storage] Set SEL time (required for RTC)
print "Testing Set SEL time"
l_res = self.cv_IPMI.run_lpar_cmd_on_ipmi_console(BMC_CONST.LPAR_GET_SEL_TIME)
l_res = self.cv_IPMI.run_lpar_cmd_on_ipmi_console(BMC_CONST.LPAR_SET_SEL_TIME + " \'" + l_res[-1] + "\'; echo $?")
if l_res[-1] != "0":
l_msg = "IPMI: Set SEL time command failed"
raise OpTestError(l_msg)
self.cv_IPMI.run_lpar_cmd_on_ipmi_console(BMC_CONST.LPAR_GET_SEL_TIME)
# 8. [Transport] Get LAN parameters
print "Testing Get LAN parameters"
l_res = self.cv_IPMI.run_lpar_cmd_on_ipmi_console(BMC_CONST.LPAR_GET_LAN_PARAMETERS)
if l_res[-1] != "0":
l_msg = "IPMI: Get LAN parameters command failed"
raise OpTestError(l_msg)
# 9.[Chassis] Get System Boot Options
print "Testing Get System Boot Options"
l_res = self.cv_IPMI.run_lpar_cmd_on_ipmi_console(BMC_CONST.LPAR_GET_SYSTEM_BOOT_OPTIONS)
if l_res[-1] != "0":
l_msg = "IPMI: Get System Boot Options command failed"
raise OpTestError(l_msg)
# 10.[Chassis] Set System Boot Options
print "Testing Set System Boot Options"
l_res = self.cv_IPMI.run_lpar_cmd_on_ipmi_console(BMC_CONST.LPAR_SET_SYTEM_BOOT_OPTIONS)
if l_res[-1] != "0":
l_msg = "IPMI: Set System Boot Options command failed"
raise OpTestError(l_msg)
self.cv_IPMI.run_lpar_cmd_on_ipmi_console(BMC_CONST.LPAR_GET_SYSTEM_BOOT_OPTIONS)
# 11. [App] Get BMC Global Enables
print "Testing Get BMC Global Enables"
l_res = self.cv_IPMI.run_lpar_cmd_on_ipmi_console(BMC_CONST.LPAR_GET_BMC_GLOBAL_ENABLES_RAW)
if l_res[-1] != "0":
l_msg = "IPMI: Get BMC Global Enables command failed"
raise OpTestError(l_msg)
self.cv_IPMI.run_lpar_cmd_on_ipmi_console(BMC_CONST.LPAR_GET_BMC_GLOBAL_ENABLES)
# 12. [App] Set BMC Global Enables
print "Testing Set BMC Global Enables"
l_res = self.cv_IPMI.run_lpar_cmd_on_ipmi_console(BMC_CONST.LPAR_SET_BMC_GLOBAL_ENABLES_SEL_OFF)
if l_res[-1] != "0":
l_msg = "IPMI: Set BMC Global Enables sel=off command failed"
raise OpTestError(l_msg)
self.cv_IPMI.run_lpar_cmd_on_ipmi_console(BMC_CONST.LPAR_GET_BMC_GLOBAL_ENABLES)
self.cv_IPMI.run_lpar_cmd_on_ipmi_console(BMC_CONST.LPAR_SET_BMC_GLOBAL_ENABLES_SEL_ON)
# 13.[App] Get System Interface Capabilities
print "Testing Get System Interface Capabilities"
l_res = self.cv_IPMI.run_lpar_cmd_on_ipmi_console(BMC_CONST.LPAR_GET_SYSTEM_INTERFACE_CAPABILITIES_SSIF)
if l_res[-1] != "0":
l_msg = "IPMI: Get System Interface Capabilities SSIF command failed"
raise OpTestError(l_msg)
l_res = self.cv_IPMI.run_lpar_cmd_on_ipmi_console(BMC_CONST.LPAR_GET_SYSTEM_INTERFACE_CAPABILITIES_KCS)
if l_res[-1] != "0":
l_msg = "IPMI: Get System Interface Capabilities KCS command failed"
raise OpTestError(l_msg)
# 14.[App] Get Message Flags
print "Testing Get Message Flags"
l_res = self.cv_IPMI.run_lpar_cmd_on_ipmi_console(BMC_CONST.LPAR_GET_MESSAGE_FLAGS)
if l_res[-1] != "0":
l_msg = "IPMI: Get Message Flags command failed"
raise OpTestError(l_msg)
# 15. [App] Get BT Capabilities
print "Testing Get BT Capabilities"
l_res = self.cv_IPMI.run_lpar_cmd_on_ipmi_console(BMC_CONST.LPAR_GET_BT_CAPABILITIES)
if l_res[-1] != "0":
l_msg = "IPMI: Get BT Capabilities command failed"
raise OpTestError(l_msg)
# 16. [App] Clear Message Flags
print "Testing Clear Message Flags"
l_res = self.cv_IPMI.run_lpar_cmd_on_ipmi_console(BMC_CONST.LPAR_CLEAR_MESSAGE_FLAGS)
if l_res[-1] != "0":
l_msg = "IPMI: Clear Message Flags command failed"
raise OpTestError(l_msg)
# 17. [OEM] PNOR Access Status
print "Testing the PNOR Access Status"
l_res = self.cv_IPMI.run_lpar_cmd_on_ipmi_console(BMC_CONST.LPAR_PNOR_ACCESS_STATUS_DENY)
if l_res[-1] != "0":
l_msg = "IPMI: PNOR Access Status:deny command failed"
raise OpTestError(l_msg)
l_res = self.cv_IPMI.run_lpar_cmd_on_ipmi_console(BMC_CONST.LPAR_PNOR_ACCESS_STATUS_GRANT)
if l_res[-1] != "0":
l_msg = "IPMI: PNOR Access Status:grant command failed"
raise OpTestError(l_msg)
# 18. [Storage] Add SEL Entry
print "Testing Add SEL Entry"
print "Clearing the SEL list"
self.cv_IPMI.ipmi_sdr_clear()
l_res = self.cv_IPMI.run_lpar_cmd_on_ipmi_console(BMC_CONST.LPAR_ADD_SEL_ENTRY)
if l_res[-1] != "0":
l_msg = "IPMI: Add SEL Entry command failed"
raise OpTestError(l_msg)
l_res = self.cv_IPMI.ipmitool_execute_command(BMC_CONST.IPMI_LIST_LAST_SEL_EVENT)
print "Checking for Reserved entry creation in SEL"
if "Reserved" not in l_res:
l_msg = "IPMI: Add SEL Entry command, doesn't create an SEL event"
raise OpTestError(l_msg)
# 19. [App] Set Power State
print "Testing Set Power State"
l_res = self.cv_IPMI.run_lpar_cmd_on_ipmi_console(BMC_CONST.LPAR_SET_ACPI_POWER_STATE)
if l_res[-1] != "0":
l_msg = "IPMI: Set Power State command failed"
raise OpTestError(l_msg)
# 20. [App] Set watchdog
print "Testing Set watchdog"
l_res = self.cv_IPMI.run_lpar_cmd_on_ipmi_console(BMC_CONST.LPAR_SET_WATCHDOG)
if l_res[-1] != "0":
l_msg = "IPMI: Set watchdog command failed"
raise OpTestError(l_msg)
self.cv_IPMI.ipmitool_execute_command(BMC_CONST.IPMI_MC_WATCHDOG_GET)
# 21. [Sensor/Event] Get Sensor Type
print "Testing Get Sensor Type"
l_res = self.cv_IPMI.ipmitool_execute_command(BMC_CONST.IPMI_SDR_GET_WATCHDOG)
matchObj = re.search( "Watchdog \((0x\d{1,})\)", l_res)
if matchObj:
print "Got sensor Id for watchdog: %s" % matchObj.group(1)
else:
l_msg = "Failed to get sensor id for watchdog sensor"
raise OpTestError(l_msg)
l_res = self.cv_IPMI.run_lpar_cmd_on_ipmi_console(BMC_CONST.LPAR_GET_SENSOR_TYPE_FOR_WATCHDOG + " " + matchObj.group(1) + " ;echo $?")
if l_res[-1] != "0":
l_msg = "IPMI: Get Sensor Type command failed"
raise OpTestError(l_msg)
# 22.[Sensor/Event] Get Sensor Reading
print "Testing Get Sensor Reading"
l_res = self.cv_IPMI.ipmitool_execute_command(BMC_CONST.IPMI_SDR_GET_WATCHDOG)
matchObj = re.search( "Watchdog \((0x\d{1,})\)", l_res)
if matchObj:
print "Got sensor Id for watchdog: %s" % matchObj.group(1)
else:
l_msg = "Failed to get sensor id for watchdog sensor"
raise OpTestError(l_msg)
l_res = self.cv_IPMI.run_lpar_cmd_on_ipmi_console(BMC_CONST.LPAR_GET_SENSOR_READING + " " + matchObj.group(1) + " ;echo $?")
if l_res[-1] != "0":
l_msg = "IPMI: Get Sensor Reading command failed"
raise OpTestError(l_msg)
# 23.[Sensor/Event] Platform Event (0x02)
print "Testing Platform Event"
self.cv_IPMI.ipmi_sdr_clear()
l_res = self.cv_IPMI.run_lpar_cmd_on_ipmi_console(BMC_CONST.LPAR_PLATFORM_EVENT)
if l_res[-1] != "0":
l_msg = "IPMI: Platform Event command failed"
raise OpTestError(l_msg)
l_res = self.cv_IPMI.ipmitool_execute_command(BMC_CONST.IPMI_LIST_LAST_SEL_EVENT)
if "Reserved" not in l_res:
l_msg = "IPMI: Platform Event command failed to log SEL event"
raise OpTestError(l_msg)
# 24. [OEM] PNOR Access Response (0x08)
print "Testing PNOR Access Response"
self.cv_IPMI.run_lpar_cmd_on_ipmi_console(BMC_CONST.LPAR_PNOR_ACCESS_STATUS_GRANT)
l_res = self.cv_IPMI.run_lpar_cmd_on_ipmi_console(BMC_CONST.LPAR_PNOR_ACCESS_RESPONSE)
if l_res[-1] != "0":
l_msg = "IPMI: PNOR Access Response command failed"
raise OpTestError(l_msg)
self.cv_IPMI.run_lpar_cmd_on_ipmi_console(BMC_CONST.LPAR_PNOR_ACCESS_STATUS_DENY)
l_res = self.cv_IPMI.run_lpar_cmd_on_ipmi_console(BMC_CONST.LPAR_PNOR_ACCESS_RESPONSE)
if l_res[-1] != "0":
l_msg = "IPMI: PNOR Access Response command failed"
raise OpTestError(l_msg)
# 25.[Chassis] Chassis Control
print "Testing chassis power on"
l_res = self.cv_IPMI.run_lpar_cmd_on_ipmi_console(BMC_CONST.LPAR_CHASSIS_POWER_ON)
if l_res[-1] != "0":
l_msg = "IPMI: chassis power on command failed"
raise OpTestError(l_msg)
# 26.[App] 0x38 Get Channel Authentication Cap
print "Testing Get Channel Authentication Capabilities"
l_res = self.cv_IPMI.run_lpar_cmd_on_ipmi_console(BMC_CONST.LPAR_GET_CHANNEL_AUTH_CAP)
if l_res[-1] != "0":
l_msg = "IPMI: Get Channel Authentication Capabilities command failed"
raise OpTestError(l_msg)
# 27.[App] Reset Watchdog (0x22)
print "Testing reset watchdog"
self.cv_IPMI.ipmi_sdr_clear()
l_res = self.cv_IPMI.run_lpar_cmd_on_ipmi_console(BMC_CONST.LPAR_RESET_WATCHDOG)
if l_res[-1] != "0":
l_msg = "IPMI: Reset Watchdog command failed"
raise OpTestError(l_msg)
time.sleep(10)
# Reset watchdog should create a SEL event log
l_res = self.cv_IPMI.ipmitool_execute_command(BMC_CONST.IPMI_LIST_LAST_SEL_EVENT)
if "Watchdog" not in l_res:
l_msg = "IPMI: Reset Watchdog command, doesn't create an SEL event"
raise OpTestError(l_msg)
# 28. [App] Get ACPI Power State (0x06)
print "Testing Get ACPI Power State"
l_res = self.cv_IPMI.run_lpar_cmd_on_ipmi_console(BMC_CONST.LPAR_GET_ACPI_POWER_STATE)
if l_res[-1] != "0":
l_msg = "IPMI: Get ACPI Power State command failed"
raise OpTestError(l_msg)
class OpTestHMIHandling():
## Initialize this object
# @param i_bmcIP The IP address of the BMC
# @param i_bmcUser The userid to log into the BMC with
# @param i_bmcPasswd The password of the userid to log into the BMC with
# @param i_bmcUserIpmi The userid to issue the BMC IPMI commands with
# @param i_bmcPasswdIpmi The password of BMC IPMI userid
# @param i_ffdcDir Optional param to indicate where to write FFDC
#
# "Only required for inband tests" else Default = None
# @param i_hostIP The IP address of the Host
# @param i_hostuser The userid to log into the Host
# @param i_hostPasswd The password of the userid to log into the Host with
#
def __init__(self, i_bmcIP, i_bmcUser, i_bmcPasswd,
i_bmcUserIpmi, i_bmcPasswdIpmi, i_ffdcDir=None, i_hostip=None,
i_hostuser=None, i_hostPasswd=None):
self.cv_BMC = OpTestBMC(i_bmcIP, i_bmcUser, i_bmcPasswd, i_ffdcDir)
self.cv_IPMI = OpTestIPMI(i_bmcIP, i_bmcUserIpmi, i_bmcPasswdIpmi,
i_ffdcDir, i_hostip, i_hostuser, i_hostPasswd)
self.cv_HOST = OpTestHost(i_hostip, i_hostuser, i_hostPasswd, i_bmcIP, i_ffdcDir)
self.cv_SYSTEM = OpTestSystem(i_bmcIP, i_bmcUser, i_bmcPasswd,
i_bmcUserIpmi, i_bmcPasswdIpmi, i_ffdcDir, i_hostip,
i_hostuser, i_hostPasswd)
self.util = OpTestUtil()
##
# @brief This is a common function for all the hmi test cases. This will be executed before
# any test case starts. Basically this provides below requirements.
# 1. Validates all required host commands
# 2. It will clone skiboot source repository
# 3. Compile the necessary tools xscom-utils and gard utility to test HMI.
# 4. Get the list Of Chips and cores in the form of dictionary.
# Ex: [['00000000', ['4', '5', '6', 'c', 'd', 'e']], ['00000001', ['4', '5', '6', 'c', 'd', 'e']], ['00000010', ['4', '5', '6', 'c', 'd', 'e']]]
# 5. In-order to inject HMI errors on cpu's, cpu should be running,
# so disabling the sleep states 1 and 2 of all CPU's.
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
def test_init(self):
self.cv_SYSTEM.sys_bmc_power_on_validate_host()
# Get OS level
self.l_oslevel = self.cv_HOST.host_get_OS_Level()
# Check whether git and gcc commands are available on the host
self.cv_HOST.host_check_command("git")
self.cv_HOST.host_check_command("gcc")
# It will clone skiboot source repository
l_dir = "/tmp/skiboot"
self.cv_HOST.host_clone_skiboot_source(l_dir)
# Compile the necessary tools xscom-utils and gard utility
self.cv_HOST.host_compile_xscom_utilities(l_dir)
self.cv_HOST.host_compile_gard_utility(l_dir)
# Getting list of processor chip Id's(executing getscom -l to get chip id's)
l_res = self.cv_HOST.host_run_command("cd %s/external/xscom-utils/; ./getscom -l" % l_dir)
l_res = l_res.splitlines()
l_chips = []
for line in l_res:
matchObj = re.search("(\d{8}).*processor", line)
if matchObj:
l_chips.append(matchObj.group(1))
if not l_chips:
l_msg = "Getscom failed to list processor chip id's"
raise OpTestError(l_msg)
l_chips.sort()
print l_chips # ['00000000', '00000001', '00000010']
# Currently getting the list of active core id's with respect to each chip is by using opal msg log
# TODO: Need to identify best way to get list of cores(If Opal msg log is empty)
l_cmd = "cat /sys/firmware/opal/msglog | grep -i CHIP"
l_res = self.cv_HOST.host_run_command(l_cmd)
l_cores = {}
self.l_dic = []
l_res = l_res.splitlines()
for line in l_res:
matchObj = re.search("Chip (\d{1,2}) Core ([a-z0-9])", line)
if matchObj:
if l_cores.has_key(int(matchObj.group(1))):
(l_cores[int(matchObj.group(1))]).append(matchObj.group(2))
else:
l_cores[int(matchObj.group(1))] = list(matchObj.group(2))
if not l_cores:
l_msg = "Failed in getting core id's information from OPAL msg log"
raise OpTestError(l_msg)
print l_cores # {0: ['4', '5', '6', 'c', 'd', 'e'], 1: ['4', '5', '6', 'c', 'd', 'e'], 10: ['4', '5', '6', 'c', 'd', 'e']}
l_cores = sorted(l_cores.iteritems())
print l_cores
i=0
for tup in l_cores:
new_list = [l_chips[i], tup[1]]
self.l_dic.append(new_list)
i+=1
print self.l_dic
# self.l_dic is a list of chip id's, core id's . and is of below format
# [['00000000', ['4', '5', '6', 'c', 'd', 'e']], ['00000001', ['4', '5', '6', 'c', 'd', 'e']], ['00000010', ['4', '5', '6', 'c', 'd', 'e']]]
self.l_dir = l_dir
# In-order to inject HMI errors on cpu's, cpu should be running, so disabling the sleep states 1 and 2 of all CPU's
self.cv_HOST.host_run_command(BMC_CONST.GET_CPU_SLEEP_STATE2)
self.cv_HOST.host_run_command(BMC_CONST.GET_CPU_SLEEP_STATE1)
self.cv_HOST.host_run_command(BMC_CONST.GET_CPU_SLEEP_STATE0)
self.cv_HOST.host_run_command(BMC_CONST.DISABLE_CPU_SLEEP_STATE1)
self.cv_HOST.host_run_command(BMC_CONST.DISABLE_CPU_SLEEP_STATE2)
self.cv_HOST.host_run_command(BMC_CONST.GET_CPU_SLEEP_STATE2)
self.cv_HOST.host_run_command(BMC_CONST.GET_CPU_SLEEP_STATE1)
self.cv_HOST.host_run_command(BMC_CONST.GET_CPU_SLEEP_STATE0)
if "Ubuntu" in self.l_oslevel:
self.cv_HOST.host_run_command("service kdump-tools stop")
self.cv_HOST.host_run_command("service kdump-tools status")
else:
self.cv_HOST.host_run_command("service kdump stop")
self.cv_HOST.host_run_command("service kdump status")
##
# @brief This function is mainly used to clear hardware gard entries.
# It will perform below steps
# 1. Reboot the system(Power off/on)
# 2. Clear any Hardware gard entries
# 3. Again reboot the system, to make use of garded Hardware.
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
def clearGardEntries(self):
self.cv_SYSTEM.sys_bmc_power_on_validate_host()
# Power off and on the system.
self.cv_IPMI.ipmi_power_off()
self.cv_IPMI.ipmi_power_on()
if int(self.cv_SYSTEM.sys_ipl_wait_for_working_state()):
l_msg = "System failed to boot host OS"
raise OpTestError(l_msg)
time.sleep(BMC_CONST.HOST_BRINGUP_TIME)
# Clearing gard entries after host comes up
self.cv_HOST.host_get_OS_Level()
# It will clone skiboot source repository
l_dir = "/tmp/skiboot"
self.cv_HOST.host_clone_skiboot_source(l_dir)
# Compile the necessary tools xscom-utils and gard utility
self.cv_HOST.host_compile_xscom_utilities(l_dir)
self.cv_HOST.host_compile_gard_utility(l_dir)
l_con = self.cv_SYSTEM.sys_get_ipmi_console()
self.cv_IPMI.ipmi_host_login(l_con)
self.cv_IPMI.ipmi_host_set_unique_prompt(l_con)
self.cv_IPMI.run_host_cmd_on_ipmi_console("uname -a")
l_dir = "/tmp/skiboot"
self.cv_IPMI.run_host_cmd_on_ipmi_console("cd %s/external/gard/;" % l_dir)
l_cmd = "./gard list; echo $?"
self.cv_IPMI.run_host_cmd_on_ipmi_console(l_cmd)
l_cmd = "./gard clear all; echo $?"
l_res = self.cv_IPMI.run_host_cmd_on_ipmi_console(l_cmd)
if int(l_res[-1]):
l_msg = "Clearing gard entries through gard tool is failed"
raise OpTestError(l_msg)
l_cmd = "./gard list; echo $?"
self.cv_IPMI.run_host_cmd_on_ipmi_console(l_cmd)
# Rebooting the system again to make use of garded hardware
self.cv_IPMI.ipmi_power_off()
self.cv_IPMI.ipmi_power_on()
if int(self.cv_SYSTEM.sys_ipl_wait_for_working_state()):
l_msg = "System failed to boot host OS"
raise OpTestError(l_msg)
time.sleep(BMC_CONST.HOST_BRINGUP_TIME)
self.cv_HOST.host_get_OS_Level()
self.cv_SYSTEM.sys_ipmi_close_console(l_con)
##
# @brief This function executes HMI test case based on the i_test value, Before test starts
# disabling kdump service to make sure system reboots, after injecting non-recoverable errors.
#
# @param i_test @type int: this is the type of test case want to execute
# BMC_CONST.HMI_PROC_RECV_DONE: Processor recovery done
# BMC_CONST.HMI_PROC_RECV_ERROR_MASKED: proc_recv_error_masked
# BMC_CONST.HMI_MALFUNCTION_ALERT: malfunction_alert
# BMC_CONST.HMI_HYPERVISOR_RESOURCE_ERROR: hypervisor resource error
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
def testHMIHandling(self, i_test):
l_test = i_test
self.test_init()
l_con = self.cv_SYSTEM.sys_get_ipmi_console()
self.cv_IPMI.ipmi_host_login(l_con)
self.cv_IPMI.ipmi_host_set_unique_prompt(l_con)
self.cv_IPMI.run_host_cmd_on_ipmi_console("uname -a")
self.cv_IPMI.run_host_cmd_on_ipmi_console("cat /etc/os-release")
self.cv_IPMI.run_host_cmd_on_ipmi_console("cd %s/external/xscom-utils/;" % self.l_dir)
self.cv_IPMI.run_host_cmd_on_ipmi_console("lscpu")
self.cv_IPMI.run_host_cmd_on_ipmi_console("dmesg -D")
if l_test == BMC_CONST.HMI_PROC_RECV_DONE:
self.test_proc_recv_done()
elif l_test == BMC_CONST.HMI_PROC_RECV_ERROR_MASKED:
self.test_proc_recv_error_masked()
elif l_test == BMC_CONST.HMI_MALFUNCTION_ALERT:
self.test_malfunction_allert()
elif l_test == BMC_CONST.HMI_HYPERVISOR_RESOURCE_ERROR:
self.test_hyp_resource_err()
elif l_test == BMC_CONST.TOD_ERRORS:
# TOD Error recovery works on systems having more than one chip TOD
# Skip this test on single chip systems(as recovery fails on 1S systems)
if len(self.l_dic) == 1:
l_msg = "This is a single chip system, TOD Error recovery won't work"
print l_msg
return BMC_CONST.FW_SUCCESS
elif len(self.l_dic) > 1:
self.test_tod_errors(BMC_CONST.PSS_HAMMING_DISTANCE)
self.test_tod_errors(BMC_CONST.INTERNAL_PATH_OR_PARITY_ERROR)
self.test_tod_errors(BMC_CONST.TOD_DATA_PARITY_ERROR)
self.test_tod_errors(BMC_CONST.TOD_SYNC_CHECK_ERROR)
self.test_tod_errors(BMC_CONST.FSM_STATE_PARITY_ERROR)
self.test_tod_errors(BMC_CONST.MASTER_PATH_CONTROL_REGISTER)
self.test_tod_errors(BMC_CONST.PORT_0_PRIMARY_CONFIGURATION_REGISTER)
self.test_tod_errors(BMC_CONST.PORT_1_PRIMARY_CONFIGURATION_REGISTER)
self.test_tod_errors(BMC_CONST.PORT_0_SECONDARY_CONFIGURATION_REGISTER)
self.test_tod_errors(BMC_CONST.PORT_1_SECONDARY_CONFIGURATION_REGISTER)
self.test_tod_errors(BMC_CONST.SLAVE_PATH_CONTROL_REGISTER)
self.test_tod_errors(BMC_CONST.INTERNAL_PATH_CONTROL_REGISTER)
self.test_tod_errors(BMC_CONST.PR_SC_MS_SL_CONTROL_REGISTER)
else:
l_msg = "Getting Chip information failed"
raise OpTestError(l_msg)
elif l_test == BMC_CONST.TFMR_ERRORS:
self.testTFMR_Errors(BMC_CONST.TB_PARITY_ERROR)
self.testTFMR_Errors(BMC_CONST.TFMR_PARITY_ERROR)
self.testTFMR_Errors(BMC_CONST.TFMR_HDEC_PARITY_ERROR)
self.testTFMR_Errors(BMC_CONST.TFMR_DEC_PARITY_ERROR)
self.testTFMR_Errors(BMC_CONST.TFMR_PURR_PARITY_ERROR)
self.testTFMR_Errors(BMC_CONST.TFMR_SPURR_PARITY_ERROR)
else:
l_msg = "Please provide valid test case"
raise OpTestError(l_msg)
self.cv_SYSTEM.sys_ipmi_close_console(l_con)
print "Gathering the OPAL msg logs"
self.cv_HOST.host_gather_opal_msg_log()
return BMC_CONST.FW_SUCCESS
##
# @brief This function is used to test HMI: processor recovery done
# and also this function injecting error on all the cpus one by one and
# verify whether cpu is recovered or not.
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
def test_proc_recv_done(self):
for l_pair in self.l_dic:
l_chip = l_pair[0]
for l_core in l_pair[1]:
l_reg = "1%s013100" % l_core
l_cmd = "./putscom -c %s %s 0000000000100000; echo $?" % (l_chip, l_reg)
self.cv_IPMI.run_host_cmd_on_ipmi_console("dmesg -C")
time.sleep(10)
l_res = self.cv_IPMI.run_host_cmd_on_ipmi_console(l_cmd)
time.sleep(10)
if l_res[-1] == "0":
print "Injected thread hang recoverable error"
elif l_res[-1] == "1":
# putscom returns -5 when it is trying to read from write only access register,
# In these cases we should not exit and we will contiue with other error injetions
continue
else:
if any("Kernel panic - not syncing" in line for line in l_res):
l_msg = "Processor recovery failed: Kernel got panic"
elif any("Petitboot" in line for line in l_res):
l_msg = "System reached petitboot:Processor recovery failed"
elif any("ISTEP" in line for line in l_res):
l_msg = "System started booting: Processor recovery failed"
else:
l_msg = "Failed to inject thread hang recoverable error"
print l_msg
raise OpTestError(l_msg)
l_res = self.cv_IPMI.run_host_cmd_on_ipmi_console("dmesg")
if any("Processor Recovery done" in line for line in l_res) and \
any("Harmless Hypervisor Maintenance interrupt [Recovered]" in line for line in l_res):
print "Processor recovery done"
else:
l_msg = "HMI handling failed to log message: for proc_recv_done"
raise OpTestError(l_msg)
time.sleep(BMC_CONST.HMI_TEST_CASE_SLEEP_TIME)
return BMC_CONST.FW_SUCCESS
##
# @brief This function is used to test HMI: proc_recv_error_masked
# Processor went through recovery for an error which is actually masked for reporting
# this function also injecting the error on all the cpu's one-by-one.
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
def test_proc_recv_error_masked(self):
for l_pair in self.l_dic:
l_chip = l_pair[0]
for l_core in l_pair[1]:
l_reg = "1%s013100" % l_core
l_cmd = "./putscom -c %s %s 0000000000080000; echo $?" % (l_chip, l_reg)
self.cv_IPMI.run_host_cmd_on_ipmi_console("dmesg -C")
time.sleep(10)
l_res = self.cv_IPMI.run_host_cmd_on_ipmi_console(l_cmd)
time.sleep(10)
if l_res[-1] == "0":
print "Injected thread hang recoverable error"
elif l_res[-1] == "1":
continue
else:
if any("Kernel panic - not syncing" in line for line in l_res):
l_msg = "Processor recovery failed: Kernel got panic"
elif any("Petitboot" in line for line in l_res):
l_msg = "System reached petitboot:Processor recovery failed"
elif any("ISTEP" in line for line in l_res):
l_msg = "System started booting: Processor recovery failed"
else:
l_msg = "Failed to inject thread hang recoverable error"
print l_msg
raise OpTestError(l_msg)
l_res = self.cv_IPMI.run_host_cmd_on_ipmi_console("dmesg")
if any("Processor Recovery done" in line for line in l_res) and \
any("Harmless Hypervisor Maintenance interrupt [Recovered]" in line for line in l_res):
print "Processor recovery done"
else:
l_msg = "HMI handling failed to log message"
raise OpTestError(l_msg)
time.sleep(BMC_CONST.HMI_TEST_CASE_SLEEP_TIME)
return BMC_CONST.FW_SUCCESS
##
# @brief This function is used to test hmi malfunction alert:Core checkstop
# A processor core in the system has to be checkstopped (failed recovery).
# Injecting core checkstop on random core of random chip
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
def test_malfunction_allert(self):
# Get random pair of chip vs cores
l_pair = random.choice(self.l_dic)
# Get random chip id
l_chip = l_pair[0]
# Get random core number
l_core = random.choice(l_pair[1])
l_reg = "1%s013100" % l_core
l_cmd = "./putscom -c %s %s 1000000000000000" % (l_chip, l_reg)
l_res = self.cv_IPMI.run_host_cmd_on_ipmi_console(l_cmd)
if any("Kernel panic - not syncing" in line for line in l_res):
print "Malfunction alert: kernel got panic"
elif any("login:"******"System booted to host OS without any kernel panic message"
elif any("Petitboot" in line for line in l_res):
print "System reached petitboot without any kernel panic message"
elif any("ISTEP" in line for line in l_res):
print "System started booting without any kernel panic message"
else:
l_msg = "HMI: Malfunction alert failed"
raise OpTestError(l_msg)
return BMC_CONST.FW_SUCCESS
##
# @brief This function is used to test HMI: Hypervisor resource error
# Injecting Hypervisor resource error on random core of random chip
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
def test_hyp_resource_err(self):
# Get random pair of chip vs cores
l_pair = random.choice(self.l_dic)
# Get random chip id
l_chip = l_pair[0]
# Get random core number
l_core = random.choice(l_pair[1])
l_reg = "1%s013100" % l_core
l_cmd = "./putscom -c %s %s 0000000000008000" % (l_chip, l_reg)
l_res = self.cv_IPMI.run_host_cmd_on_ipmi_console(l_cmd)
if any("Kernel panic - not syncing" in line for line in l_res) and \
any("Hypervisor Resource error - core check stop" in line for line in l_res):
print "Hypervisor resource error: kernel got panic"
elif any("login:"******"System booted to host OS without any kernel panic message"
elif any("Petitboot" in line for line in l_res):
print "System reached petitboot without any kernel panic message"
elif any("ISTEP" in line for line in l_res):
print "System started booting without any kernel panic message"
else:
l_msg = "HMI: Hypervisor resource error failed"
raise OpTestError(l_msg)
return BMC_CONST.FW_SUCCESS
##
# @brief This function tests timer facility related error injections and check
# the corresponding error got recovered. And this process is repeated
# for all the active cores in all the chips.
#
# @param i_error @type string: this is the type of error want to inject
# BMC_CONST.TB_PARITY_ERROR
# BMC_CONST.TFMR_PARITY_ERROR
# BMC_CONST.TFMR_HDEC_PARITY_ERROR
# BMC_CONST.TFMR_DEC_PARITY_ERROR
# BMC_CONST.TFMR_PURR_PARITY_ERROR
# BMC_CONST.TFMR_SPURR_PARITY_ERROR
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
def testTFMR_Errors(self, i_error):
l_error = i_error
for l_pair in self.l_dic:
l_chip = l_pair[0]
for l_core in l_pair[1]:
l_reg = "1%s013281" % l_core
l_cmd = "./putscom -c %s %s %s;echo $?" % (l_chip, l_reg, l_error)
self.cv_IPMI.run_host_cmd_on_ipmi_console("dmesg -C")
l_res = self.cv_IPMI.run_host_cmd_on_ipmi_console(l_cmd)
time.sleep(10)
if l_res[-1] == "0":
print "Injected TFMR error %s" % l_error
elif l_res[-1] == "1":
continue
else:
if any("Kernel panic - not syncing" in line for line in l_res):
l_msg = "TFMR error injection: Kernel got panic"
elif any("Petitboot" in line for line in l_res):
l_msg = "System reached petitboot:TFMR error injection recovery failed"
elif any("ISTEP" in line for line in l_res):
l_msg = "System started booting: TFMR error injection recovery failed"
else:
l_msg = "Failed to inject TFMR error %s " % l_error
print l_msg
raise OpTestError(l_msg)
l_res = self.cv_IPMI.run_host_cmd_on_ipmi_console("dmesg")
if any("Timer facility experienced an error" in line for line in l_res) and \
any("Severe Hypervisor Maintenance interrupt [Recovered]" in line for line in l_res):
print "Timer facility experienced an error and got recovered"
else:
l_msg = "HMI handling failed to log message"
raise OpTestError(l_msg)
time.sleep(BMC_CONST.HMI_TEST_CASE_SLEEP_TIME)
return BMC_CONST.FW_SUCCESS
##
# @brief This function tests chip TOD related error injections and check
# the corresponding error got recovered. And this error injection
# happening on a random chip. This tod errors should test on systems
# having more than one processor socket(chip). On single chip system
# TOD error recovery won't work.
#
# @param i_error @type string: this is the type of error want to inject
# These errors represented in common/OpTestConstants.py file.
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
def test_tod_errors(self, i_error):
l_error = i_error
l_pair = random.choice(self.l_dic)
# Get random chip id
l_chip = l_pair[0]
l_cmd = "./putscom -c %s %s %s;echo $?" % (l_chip, BMC_CONST.TOD_ERROR_REG, l_error)
self.cv_IPMI.run_host_cmd_on_ipmi_console("dmesg -C")
l_res = self.cv_IPMI.run_host_cmd_on_ipmi_console(l_cmd)
time.sleep(10)
# As of now putscom command to TOD register will fail with return code -1.
# putscom indirectly call getscom to read the value again.
# But getscom to TOD error reg there is no access
# TOD Error reg has only WO access and there is no read access
if l_res[-1] == "1":
print "Injected TOD error %s" % l_error
else:
if any("Kernel panic - not syncing" in line for line in l_res):
print "TOD ERROR Injection-kernel got panic"
elif any("login:"******"System booted to host OS without any kernel panic message"
elif any("Petitboot" in line for line in l_res):
print "System reached petitboot without any kernel panic message"
elif any("ISTEP" in line for line in l_res):
print "System started booting without any kernel panic message"
else:
l_msg = "TOD: PSS Hamming distance error injection failed"
raise OpTestError(l_msg)
l_res = self.cv_IPMI.run_host_cmd_on_ipmi_console("dmesg")
if any("Timer facility experienced an error" in line for line in l_res) and \
any("Severe Hypervisor Maintenance interrupt [Recovered]" in line for line in l_res):
print "Timer facility experienced an error and got recovered"
else:
l_msg = "HMI handling failed to log message"
raise OpTestError(l_msg)
time.sleep(BMC_CONST.HMI_TEST_CASE_SLEEP_TIME)
return BMC_CONST.FW_SUCCESS
##
# @brief This function enables a single core
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
def host_enable_single_core(self):
self.cv_HOST.host_enable_single_core()
class OpTestOCC():
## Initialize this object
# @param i_bmcIP The IP address of the BMC
# @param i_bmcUser The userid to log into the BMC with
# @param i_bmcPasswd The password of the userid to log into the BMC with
# @param i_bmcUserIpmi The userid to issue the BMC IPMI commands with
# @param i_bmcPasswdIpmi The password of BMC IPMI userid
# @param i_ffdcDir Optional param to indicate where to write FFDC
#
# "Only required for inband tests" else Default = None
# @param i_hostIP The IP address of the HOST
# @param i_hostuser The userid to log into the HOST
# @param i_hostPasswd The password of the userid to log into the HOST with
#
def __init__(self, i_bmcIP, i_bmcUser, i_bmcPasswd,
i_bmcUserIpmi, i_bmcPasswdIpmi, i_ffdcDir=None, i_hostip=None,
i_hostuser=None, i_hostPasswd=None):
self.cv_BMC = OpTestBMC(i_bmcIP, i_bmcUser, i_bmcPasswd, i_ffdcDir)
self.cv_IPMI = OpTestIPMI(i_bmcIP, i_bmcUserIpmi, i_bmcPasswdIpmi,
i_ffdcDir, i_hostip, i_hostuser, i_hostPasswd)
self.cv_HOST = OpTestHost(i_hostip, i_hostuser, i_hostPasswd, i_bmcIP)
self.cv_SYSTEM = OpTestSystem(i_bmcIP, i_bmcUser, i_bmcPasswd,
i_bmcUserIpmi, i_bmcPasswdIpmi, i_ffdcDir, i_hostip,
i_hostuser, i_hostPasswd)
self.util = OpTestUtil()
##
# @brief This function is used to test OCC Reset funtionality in BMC based systems.
# OCC Reset reload is limited to 3 times per full power cycle.
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
def test_occ_reset_functionality(self):
self.cv_SYSTEM.sys_bmc_power_on_validate_host()
print "Performing a IPMI Power OFF Operation"
# Perform a IPMI Power OFF Operation(Immediate Shutdown)
self.cv_IPMI.ipmi_power_off()
if int(self.cv_SYSTEM.sys_wait_for_standby_state(BMC_CONST.SYSTEM_STANDBY_STATE_DELAY)) == 0:
print "System is in standby/Soft-off state"
else:
l_msg = "System failed to reach standby/Soft-off state"
raise OpTestError(l_msg)
self.cv_IPMI.ipmi_power_on()
self.cv_SYSTEM.sys_check_host_status()
if self.check_occ_status() == BMC_CONST.FW_FAILED:
l_msg = "OCC's are not in active state"
#raise OpTestError(l_msg)
print "OPAL-PRD: OCC Enable"
self.cv_HOST.host_run_command(BMC_CONST.OCC_ENABLE)
print "OPAL-PRD: OCC DISABLE"
self.cv_HOST.host_run_command(BMC_CONST.OCC_DISABLE)
print "OPAL-PRD: OCC RESET"
self.cv_HOST.host_run_command(BMC_CONST.OCC_RESET)
time.sleep(60)
if self.check_occ_status() == BMC_CONST.FW_FAILED:
l_msg = "OCC's are not in active state"
#raise OpTestError(l_msg)
print "OPAL-PRD: OCC Enable"
self.cv_HOST.host_run_command(BMC_CONST.OCC_ENABLE)
print "OPAL-PRD: OCC DISABLE"
self.cv_HOST.host_run_command(BMC_CONST.OCC_DISABLE)
print "OPAL-PRD: OCC RESET"
self.cv_HOST.host_run_command(BMC_CONST.OCC_RESET)
time.sleep(60)
if self.check_occ_status() == BMC_CONST.FW_FAILED:
l_msg = "OCC's are not in active state"
#raise OpTestError(l_msg)
print "OPAL-PRD: OCC Enable"
self.cv_HOST.host_run_command(BMC_CONST.OCC_ENABLE)
print "OPAL-PRD: OCC DISABLE"
self.cv_HOST.host_run_command(BMC_CONST.OCC_DISABLE)
print "OPAL-PRD: OCC RESET"
self.cv_HOST.host_run_command(BMC_CONST.OCC_RESET)
time.sleep(60)
if self.check_occ_status() == BMC_CONST.FW_FAILED:
l_msg = "OCC's are not in active state, rebooting the system"
print "Performing a IPMI Power OFF Operation"
# Perform a IPMI Power OFF Operation(Immediate Shutdown)
self.cv_IPMI.ipmi_power_off()
if int(self.cv_SYSTEM.sys_wait_for_standby_state(BMC_CONST.SYSTEM_STANDBY_STATE_DELAY)) == 0:
print "System is in standby/Soft-off state"
else:
l_msg = "System failed to reach standby/Soft-off state"
raise OpTestError(l_msg)
self.cv_IPMI.ipmi_power_on()
self.cv_SYSTEM.sys_check_host_status()
if self.check_occ_status() == BMC_CONST.FW_FAILED:
l_msg = "OCC's are not in active state"
raise OpTestError(l_msg)
##
# @brief This function is used to test OCC Reset funtionality in BMC based systems.
# OCC Reset reload can be done more than 3 times per full power cycle, by
# resetting OCC resetreload count.
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
def test_occ_reset_n_times(self):
self.cv_SYSTEM.sys_bmc_power_on_validate_host()
print "Performing a IPMI Power OFF Operation"
# Perform a IPMI Power OFF Operation(Immediate Shutdown)
self.cv_IPMI.ipmi_power_off()
if int(self.cv_SYSTEM.sys_wait_for_standby_state(BMC_CONST.SYSTEM_STANDBY_STATE_DELAY)) == 0:
print "System is in standby/Soft-off state"
else:
l_msg = "System failed to reach standby/Soft-off state"
raise OpTestError(l_msg)
self.cv_IPMI.ipmi_power_on()
self.cv_SYSTEM.sys_check_host_status()
if self.check_occ_status() == BMC_CONST.FW_FAILED:
l_msg = "OCC's are not in active state after rebooting"
raise OpTestError(l_msg)
for i in range(1, BMC_CONST.OCC_RESET_RELOAD_COUNT):
print "*******************OCC Reset count %d*******************" % i
print "OPAL-PRD: OCC Enable"
self.cv_HOST.host_run_command(BMC_CONST.OCC_ENABLE)
print "OPAL-PRD: OCC DISABLE"
self.cv_HOST.host_run_command(BMC_CONST.OCC_DISABLE)
print "OPAL-PRD: OCC RESET"
self.cv_HOST.host_run_command(BMC_CONST.OCC_RESET)
time.sleep(60)
if self.check_occ_status() == BMC_CONST.FW_FAILED:
l_msg = "OCC's are not in active state"
raise OpTestError(l_msg)
print "OPAL-PRD: occ query reset reload count"
self.cv_HOST.host_run_command(BMC_CONST.OCC_QUERY_RESET_COUNTS)
print "OPAL-PRD: occ reset reset/reload count"
self.cv_HOST.host_run_command(BMC_CONST.OCC_SET_RESET_RELOAD_COUNT)
print "OPAL-PRD: occ query reset reload count"
self.cv_HOST.host_run_command(BMC_CONST.OCC_QUERY_RESET_COUNTS)
print "Performing a IPMI Power OFF Operation"
# Perform a IPMI Power OFF Operation(Immediate Shutdown)
self.cv_IPMI.ipmi_power_off()
if int(self.cv_SYSTEM.sys_wait_for_standby_state(BMC_CONST.SYSTEM_STANDBY_STATE_DELAY)) == 0:
print "System is in standby/Soft-off state"
else:
l_msg = "System failed to reach standby/Soft-off state"
raise OpTestError(l_msg)
self.cv_IPMI.ipmi_power_on()
self.cv_SYSTEM.sys_check_host_status()
if self.check_occ_status() == BMC_CONST.FW_FAILED:
l_msg = "OCC's are not in active state after rebooting"
raise OpTestError(l_msg)
##
# @brief This function is used to test OCC Enable and Disable funtionality in BMC based systems.
# There is no limit for occ enable and disable, as of now doing 10 times in a loop.
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
def test_occ_enable_disable_functionality(self):
self.cv_SYSTEM.sys_bmc_power_on_validate_host()
print "Performing a IPMI Power OFF Operation"
# Perform a IPMI Power OFF Operation(Immediate Shutdown)
self.cv_IPMI.ipmi_power_off()
if int(self.cv_SYSTEM.sys_wait_for_standby_state(BMC_CONST.SYSTEM_STANDBY_STATE_DELAY)) == 0:
print "System is in standby/Soft-off state"
else:
l_msg = "System failed to reach standby/Soft-off state"
raise OpTestError(l_msg)
self.cv_IPMI.ipmi_power_on()
self.cv_SYSTEM.sys_check_host_status()
if self.check_occ_status() == BMC_CONST.FW_FAILED:
l_msg = "OCC's are not in active state"
raise OpTestError(l_msg)
for count in range(1,10):
print "OPAL-PRD: OCC Enable"
self.cv_HOST.host_run_command(BMC_CONST.OCC_ENABLE)
print "OPAL-PRD: OCC Disable"
self.cv_HOST.host_run_command(BMC_CONST.OCC_DISABLE)
time.sleep(60)
if self.check_occ_status() == BMC_CONST.FW_FAILED:
l_msg = "OCC's are not in active state"
#raise OpTestError(l_msg)
print "Performing a IPMI Power OFF Operation"
# Perform a IPMI Power OFF Operation(Immediate Shutdown)
self.cv_IPMI.ipmi_power_off()
if int(self.cv_SYSTEM.sys_wait_for_standby_state(BMC_CONST.SYSTEM_STANDBY_STATE_DELAY)) == 0:
print "System is in standby/Soft-off state"
else:
l_msg = "System failed to reach standby/Soft-off state"
raise OpTestError(l_msg)
self.cv_IPMI.ipmi_power_on()
self.cv_SYSTEM.sys_check_host_status()
if self.check_occ_status() == BMC_CONST.FW_FAILED:
l_msg = "OCC's are not in active state"
raise OpTestError(l_msg)
##
# @brief This function is used to get OCC status enable/disable.
#
# @return BMC_CONST.FW_SUCCESS - OCC's are active or
# BMC_CONST.FW_FAILED - OCC's are not in active state
#
def check_occ_status(self):
l_status = self.cv_IPMI.ipmi_get_occ_status()
print l_status
if BMC_CONST.OCC_DEVICE_ENABLED in l_status:
print "OCC's are up and active"
return BMC_CONST.FW_SUCCESS
else:
print "OCC's are not in active state"
return BMC_CONST.FW_FAILED
class OpTestIPMIReprovision():
## Initialize this object
# @param i_bmcIP The IP address of the BMC
# @param i_bmcUser The userid to log into the BMC with
# @param i_bmcPasswd The password of the userid to log into the BMC with
# @param i_bmcUserIpmi The userid to issue the BMC IPMI commands with
# @param i_bmcPasswdIpmi The password of BMC IPMI userid
# @param i_ffdcDir Optional param to indicate where to write FFDC
#
# "Only required for inband tests" else Default = None
# @param i_hostIP The IP address of the HOST
# @param i_hostUser The userid to log into the HOST
# @param i_hostPasswd The password of the userid to log into the HOST with
#
def __init__(self, i_bmcIP, i_bmcUser, i_bmcPasswd,
i_bmcUserIpmi, i_bmcPasswdIpmi, i_ffdcDir=None, i_hostIP=None,
i_hostUser=None, i_hostPasswd=None):
self.cv_BMC = OpTestBMC(i_bmcIP, i_bmcUser, i_bmcPasswd, i_ffdcDir)
self.cv_IPMI = OpTestIPMI(i_bmcIP, i_bmcUserIpmi, i_bmcPasswdIpmi,
i_ffdcDir, i_hostIP, i_hostUser, i_hostPasswd)
self.cv_HOST = OpTestHost(i_hostIP, i_hostUser, i_hostPasswd,i_bmcIP, i_ffdcDir)
self.cv_SYSTEM = OpTestSystem(i_bmcIP, i_bmcUser, i_bmcPasswd,
i_bmcUserIpmi, i_bmcPasswdIpmi, i_ffdcDir, i_hostIP,
i_hostUser, i_hostPasswd)
self.util = OpTestUtil()
self.opTestHMIHandling = OpTestHMIHandling(i_bmcIP, i_bmcUser, i_bmcPasswd,
i_bmcUserIpmi, i_bmcPasswdIpmi, i_ffdcDir, i_hostIP,
i_hostUser, i_hostPasswd)
##
# @brief This function will cover following test steps
# Testcase: NVRAM Partition-IPMI Reprovision
# 1. Update NVRAM config data with test config data
# i.e "nvram --update-config test-name=test-value"
# 2. Issue an IPMI PNOR Reprovision request command, to reset NVRAM partition to default.
# 3. Wait for PNOR Reprovision progress to complete(00).
# 4. Do a Hard reboot(Power OFF/ON) to avoid nvram cache data.
# 5. Once system booted, check for NVRAM parition whether the test config data
# got erased or not.
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
def test_nvram_ipmi_reprovision(self):
self.cv_SYSTEM.sys_bmc_power_on_validate_host()
self.cv_HOST.host_run_command("uname -a")
self.cv_HOST.host_run_command(BMC_CONST.NVRAM_PRINT_CFG)
print "IPMI_Reprovision: Updating the nvram partition with test cfg data"
self.cv_HOST.host_run_command(BMC_CONST.NVRAM_UPDATE_CONFIG_TEST_DATA)
self.cv_HOST.host_run_command(BMC_CONST.NVRAM_PRINT_CFG)
print "IPMI_Reprovision: issuing ipmi pnor reprovision request"
self.cv_SYSTEM.sys_issue_ipmi_pnor_reprovision_request()
print "IPMI_Reprovision: wait for reprovision to complete"
self.cv_SYSTEM.sys_wait_for_ipmi_pnor_reprovision_to_complete()
print "IPMI_Reprovision: gathering the opal message logs"
self.cv_HOST.host_gather_opal_msg_log()
print "IPMI_Reprovision: Performing a IPMI Power OFF Operation"
# Perform a IPMI Power OFF Operation(Immediate Shutdown)
self.cv_IPMI.ipmi_power_off()
if int(self.cv_SYSTEM.sys_wait_for_standby_state(BMC_CONST.SYSTEM_STANDBY_STATE_DELAY)) == BMC_CONST.FW_SUCCESS:
print "IPMI_Reprovision: System is in standby/Soft-off state"
else:
l_msg = "IPMI_Reprovision: System failed to reach standby/Soft-off state after pnor reprovisioning"
raise OpTestError(l_msg)
print "IPMI_Reprovision: Performing a IPMI Power ON Operation"
# Perform a IPMI Power ON Operation
self.cv_IPMI.ipmi_power_on()
self.cv_SYSTEM.sys_check_host_status()
self.util.PingFunc(self.cv_HOST.ip, BMC_CONST.PING_RETRY_POWERCYCLE)
l_res = self.cv_HOST.host_run_command(BMC_CONST.NVRAM_PRINT_CFG)
if l_res.__contains__(BMC_CONST.NVRAM_TEST_DATA):
l_msg = "NVRAM Partition - IPMI Reprovision not happening, nvram test config data still exists"
raise OpTestError(l_msg)
print "NVRAM Partition - IPMI Reprovision is done, cleared the nvram test config data"
self.cv_HOST.host_gather_opal_msg_log()
return BMC_CONST.FW_SUCCESS
##
# @brief This function will cover following test steps
# Testcase: GARD Partition-IPMI Reprovision
# 1. Inject core checkstop using existed function from OpTestHMIHandling.py
# 2. Do a Hard reboot(IPMI Power OFF/ON)
# 2. Issue an IPMI PNOR Reprovision request command, to reset GUARD partition to default.
# 3. Wait for IPMI PNOR Reprovision progress to complete(00).
# 4. Check for GUARD parition whether the existing gard records erased or not.
# 6. Reboot the system back to see system is booting fine or not.
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
def test_gard_ipmi_reprovision(self):
self.cv_SYSTEM.sys_bmc_power_on_validate_host()
print "IPMI_Reprovision: Injecting system core checkstop to guard the phyisical cpu"
self.opTestHMIHandling.testHMIHandling(BMC_CONST.HMI_MALFUNCTION_ALERT)
print "IPMI_Reprovision: Performing a IPMI Power OFF Operation"
# Perform a IPMI Power OFF Operation(Immediate Shutdown)
self.cv_IPMI.ipmi_power_off()
if int(self.cv_SYSTEM.sys_wait_for_standby_state(BMC_CONST.SYSTEM_STANDBY_STATE_DELAY)) == BMC_CONST.FW_SUCCESS:
print "IPMI_Reprovision: System is in standby/Soft-off state"
else:
l_msg = "IPMI_Reprovision: System failed to reach standby/Soft-off state"
raise OpTestError(l_msg)
print "IPMI_Reprovision: Performing a IPMI Power ON Operation"
# Perform a IPMI Power ON Operation
self.cv_IPMI.ipmi_power_on()
self.cv_SYSTEM.sys_check_host_status()
self.util.PingFunc(self.cv_HOST.ip, BMC_CONST.PING_RETRY_POWERCYCLE)
print "IPMI_Reprovision: issuing ipmi pnor reprovision request"
self.cv_SYSTEM.sys_issue_ipmi_pnor_reprovision_request()
print "IPMI_Reprovision: wait for reprovision to complete"
self.cv_SYSTEM.sys_wait_for_ipmi_pnor_reprovision_to_complete()
print "IPMI_Reprovision: gathering the opal message logs"
self.cv_HOST.host_gather_opal_msg_log()
self.cv_HOST.host_get_OS_Level()
self.cv_HOST.host_clone_skiboot_source(BMC_CONST.CLONE_SKIBOOT_DIR)
# Compile the necessary tools xscom-utils and gard utility
self.cv_HOST.host_compile_gard_utility(BMC_CONST.CLONE_SKIBOOT_DIR)
l_con = self.cv_SYSTEM.sys_get_ipmi_console()
self.cv_IPMI.ipmi_host_login(l_con)
self.cv_IPMI.ipmi_host_set_unique_prompt(l_con)
self.cv_IPMI.run_host_cmd_on_ipmi_console("uname -a")
l_res = self.cv_SYSTEM.sys_list_gard_records(BMC_CONST.GARD_TOOL_DIR)
print l_res
if BMC_CONST.NO_GARD_RECORDS in l_res:
print "GUARD Partition - IPMI Reprovision is done, cleared HW gard records"
else:
l_msg = "IPMI: Reprovision not happening, gard records are not erased"
raise OpTestError(l_msg)
print "IPMI_Reprovision: Performing a IPMI Power OFF Operation"
# Perform a IPMI Power OFF Operation(Immediate Shutdown)
self.cv_IPMI.ipmi_power_off()
if int(self.cv_SYSTEM.sys_wait_for_standby_state(BMC_CONST.SYSTEM_STANDBY_STATE_DELAY)) == BMC_CONST.FW_SUCCESS:
print "IPMI_Reprovision: System is in standby/Soft-off state"
else:
l_msg = "IPMI_Reprovision: System failed to reach standby/Soft-off state"
raise OpTestError(l_msg)
print "IPMI_Reprovision: Performing a IPMI Power ON Operation"
# Perform a IPMI Power ON Operation
self.cv_IPMI.ipmi_power_on()
self.cv_SYSTEM.sys_check_host_status()
self.util.PingFunc(self.cv_HOST.ip, BMC_CONST.PING_RETRY_POWERCYCLE)
print "IPMI_Reprovision: gathering the opal message logs"
self.cv_HOST.host_gather_opal_msg_log()
return BMC_CONST.FW_SUCCESS
class OpTestInbandUsbInterface():
## Initialize this object
# @param i_bmcIP The IP address of the BMC
# @param i_bmcUser The userid to log into the BMC with
# @param i_bmcPasswd The password of the userid to log into the BMC with
# @param i_bmcUserIpmi The userid to issue the BMC IPMI commands with
# @param i_bmcPasswdIpmi The password of BMC IPMI userid
# @param i_ffdcDir Optional param to indicate where to write FFDC
#
# "Only required for inband tests" else Default = None
# @param i_hostIP The IP address of the host
# @param i_hostUser The userid to log into the host
# @param i_hostPasswd The password of the userid to log into the HOST with
#
def __init__(self, i_bmcIP, i_bmcUser, i_bmcPasswd,
i_bmcUserIpmi, i_bmcPasswdIpmi, i_ffdcDir=None, i_hostIP=None,
i_hostUser=None, i_hostPasswd=None):
self.cv_BMC = OpTestBMC(i_bmcIP, i_bmcUser, i_bmcPasswd, i_ffdcDir)
self.cv_IPMI = OpTestIPMI(i_bmcIP, i_bmcUserIpmi, i_bmcPasswdIpmi,
i_ffdcDir)
self.cv_HOST = OpTestHost(i_hostIP, i_hostUser, i_hostPasswd, i_bmcIP)
self.cv_SYSTEM = OpTestSystem(i_bmcIP, i_bmcUser, i_bmcPasswd,
i_bmcUserIpmi, i_bmcPasswdIpmi, i_ffdcDir, i_hostIP,
i_hostUser, i_hostPasswd)
self.util = OpTestUtil()
##
# @brief This function will cover following test steps
# 1. It will get the OS level installed on powernv platform
# 2. It will check for kernel version installed on the Open Power Machine
# 3. It will check for ipmitool command existence and ipmitool package
# 4. Checking Inband ipmitool command functionality with different options
# using ipmitool usb interface.
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
def test_ipmi_inband_usb_interface(self):
self.cv_SYSTEM.sys_bmc_power_on_validate_host()
# Get OS level
l_oslevel = self.cv_HOST.host_get_OS_Level()
# Get kernel version
l_kernel = self.cv_HOST.host_get_kernel_version()
# Checking for ipmitool command and lm_sensors package
self.cv_HOST.host_check_command("ipmitool")
l_pkg = self.cv_HOST.host_check_pkg_for_utility(l_oslevel, "ipmitool")
print "Installed package: %s" % l_pkg
# loading below ipmi modules based on config option
# ipmi_devintf, ipmi_powernv and ipmi_masghandler
self.cv_HOST.host_load_module_based_on_config(l_kernel, BMC_CONST.CONFIG_IPMI_DEVICE_INTERFACE,
BMC_CONST.IPMI_DEV_INTF)
self.cv_HOST.host_load_module_based_on_config(l_kernel, BMC_CONST.CONFIG_IPMI_POWERNV,
BMC_CONST.IPMI_POWERNV)
self.cv_HOST.host_load_module_based_on_config(l_kernel, BMC_CONST.CONFIG_IPMI_HANDLER,
BMC_CONST.IPMI_MSG_HANDLER)
fail_count = 0
test_cases = [self.test_chassis, self.test_chassis_identifytests,
self.test_chassis_bootdev, self.test_channel,
self.test_Info, self.test_sdr_list_by_type,
self.test_sdr_elist_by_type, self.test_sdr_type_list,
self.test_sdr_get_id, self.test_fru_print, self.test_fru_read,
self.test_sel_info, self.test_sel_list,
self.test_sel_elist, self.test_sel_time_get,
self.test_sel_set_time, self.test_sel_list_first_3_entries,
self.test_sel_list_last_3_entries, self.test_sel_get_functionality,
self.test_sel_clear_functionality, self.test_mc,
self.test_sensor_list,self.test_sensor_get_host_status,
self.test_sensor_get_os_boot, self.test_sensor_get_occ_active,
self.test_dcmi, self.test_echo, self.test_event,
self.test_firewall, self.test_pef, self.test_raw,
self.test_exec]
for test in test_cases:
try:
print "In-band IPMI[USB]: test case %s" % test
test(self)
except:
print "Test Fail: %s failed" % test
fail_count += 1
print sys.exc_info()
continue
print "Inband IPMI[USB]: Test case failure count %s" % fail_count
##
# @brief It will execute and test the return code of ipmi command.
#
# @param i_cmd @type string:The ipmitool command, for example: ipmitool -I usb chassis status; echo $?
#
# @return l_res @type list: output of command or raise OpTestError
#
def run_ipmi_cmd_on_host(self, i_cmd):
l_cmd = i_cmd
print l_cmd
l_res = self.cv_HOST.host_run_command(l_cmd)
l_res = l_res.splitlines()
if int(l_res[-1]):
l_msg = "IPMI: command failed %c" % l_cmd
raise OpTestError(l_msg)
return l_res
##
# @brief It will execute and test the ipmitool -I usb chassis <cmd> commands
# cmd: status, poh, restart_cause, policy list and policy set
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_chassis(self):
print "Inband IPMI[USB]: Chassis tests"
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB + BMC_CONST.IPMI_CHASSIS_POH)
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB + BMC_CONST.IPMI_CHASSIS_RESTART_CAUSE)
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB + BMC_CONST.IPMI_CHASSIS_POLICY_LIST)
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB + BMC_CONST.IPMI_CHASSIS_POLICY_ALWAYS_OFF)
##
# @brief It will execute and test the ipmi chassis identify commands
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_chassis_identifytests(self):
print "Inband IPMI[USB]: Chassis Identify tests"
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB + BMC_CONST.IPMI_CHASSIS_IDENTIFY)
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB + BMC_CONST.IPMI_CHASSIS_IDENTIFY_5)
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB + BMC_CONST.IPMI_CHASSIS_IDENTIFY)
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB + BMC_CONST.IPMI_CHASSIS_IDENTIFY_FORCE)
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB + BMC_CONST.IPMI_CHASSIS_IDENTIFY)
##
# @brief It will execute and test the functionality of ipmi chassis bootdev <dev>
# dev: none,pxe,cdrom,disk,bios,safe,diag,floppy and none.
#
# @return BMC_CONST.FW_SUCCESS on success or raise OpTestError
#
@staticmethod
def test_chassis_bootdev(self):
print "Inband IPMI[USB]: Chassis Bootdevice tests"
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB + BMC_CONST.IPMI_CHASSIS_BOOTDEV_NONE)
self.verify_bootdev("none")
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB + BMC_CONST.IPMI_CHASSIS_BOOTDEV_PXE)
self.verify_bootdev("pxe")
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB + BMC_CONST.IPMI_CHASSIS_BOOTDEV_CDROM)
self.verify_bootdev("cdrom")
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB + BMC_CONST.IPMI_CHASSIS_BOOTDEV_DISK)
self.verify_bootdev("disk")
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB + BMC_CONST.IPMI_CHASSIS_BOOTDEV_BIOS)
self.verify_bootdev("bios")
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB + BMC_CONST.IPMI_CHASSIS_BOOTDEV_SAFE)
self.verify_bootdev("safe")
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB + BMC_CONST.IPMI_CHASSIS_BOOTDEV_DIAG)
self.verify_bootdev("diag")
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB + BMC_CONST.IPMI_CHASSIS_BOOTDEV_FLOPPY)
self.verify_bootdev("floppy")
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB + BMC_CONST.IPMI_CHASSIS_BOOTDEV_NONE)
self.verify_bootdev("none")
##
# @brief It will verify whether setting of given bootdevice is honoured or not
# by reading chassis bootparam get 5
#
# @param i_dev @type string: boot device name: Ex safe, disk and cdrom
#
# @return BMC_CONST.FW_SUCCESS on success or raise OpTestError
#
def verify_bootdev(self, i_dev):
l_res = self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB + BMC_CONST.IPMI_CHASSIS_BOOTPARAM_GET_5)
if i_dev == "safe":
l_msg = "Force Boot from default Hard-Drive, request Safe-Mode"
elif i_dev == "disk":
l_msg = "Force Boot from default Hard-Drive"
elif i_dev == "diag":
l_msg = "Force Boot from Diagnostic Partition"
elif i_dev == "bios":
l_msg = "Force Boot into BIOS Setup"
elif i_dev == "pxe":
l_msg = "Force PXE"
elif i_dev == "cdrom":
l_msg = "Force Boot from CD/DVD"
elif i_dev == "none":
l_msg = "No override"
elif i_dev == "floppy":
l_msg = "Force Boot from Floppy/primary removable media"
else:
print "pass proper bootdevice"
for l_line in l_res:
if l_line.__contains__(l_msg):
print "Verifying bootdev is successfull for %s" % i_dev
return BMC_CONST.FW_SUCCESS
else:
l_msg = "Boot device is not set to %s" % i_dev
raise OpTestError(l_msg)
##
# @brief It will check basic channel functionalities: info and authentication capabilities.
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_channel(self):
print "Inband IPMI[USB]: Channel tests"
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB + BMC_CONST.IPMI_CHANNEL_AUTHCAP)
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB + BMC_CONST.IPMI_CHANNEL_INFO)
##
# @brief It will execute and test the ipmi <sdr/sel/mc/channel> info related commands.
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_Info(self):
print "Inband IPMI[USB]: Info tests"
#self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB + BMC_CONST.IPMI_CHANNEL_INFO)
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB + BMC_CONST.IPMI_MC_INFO)
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB + BMC_CONST.IPMI_SEL_INFO)
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB + BMC_CONST.IPMI_SDR_INFO)
##
# @brief It will execute and test the ipmi sdr list <all/fru/event/mcloc/compact/full/generic>
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_sdr_list_by_type(self):
print "Inband IPMI[USB]: SDR list tests"
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB + BMC_CONST.IPMI_SDR_LIST)
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB + BMC_CONST.IPMI_SDR_LIST_ALL)
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB + BMC_CONST.IPMI_SDR_LIST_FRU)
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB + BMC_CONST.IPMI_SDR_LIST_EVENT)
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB + BMC_CONST.IPMI_SDR_LIST_MCLOC)
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB + BMC_CONST.IPMI_SDR_LIST_COMPACT)
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB + BMC_CONST.IPMI_SDR_LIST_FULL)
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB + BMC_CONST.IPMI_SDR_LIST_GENERIC)
##
# @brief It will execute and test the ipmi sdr elist <all/fru/event/mcloc/compact/full/generic>
# commands
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_sdr_elist_by_type(self):
print "Inband IPMI[USB]: SDR elist tests"
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB + BMC_CONST.IPMI_SDR_ELIST)
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB + BMC_CONST.IPMI_SDR_ELIST_ALL)
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB + BMC_CONST.IPMI_SDR_ELIST_FRU)
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB + BMC_CONST.IPMI_SDR_ELIST_EVENT)
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB + BMC_CONST.IPMI_SDR_ELIST_MCLOC)
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB + BMC_CONST.IPMI_SDR_ELIST_COMPACT)
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB + BMC_CONST.IPMI_SDR_ELIST_FULL)
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB + BMC_CONST.IPMI_SDR_ELIST_GENERIC)
##
# @brief It will execute and test the ipmi sdr type <Temp/fan/Powersupply> commands
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_sdr_type_list(self):
print "Inband IPMI[USB]: SDR type list tests"
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB + BMC_CONST.IPMI_SDR_TYPE_LIST)
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB + BMC_CONST.IPMI_SDR_TYPE_TEMPERATURE)
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB + BMC_CONST.IPMI_SDR_TYPE_FAN)
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB + BMC_CONST.IPMI_SDR_TYPE_POWER_SUPPLY)
##
# @brief It will execute and test the ipmi sdr get <sensor-id> command
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_sdr_get_id(self):
print "Inband IPMI[USB]: SDR get tests"
l_cmd = BMC_CONST.IPMITOOL_USB + BMC_CONST.IPMI_SDR_GET_WATCHDOG + "; echo $?"
self.run_ipmi_cmd_on_host(l_cmd)
##
# @brief It will execute and test the ipmi fru print command.
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_fru_print(self):
print "Inband IPMI[USB]: FRU Print Test"
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB + BMC_CONST.IPMI_FRU_PRINT)
##
# @brief It will execute and test the ipmi fru read command.
# then the output file is displayed by hexdump
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_fru_read(self):
print "Inband IPMI[USB]: FRU Read Test"
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB + "fru read 0 /tmp/file_fru; echo $?")
l_res = self.cv_HOST.host_run_command("hexdump -C /tmp/file_fru; echo $?")
# TODO: Check for file output
##
# @brief It will execute and test the management controller(mc) commands functionality
# info-Displays information about the BMC hardware, including device revision,
# firmware revision, IPMI version supported, manufacturer ID, and information
# on additional device support
# watchdog get-Show current Watchdog Timer settings and countdown state.
# watchdog off-Turn off a currently running Watchdog countdown timer.
# watchdog reset-Reset the Watchdog Timer to its most recent state and restart the countdown timer.
# selftest- Check on the basic health of the BMC by executing the
# Get Self Test results command and report the results.
# setenables-Enables or disables the given option
# getenables-Displays a list of the currently enabled options for the BMC.
# getsysinfo-Retrieves system info from bmc for given argument
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_mc(self):
print "Inband IPMI[USB]: MC tests"
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB + BMC_CONST.IPMI_MC_INFO)
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB + BMC_CONST.IPMI_MC_WATCHDOG_GET)
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB + BMC_CONST.IPMI_MC_SELFTEST)
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB + BMC_CONST.IPMI_MC_SELFTEST)
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB + BMC_CONST.IPMI_MC_SETENABLES_OEM_0_OFF)
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB + BMC_CONST.IPMI_MC_GETENABLES)
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB + BMC_CONST.IPMI_MC_SETENABLES_OEM_0_ON)
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB + BMC_CONST.IPMI_MC_GETENABLES)
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB + BMC_CONST.IPMI_MC_WATCHDOG_OFF)
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB + BMC_CONST.IPMI_MC_WATCHDOG_RESET)
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB + BMC_CONST.IPMI_MC_GETSYS_INFO)
##
# @brief It will execute and test the ipmi sel info functionality
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_sel_info(self):
print "Inband IPMI[USB]: SEL Info test"
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB + BMC_CONST.IPMI_SEL_INFO)
##
# @brief It will execute and test ipmi sel list functionality.
# the entire contents of the System Event Log are displayed.
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_sel_list(self):
print "Inband IPMI[USB]: SEL List test"
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB + BMC_CONST.IPMI_SEL_LIST)
##
# @brief It will execute and test the ipmi sel elist functionality
# If invoked as elist (extended list) it will also use the
# Sensor Data Record entries to display the sensor ID for
# the sensor that caused each event.
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_sel_elist(self):
print "Inband IPMI[USB]: SEL elist test"
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB + BMC_CONST.IPMI_SEL_ELIST)
##
# @brief It will execute and test the ipmi sel time get functionality
# Displays the SEL clock's current time.
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_sel_time_get(self):
print "Inband IPMI[USB]: SEL Time get test"
l_res = self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB + BMC_CONST.IPMI_SEL_TIME_GET)
return l_res
##
# @brief It will execute and test the ipmi sel set <time string> functionality
# Sets the SEL clock. Future SEL entries will use the time set by this command.
#
# @param i_time @type string: the value to be set as a sel time
# <time string> is of the form "MM/DD/YYYY HH:MM:SS"
#
# @return l_res @type list: output of command or raise OpTestError
#
def test_sel_time_set(self, i_time):
print "Inband IPMI[USB]: SEL Time set test"
l_cmd = "sel time set \'%s\'; echo $?" % i_time
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB + l_cmd)
##
# @brief It will execute and test the ipmi sel list first <n entries>
#
# @param i_num @type string:The num of entries of sel to be listed
#
# @return l_res @type list: output of command or raise OpTestError
#
def test_sel_list_first_n_entries(self, i_num):
l_cmd = "sel list first %i; echo $?" % int(i_num)
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB + l_cmd)
##
# @brief It will execute and test the ipmi sel list last <n entries>
#
# @param i_num @type string:The num of entries of sel to be listed
#
# @return l_res @type list: output of command or raise OpTestError
#
def test_sel_list_last_n_entries(self, i_num):
l_cmd = "sel list last %i; echo $?" % int(i_num)
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB + l_cmd)
##
# @brief It will execute and test the ipmi sel get <id> functionality
#
# @param i_sel_id @type string: for example 0x05, 0x06..
#
# @return l_res @type list: output of command or raise OpTestError
#
def test_sel_get_byid(self, i_sel_id):
l_cmd = "sel get %s; echo $?" % i_sel_id
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB + l_cmd)
##
# @brief It will execute the ipmi sel clear command
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_sel_clear(self):
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB + BMC_CONST.IPMI_SEL_CLEAR)
##
# @brief It will execute and test the ipmi sel get <id> functionality
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_sel_get_functionality(self):
l_res = self.cv_HOST.host_run_command(BMC_CONST.IPMITOOL_USB + "sel list first 3 | awk '{print $1}'")
if l_res.__contains__("SEL has no entries"):
print "IPMI: There are no sel entries to fetch"
pass
else:
l_list = l_res.splitlines()
del l_list[0]
for l in l_list:
l_id = "0x" + l
self.test_sel_get_byid(l_id)
##
# @brief It will execute and test the ipmi sel clear functionality
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_sel_clear_functionality(self):
self.test_sel_clear(self)
l_res = self.cv_HOST.host_run_command("ipmitool -I usb sel list; echo $?")
l_list = l_res.splitlines()
for l_line in l_list:
if l_line.__contains__("SEL has no entries"):
print "Sel clear function got cleared event entries"
break
else:
l_msg = "Inband IPMI[USB]: sel clear function failing in clearing entries"
print l_msg
raise OpTestError(l_msg)
##
# @brief It will execute and test the ipmi sensor list functionality
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_sensor_list(self):
print "Inband IPMI[USB]: Sensor tests"
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB + BMC_CONST.IPMI_SENSOR_LIST)
##
# @brief It will execute and test the ipmi sensor get <id> functionality
#
# @param i_sensor @type string:sensor id to retrieve the data
#
# @return l_res @type list: output of command or raise OpTestError
#
def test_sensor_byid(self, i_sensor):
l_cmd = BMC_CONST.IPMITOOL_USB + "sensor get \"%s\"; echo $?" % i_sensor
self.run_ipmi_cmd_on_host(l_cmd)
##
# @brief It will execute and test the dcmi related ipmi commands.
# discover-This command is used to discover supported capabilities in DCMI
# Power reading-Get power related readings from the system.
# get_limit-Get the configured power limits.
# sensors-Prints the available DCMI sensors.
# get_mc_id_string-Get management controller identifier string
# get_temp_reading-Get Temperature Sensor Readings.
# get_conf_param-Get DCMI Configuration Parameters.
# oob_discover-Ping/Pong Message for DCMI Discovery
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_dcmi(self):
print "Inband IPMI[USB]: dcmi tests"
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB + BMC_CONST.IPMI_DCMI_DISCOVER)
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB + BMC_CONST.IPMI_DCMI_POWER_READING)
#self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB + BMC_CONST.IPMI_DCMI_POWER_GET_LIMIT)
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB + BMC_CONST.IPMI_DCMI_SENSORS)
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB + BMC_CONST.IPMI_DCMI_GET_MC_ID_STRING)
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB + BMC_CONST.IPMI_DCMI_GET_TEMP_READING)
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB + BMC_CONST.IPMI_DCMI_GET_CONF_PARAM)
##
# @brief It will execute and test the functionality of ipmi echo command.
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_echo(self):
print "Inband IPMI[USB]: echo tests"
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB + BMC_CONST.IPMI_ECHO_DONE)
##
# @brief It will execute and test event related commands to test sel functionality.
# Send a pre-defined test event to the System Event Log. The following
# events are included as a means to test the functionality of the System
# Event Log component of the BMC (an entry will be added each time the
# event N command is executed)
# Currently supported values for N are:
# 1 Temperature: Upper Critical: Going High
# 2 Voltage Threshold: Lower Critical: Going Low
# 3 Memory: Correctable ECC
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_event(self):
print "Inband IPMI[USB]: event tests"
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB + BMC_CONST.IPMI_EVENT_1)
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB + BMC_CONST.IPMI_EVENT_2)
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB + BMC_CONST.IPMI_EVENT_3)
##
# @brief It will execute and test ipmi exec command.
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_exec(self):
print "Inband IPMI[USB]: exec tests"
pass
# TODO: need to execute ipmi commands from a file
##
# @brief It will execute and test firmware firewall info command.
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_firewall(self):
print "Inband IPMI[USB]: Firewall test"
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB + BMC_CONST.IPMI_FIREWALL_INFO)
##
# @brief It will execute and test pef related commands:
# info:This command will query the BMC and print information about the PEF supported features.
# status: This command prints the current PEF status
# policy: This command lists the PEF policy table entries
# list: This command lists the PEF table entries.
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_pef(self):
print "Inband IPMI[USB]: Pef tests"
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB + BMC_CONST.IPMI_PEF_INFO)
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB + BMC_CONST.IPMI_PEF_STATUS)
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB + BMC_CONST.IPMI_PEF_POLICY)
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB + BMC_CONST.IPMI_PEF_LIST)
##
# @brief This will test raw IPMI commands. For example to query the POH counter with a raw command
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_raw(self):
print "Inband IPMI[USB]: raw command execution tests"
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB + BMC_CONST.IPMI_RAW_POH)
##
# @brief It will execute and test the ipmi sel set <time string> functionality
# Sets the SEL clock. Future SEL entries will use the time set by this command.
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_sel_set_time(self):
l_res = self.test_sel_time_get(self)
self.test_sel_time_set(l_res[-2])
##
# @brief It will execute and test the ipmi sel list first <3 entries>
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_sel_list_first_3_entries(self):
self.test_sel_list_first_n_entries(BMC_CONST.IPMI_SEL_LIST_ENTRIES)
##
# @brief It will execute and test the ipmi sel list last <3 entries>
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_sel_list_last_3_entries(self):
self.test_sel_list_last_n_entries(BMC_CONST.IPMI_SEL_LIST_ENTRIES)
##
# @brief It will execute and test the ipmi sensor get "Host Status" functionality
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_sensor_get_host_status(self):
self.test_sensor_byid(BMC_CONST.SENSOR_HOST_STATUS)
##
# @brief It will execute and test the ipmi sensor get "OS Boot" functionality
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_sensor_get_os_boot(self):
self.test_sensor_byid(BMC_CONST.SENSOR_OS_BOOT)
##
# @brief It will execute and test the ipmi sensor get "OCC Active" functionality
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_sensor_get_occ_active(self):
self.test_sensor_byid(BMC_CONST.SENSOR_OCC_ACTIVE)
class OpTestNVRAM():
## Initialize this object
# @param i_bmcIP The IP address of the BMC
# @param i_bmcUser The userid to log into the BMC with
# @param i_bmcPasswd The password of the userid to log into the BMC with
# @param i_bmcUserIpmi The userid to issue the BMC IPMI commands with
# @param i_bmcPasswdIpmi The password of BMC IPMI userid
# @param i_ffdcDir Optional param to indicate where to write FFDC
#
# "Only required for inband tests" else Default = None
# @param i_hostIP The IP address of the HOST
# @param i_hostuser The userid to log into the HOST
# @param i_hostPasswd The password of the userid to log into the HOST with
#
def __init__(self, i_bmcIP, i_bmcUser, i_bmcPasswd,
i_bmcUserIpmi, i_bmcPasswdIpmi, i_ffdcDir=None, i_hostip=None,
i_hostuser=None, i_hostPasswd=None):
self.cv_BMC = OpTestBMC(i_bmcIP, i_bmcUser, i_bmcPasswd, i_ffdcDir)
self.cv_IPMI = OpTestIPMI(i_bmcIP, i_bmcUserIpmi, i_bmcPasswdIpmi,
i_ffdcDir, i_hostip, i_hostuser, i_hostPasswd)
self.cv_HOST = OpTestHost(i_hostip, i_hostuser, i_hostPasswd, i_bmcIP)
self.cv_SYSTEM = OpTestSystem(i_bmcIP, i_bmcUser, i_bmcPasswd,
i_bmcUserIpmi, i_bmcPasswdIpmi, i_ffdcDir, i_hostip,
i_hostuser, i_hostPasswd)
self.util = OpTestUtil()
##
# @brief This function tests nvram partition access, print/update
# the config data and dumping the partition's data. All
# these operations are done on supported partitions in both
# host OS and Petitboot.
#
# @return BMC_CONST.FW_SUCCESS or BMC_CONST.FW_FAILED
#
def test_nvram_configuration(self):
# Execute these tests in host OS
self.cv_SYSTEM.sys_bmc_power_on_validate_host()
self.cv_HOST.host_run_command("uname -a")
self.cv_HOST.host_run_command("cat /etc/os-release")
self.cv_HOST.host_run_command("nvram -v")
self.cv_HOST.host_run_command("nvram --print-config -p ibm,skiboot")
self.cv_HOST.host_run_command("nvram --print-config -p common")
self.cv_HOST.host_run_command("nvram --print-config -p lnx,oops-log")
self.cv_HOST.host_run_command("nvram --print-config -p wwwwwwwwwwww")
self.cv_HOST.host_run_command("nvram --print-vpd")
self.cv_HOST.host_run_command("nvram --print-all-vpd")
self.cv_HOST.host_run_command("nvram --print-err-log")
self.cv_HOST.host_run_command("nvram --print-event-scan")
self.cv_HOST.host_run_command("nvram --partitions")
self.cv_HOST.host_run_command("nvram --dump common")
self.cv_HOST.host_run_command("nvram --dump ibm,skiboot")
self.cv_HOST.host_run_command("nvram --dump lnx,oops-log")
self.cv_HOST.host_run_command("nvram --dump wwwwwwwwwwww")
self.cv_HOST.host_run_command("nvram --ascii common")
self.cv_HOST.host_run_command("nvram --ascii ibm,skiboot")
self.cv_HOST.host_run_command("nvram --ascii lnx,oops-log")
self.cv_HOST.host_run_command("nvram --ascii wwwwwwwwwwww")
try:
self.test_nvram_update_part_config_in_host("common")
self.test_nvram_update_part_config_in_host("ibm,skiboot")
self.test_nvram_update_part_config_in_host("lnx,oops-log")
self.test_nvram_update_part_config_in_host("wwwwwwwwwwww")
except OpTestError:
print "There is a failure in updating one of NVRAM partitions"
# Execute these tests in petitboot
self.console = self.cv_SYSTEM.sys_get_ipmi_console()
try:
self.cv_SYSTEM.sys_ipmi_boot_system_to_petitboot(self.console)
self.cv_IPMI.ipmi_host_set_unique_prompt(self.console)
self.cv_IPMI.run_host_cmd_on_ipmi_console("uname -a")
self.cv_IPMI.run_host_cmd_on_ipmi_console("cat /etc/os-release")
self.cv_IPMI.run_host_cmd_on_ipmi_console("nvram -v")
self.cv_IPMI.run_host_cmd_on_ipmi_console("nvram --print-config -p ibm,skiboot")
self.cv_IPMI.run_host_cmd_on_ipmi_console("nvram --print-config -p common")
self.cv_IPMI.run_host_cmd_on_ipmi_console("nvram --print-config -p lnx,oops-log")
self.cv_IPMI.run_host_cmd_on_ipmi_console("nvram --print-config -p wwwwwwwwwwww")
self.cv_IPMI.run_host_cmd_on_ipmi_console("nvram --print-vpd")
self.cv_IPMI.run_host_cmd_on_ipmi_console("nvram --print-all-vpd")
self.cv_IPMI.run_host_cmd_on_ipmi_console("nvram --print-err-log")
self.cv_IPMI.run_host_cmd_on_ipmi_console("nvram --print-event-scan")
self.cv_IPMI.run_host_cmd_on_ipmi_console("nvram --partitions")
self.cv_IPMI.run_host_cmd_on_ipmi_console("nvram --dump common")
self.cv_IPMI.run_host_cmd_on_ipmi_console("nvram --dump ibm,skiboot")
self.cv_IPMI.run_host_cmd_on_ipmi_console("nvram --dump lnx,oops-log")
self.cv_IPMI.run_host_cmd_on_ipmi_console("nvram --dump wwwwwwwwwwww")
self.cv_IPMI.run_host_cmd_on_ipmi_console("nvram --ascii common")
self.cv_IPMI.run_host_cmd_on_ipmi_console("nvram --ascii ibm,skiboot")
self.cv_IPMI.run_host_cmd_on_ipmi_console("nvram --ascii lnx,oops-log")
self.cv_IPMI.run_host_cmd_on_ipmi_console("nvram --ascii wwwwwwwwwwww")
try:
self.test_nvram_update_part_config_in_petitboot("common")
self.test_nvram_update_part_config_in_petitboot("ibm,skiboot")
self.test_nvram_update_part_config_in_petitboot("lnx,oops-log")
self.test_nvram_update_part_config_in_petitboot("wwwwwwwwwwww")
except OpTestError:
print "There is a failure in updating one of NVRAM partitions"
except:
self.cv_IPMI.ipmi_set_boot_to_disk()
self.cv_IPMI.ipmi_set_boot_to_disk()
##
# @brief This function tests nvram update/print config functions for partition i_part
# these functions will be tested in host OS
#
# @param i_part @type string:partition to access i.e common, ibm,skiboot etc
#
# @return l_res @type list: output of command or raise OpTestError
#
def test_nvram_update_part_config_in_host(self, i_part):
part = i_part
self.cv_HOST.host_run_command("nvram -p %s --update-config 'test-cfg=test-value'" % part)
res = self.cv_HOST.host_run_command("nvram -p %s --print-config=test-cfg" % part)
if "test-value" in res:
print "Update config to the partition %s works fine" % part
else:
msg = "failed to update nvram config into the partition %s" % part
print msg
raise OpTestError(msg)
##
# @brief This function tests nvram update/print config functions for partition i_part
# these functions will be tested in Petitboot.
#
# @param i_part @type string:partition to access i.e common, ibm,skiboot etc
#
# @return l_res @type list: output of command or raise OpTestError
#
def test_nvram_update_part_config_in_petitboot(self, i_part):
part = i_part
self.cv_IPMI.run_host_cmd_on_ipmi_console("nvram -p %s --update-config 'test-cfg=test-value'" % part)
res_list = self.cv_IPMI.run_host_cmd_on_ipmi_console("nvram -p %s --print-config=test-cfg" % part)
res = ''.join(res_list)
if "test-value" in res:
print "Update config to the partition %s works fine" % part
else:
msg = "failed to update nvram config into the partition %s" % part
print msg
raise OpTestError(msg)
def objs(self):
host = OpTestHost(self.args.host_ip,
self.args.host_user,
self.args.host_password,
self.args.bmc_ip,
self.output,
scratch_disk=self.args.host_scratch_disk,
proxy=self.args.proxy,
logfile=self.logfile,
check_ssh_keys=self.args.check_ssh_keys,
known_hosts_file=self.args.known_hosts_file)
if self.args.bmc_type in ['AMI', 'SMC']:
web = OpTestWeb(self.args.bmc_ip, self.args.bmc_usernameipmi,
self.args.bmc_passwordipmi)
bmc = None
if self.args.bmc_type in ['AMI']:
ipmi = OpTestIPMI(
self.args.bmc_ip,
self.args.bmc_usernameipmi,
self.args.bmc_passwordipmi,
host=host,
logfile=self.logfile,
)
bmc = OpTestBMC(ip=self.args.bmc_ip,
username=self.args.bmc_username,
password=self.args.bmc_password,
logfile=self.logfile,
ipmi=ipmi,
web=web,
check_ssh_keys=self.args.check_ssh_keys,
known_hosts_file=self.args.known_hosts_file)
elif self.args.bmc_type in ['SMC']:
ipmi = OpTestSMCIPMI(
self.args.bmc_ip,
self.args.bmc_usernameipmi,
self.args.bmc_passwordipmi,
logfile=self.logfile,
host=host,
)
bmc = OpTestSMC(ip=self.args.bmc_ip,
username=self.args.bmc_username,
password=self.args.bmc_password,
ipmi=ipmi,
web=web,
check_ssh_keys=self.args.check_ssh_keys,
known_hosts_file=self.args.known_hosts_file)
self.op_system = OpTestSystem(
state=self.startState,
bmc=bmc,
host=host,
)
ipmi.set_system(self.op_system)
elif self.args.bmc_type in ['FSP']:
ipmi = OpTestIPMI(self.args.bmc_ip,
self.args.bmc_usernameipmi,
self.args.bmc_passwordipmi,
host=host,
logfile=self.logfile)
bmc = OpTestFSP(
self.args.bmc_ip,
self.args.bmc_username,
self.args.bmc_password,
ipmi=ipmi,
)
self.op_system = OpTestFSPSystem(
state=self.startState,
bmc=bmc,
host=host,
)
ipmi.set_system(self.op_system)
elif self.args.bmc_type in ['OpenBMC']:
ipmi = OpTestIPMI(self.args.bmc_ip,
self.args.bmc_usernameipmi,
self.args.bmc_passwordipmi,
host=host,
logfile=self.logfile)
rest_api = HostManagement(self.args.bmc_ip, self.args.bmc_username,
self.args.bmc_password)
bmc = OpTestOpenBMC(self.args.bmc_ip,
self.args.bmc_username,
self.args.bmc_password,
logfile=self.logfile,
ipmi=ipmi,
rest_api=rest_api,
check_ssh_keys=self.args.check_ssh_keys,
known_hosts_file=self.args.known_hosts_file)
self.op_system = OpTestOpenBMCSystem(
host=host,
bmc=bmc,
state=self.startState,
)
bmc.set_system(self.op_system)
elif self.args.bmc_type in ['qemu']:
print repr(self.args)
bmc = OpTestQemu(self.args.qemu_binary,
self.args.flash_skiboot,
self.args.flash_kernel,
self.args.flash_initramfs,
cdrom=self.args.os_cdrom,
logfile=self.logfile,
hda=self.args.host_scratch_disk)
self.op_system = OpTestQemuSystem(host=host, bmc=bmc)
# Check that the bmc_type exists in our loaded addons then create our objects
elif self.args.bmc_type in optAddons:
(bmc, self.op_system) = optAddons[self.args.bmc_type].createSystem(
self, host)
else:
raise Exception("Unsupported BMC Type")
host.set_system(self.op_system)
return
class OpTestI2Cdriver():
## Initialize this object
# @param i_bmcIP The IP address of the BMC
# @param i_bmcUser The userid to log into the BMC with
# @param i_bmcPasswd The password of the userid to log into the BMC with
# @param i_bmcUserIpmi The userid to issue the BMC IPMI commands with
# @param i_bmcPasswdIpmi The password of BMC IPMI userid
# @param i_ffdcDir Optional param to indicate where to write FFDC
#
# "Only required for inband tests" else Default = None
# @param i_hostIP The IP address of the HOST
# @param i_hostuser The userid to log into the HOST
# @param i_hostPasswd The password of the userid to log into the HOST with
#
def __init__(self, i_bmcIP, i_bmcUser, i_bmcPasswd,
i_bmcUserIpmi, i_bmcPasswdIpmi, i_ffdcDir=None, i_hostip=None,
i_hostuser=None, i_hostPasswd=None):
self.cv_BMC = OpTestBMC(i_bmcIP, i_bmcUser, i_bmcPasswd, i_ffdcDir)
self.cv_IPMI = OpTestIPMI(i_bmcIP, i_bmcUserIpmi, i_bmcPasswdIpmi,
i_ffdcDir)
self.cv_HOST = OpTestHost(i_hostip, i_hostuser, i_hostPasswd, i_bmcIP)
self.cv_SYSTEM = OpTestSystem(i_bmcIP, i_bmcUser, i_bmcPasswd,
i_bmcUserIpmi, i_bmcPasswdIpmi, i_ffdcDir, i_hostip,
i_hostuser, i_hostPasswd)
self.util = OpTestUtil()
##
# @brief This function has following test steps
# 1. Getting host information(OS and kernel info)
# 2. Checking the required utilites are present on host or not
# 3. Loading the necessary modules to test I2C device driver functionalites
# (i2c_dev, i2c_opal and at24)
# 4. Getting the list of i2c buses
# 5. Querying the i2c bus for devices
# 3. Getting the list of i2c buses and eeprom chip addresses
# 4. Accessing the registers visible through the i2cbus using i2cdump utility
# 5. Listing the i2c adapter conetents and i2c bus entries to make sure sysfs entries
# created for each bus.
# 6. Testing i2cget functionality for limited samples
# Avoiding i2cset functionality, it may damage the system.
#
# @return BMC_CONST.FW_SUCCESS-success or raise OpTestError-fail
#
def testI2Cdriver(self):
self.cv_SYSTEM.sys_bmc_power_on_validate_host()
# Get OS level
self.cv_HOST.host_get_OS_Level()
# make sure install "i2c-tools" package in-order to run the test
# Check whether i2cdump, i2cdetect and hexdump commands are available on host
self.cv_HOST.host_check_command("i2cdump", "i2cdetect", "hexdump",
"i2cget", "i2cset")
# Get Kernel Version
l_kernel = self.cv_HOST.host_get_kernel_version()
# loading i2c_opal module based on config option
l_config = "CONFIG_I2C_OPAL"
l_module = "i2c_opal"
self.cv_HOST.host_load_module_based_on_config(l_kernel, l_config, l_module)
# loading i2c_dev module based on config option
l_config = "CONFIG_I2C_CHARDEV"
l_module = "i2c_dev"
self.cv_HOST.host_load_module_based_on_config(l_kernel, l_config, l_module)
# loading at24 module based on config option
l_config = "CONFIG_EEPROM_AT24"
l_module = "at24"
self.cv_HOST.host_load_module_based_on_config(l_kernel, l_config, l_module)
# Get information of EEPROM chips
self.cv_HOST.host_get_info_of_eeprom_chips()
# Get list of i2c buses available on host,
# l_list=["0","1"....]
# l_list1=["i2c-0","i2c-1","i2c-2"....]
l_list, l_list1 = self.cv_HOST.host_get_list_of_i2c_buses()
# Scanning i2c bus for devices attached to it.
for l_bus in l_list:
try:
self.query_i2c_bus(l_bus)
except OpTestI2CDetectUnsupported:
print "Unsupported i2cdetect on bus %s" % l_bus
# Get list of pairs of i2c bus and EEPROM device addresses in the host
l_chips = self.cv_HOST.host_get_list_of_eeprom_chips()
for l_args in l_chips:
# Accessing the registers visible through the i2cbus using i2cdump utility
# l_args format: "0 0x51","1 0x53",.....etc
self.i2c_dump(l_args)
# list i2c adapter conetents
l_res = self.cv_HOST.host_run_command("ls -l /sys/class/i2c-adapter; echo $?")
l_res = l_res.splitlines()
if int(l_res[-1]) == 0:
pass
else:
l_msg = "listing i2c adapter contents through the sysfs entry failed"
print l_msg
raise OpTestError(l_msg)
# Checking the sysfs entry of each i2c bus
for l_bus in l_list1:
l_res = self.cv_HOST.host_run_command("ls -l /sys/class/i2c-adapter/%s; echo $?" % l_bus)
l_res = l_res.splitlines()
if int(l_res[-1]) == 0:
pass
else:
l_msg = "listing i2c bus contents through the sysfs entry failed"
print l_msg
raise OpTestError(l_msg)
# Currently testing only getting the data from a data address, avoiding setting data.
# Only four samples are gathered to check whether reading eeprom data is working or not.
# Setting eeprom data is dangerous and make your system UNBOOTABLE
l_addrs = ["0x00", "0x10", "0x20", "0x30", "0x40", "0x50", "0x60", "0x70", "0x80", "0x90", "0xa0", "0xb0", "0xc0", "0xd0", "0xe0", "0xf0"]
for l_addr in l_addrs:
l_val = self.i2c_get(l_chips[1], l_addr)
# self.i2c_set(l_list2[1], l_addr, "0x50")
return BMC_CONST.FW_SUCCESS
##
# @brief This function query's the i2c bus for devices attached to it.
# i2cdetect is a utility to scan an I2C bus for devices
#
# @param i_bus @type string: i2c bus numer
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
def query_i2c_bus(self, i_bus):
print "Querying the i2c bus %s for devices attached to it" % i_bus
l_res = self.cv_HOST.host_run_command("i2cdetect -y %i; echo $?" % int(i_bus))
l_res = l_res.splitlines()
if int(l_res[-1]) != 0:
l_res = self.cv_HOST.host_run_command("i2cdetect -F %i|egrep '(Send|Receive) Bytes'|grep yes; echo $?" % int(i_bus))
l_res = l_res.splitlines()
if int(l_res[-1]) != 0:
print "i2c bus %i doesn't support query" % int(i_bus)
raise OpTestI2CDetectUnsupported;
else:
l_res = self.cv_HOST.host_run_command("i2cdetect -y -r %i; echo $?" % int(i_bus))
l_res = l_res.splitlines()
if int(l_res[-1]) == 0:
return BMC_CONST.FW_SUCCESS
else:
l_msg = "Querying the i2cbus for devices failed:%s" % i_bus
print l_msg
raise OpTestError(l_msg)
##
# @brief This i2cdump function takes arguments in pair of a string like "i2cbus address".
# i2cbus indicates the number or name of the I2C bus to be scanned. This number should
# correspond to one of the busses listed by i2cdetect -l. address indicates
# the address to be scanned on that bus, and is an integer between 0x03 and 0x77
# i2cdump is a program to examine registers visible through the I2C bus
#
# @param i_args @type string: this is the argument to i2cdump utility
# args are in the form of "i2c-bus-number eeprom-chip-address"
# Ex: "0 0x51","3 0x52" ....etc
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
def i2c_dump(self, i_args):
l_res = self.cv_HOST.host_run_command("i2cdump -f -y %s; echo $?" % i_args)
l_res = l_res.splitlines()
if int(l_res[-1]) == 0:
return BMC_CONST.FW_SUCCESS
else:
l_msg = "i2cdump failed for the device: %s" % i_args
print l_msg
raise OpTestError(l_msg)
##
# @brief This function i2cget read from I2C/SMBus chip registers
# command usage: i2cget [-f] [-y] i2cbus chip-address [data-address [mode]]
#
# @param i_args @type string: this is the argument to i2cget utility
# args are in the form of "i2c-bus-number eeprom-chip-address"
# Ex: "0 0x51","3 0x52" ....etc
# @param i_addr @type string: this is the data-address on chip, from where data will be read
# Ex: "0x00","0x10","0x20"...
#
# @return l_res @type string: data present on data-address or raise OpTestError
#
def i2c_get(self, i_args, i_addr):
l_res = self.cv_HOST.host_run_command("i2cget -f -y %s %s;echo $?" % (i_args, i_addr))
l_res = l_res.splitlines()
if int(l_res[-1]) == 0:
return l_res
else:
l_msg = "i2cget: Getting data from address %s failed" % i_addr
print l_msg
raise OpTestError(l_msg)
##
# @brief This function i2cset will be used for setting I2C registers
# command usage: i2cset [-f] [-y] [-m mask] [-r] i2cbus chip-address data-address [value] ... [mode]
#
# @param i_args @type string: this is the argument to i2cset utility
# args are in the form of "i2c-bus-number eeprom-chip-address"
# Ex: "0 0x51","3 0x52" ....etc
# @param i_addr @type string: this is the data-address on chip, where data will be set
# Ex: "0x00","0x10","0x20"...
# @param i_val @type string: this is the value which will be set into data-address i_addr
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
def i2c_set(self, i_args, i_addr, i_val):
l_res = self.cv_HOST.host_run_command("i2cset -f -y %s %s %s;echo $?" % (i_args, i_addr, i_val))
l_res = l_res.splitlines()
if int(l_res[-1]) == 0:
return BMC_CONST.FW_SUCCESS
else:
l_msg = "i2cset: Setting the data to a address %s failed" % i_addr
print l_msg
raise OpTestError(l_msg)
class OpTestMCColdResetEffects():
## Initialize this object
# @param i_bmcIP The IP address of the BMC
# @param i_bmcUser The userid to log into the BMC with
# @param i_bmcPasswd The password of the userid to log into the BMC with
# @param i_bmcUserIpmi The userid to issue the BMC IPMI commands with
# @param i_bmcPasswdIpmi The password of BMC IPMI userid
# @param i_ffdcDir Optional param to indicate where to write FFDC
#
# "Only required for inband tests" else Default = None
# @param i_hostIP The IP address of the HOST
# @param i_hostuser The userid to log into the HOST
# @param i_hostPasswd The password of the userid to log into the HOST with
#
def __init__(self,
i_bmcIP,
i_bmcUser,
i_bmcPasswd,
i_bmcUserIpmi,
i_bmcPasswdIpmi,
i_ffdcDir=None,
i_hostip=None,
i_hostuser=None,
i_hostPasswd=None):
self.cv_BMC = OpTestBMC(i_bmcIP, i_bmcUser, i_bmcPasswd, i_ffdcDir)
self.cv_IPMI = OpTestIPMI(i_bmcIP, i_bmcUserIpmi, i_bmcPasswdIpmi,
i_ffdcDir, i_hostip, i_hostuser,
i_hostPasswd)
self.cv_HOST = OpTestHost(i_hostip, i_hostuser, i_hostPasswd, i_bmcIP,
i_ffdcDir)
self.cv_SYSTEM = OpTestSystem(i_bmcIP, i_bmcUser, i_bmcPasswd,
i_bmcUserIpmi, i_bmcPasswdIpmi,
i_ffdcDir, i_hostip, i_hostuser,
i_hostPasswd)
self.util = OpTestUtil()
self.opTestSensors = OpTestSensors(i_bmcIP, i_bmcUser, i_bmcPasswd,
i_bmcUserIpmi, i_bmcPasswdIpmi,
i_ffdcDir, i_hostip, i_hostuser,
i_hostPasswd)
##
# @brief This function will test BMC Cold reset vs Host FW status
# 1. When system is in runtime issue BMC Cold reset.
# 2. Check Host FW services and drivers.
# 3. Run sensors command
# 4. Get list of chips
# 5. This is expected to fail.
# https://github.com/open-power/op-build/issues/482
# 6. Reboot the system at the end of test.
#
# @return BMC_CONST.FW_SUCCESS or BMC_CONST.FW_FAILED
#
def test_bmc_cold_reset_effects(self):
print "Test BMC Cold reset effects versus Host Firmware Status"
self.cv_SYSTEM.sys_bmc_power_on_validate_host()
print "Issue BMC Cold reset"
result = True
try:
self.cv_SYSTEM.sys_cold_reset_bmc()
l_dir = BMC_CONST.SKIBOOT_WORKING_DIR
self.cv_HOST.host_clone_skiboot_source(l_dir)
self.cv_HOST.host_compile_xscom_utilities(l_dir)
l_con = self.cv_SYSTEM.sys_get_ipmi_console()
self.cv_IPMI.ipmi_host_login(l_con)
self.cv_IPMI.ipmi_host_set_unique_prompt(l_con)
self.cv_IPMI.run_host_cmd_on_ipmi_console("uname -a")
self.cv_IPMI.run_host_cmd_on_ipmi_console(
"cd %s/external/xscom-utils/; ./getscom -l" % l_dir)
self.opTestSensors.test_hwmon_driver()
self.cv_SYSTEM.sys_ipmi_close_console(l_con)
except:
result = False
pass
print "Gathering the OPAL msg logs"
self.cv_HOST.host_gather_opal_msg_log()
self.cv_IPMI.ipmi_power_off()
self.cv_SYSTEM.sys_bmc_power_on_validate_host()
if result is False:
raise OpTestError("MC Cold reset vs Host FW Test failed")
class OpTestFWTS():
## Initialize this object
# @param i_bmcIP The IP address of the BMC
# @param i_bmcUser The userid to log into the BMC with
# @param i_bmcPasswd The password of the userid to log into the BMC with
# @param i_bmcUserIpmi The userid to issue the BMC IPMI commands with
# @param i_bmcPasswdIpmi The password of BMC IPMI userid
# @param i_ffdcDir Optional param to indicate where to write FFDC
#
# "Only required for inband tests" else Default = None
# @param i_hostIP The IP address of the HOST
# @param i_hostuser The userid to log into the HOST
# @param i_hostPasswd The password of the userid to log into the HOST with
#
def __init__(self,
i_bmcIP,
i_bmcUser,
i_bmcPasswd,
i_bmcUserIpmi,
i_bmcPasswdIpmi,
i_ffdcDir=None,
i_hostip=None,
i_hostuser=None,
i_hostPasswd=None):
self.cv_BMC = OpTestBMC(i_bmcIP, i_bmcUser, i_bmcPasswd, i_ffdcDir)
self.cv_IPMI = OpTestIPMI(i_bmcIP, i_bmcUserIpmi, i_bmcPasswdIpmi,
i_ffdcDir, i_hostip, i_hostuser,
i_hostPasswd)
self.cv_HOST = OpTestHost(i_hostip, i_hostuser, i_hostPasswd, i_bmcIP,
i_ffdcDir)
self.cv_SYSTEM = OpTestSystem(i_bmcIP, i_bmcUser, i_bmcPasswd,
i_bmcUserIpmi, i_bmcPasswdIpmi,
i_ffdcDir, i_hostip, i_hostuser,
i_hostPasswd)
self.util = OpTestUtil()
self.user = i_hostuser
self.ip = i_hostip
self.passwd = i_hostPasswd
##
# @brief This function just brings the system to host OS.
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
def test_system_reboot(self):
print "Testing FWTS: Booting system to OS"
print "Performing a IPMI Power OFF Operation"
# Perform a IPMI Power OFF Operation(Immediate Shutdown)
self.cv_IPMI.ipmi_power_off()
if int(
self.cv_SYSTEM.sys_wait_for_standby_state(
BMC_CONST.SYSTEM_STANDBY_STATE_DELAY)
) == BMC_CONST.FW_SUCCESS:
print "System is in standby/Soft-off state"
else:
l_msg = "System failed to reach standby/Soft-off state"
raise OpTestError(l_msg)
self.cv_IPMI.ipmi_power_on()
self.cv_SYSTEM.sys_check_host_status()
self.util.PingFunc(self.cv_HOST.ip, BMC_CONST.PING_RETRY_POWERCYCLE)
self.cv_IPMI.clear_ssh_keys(self.cv_HOST.ip)
print "Gathering the OPAL msg logs"
self.cv_HOST.host_gather_opal_msg_log()
return BMC_CONST.FW_SUCCESS
##
# @brief This function just executes the fwts_execution.sh on host OS
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
def test_fwts(self):
l_oslevel = self.cv_HOST.host_get_OS_Level()
if not "Ubuntu" in l_oslevel:
return
# Copy the fwts execution file to the tmp folder in the host
base_path = (os.path.dirname(
os.path.abspath(__file__))).split('testcases')[0]
fwts_script = base_path + "/testcases/fwts_execution.sh"
try:
self.util.copyFilesToDest(fwts_script, self.user, self.ip, "/tmp/",
self.passwd)
except:
l_msg = "Copying fwts file to host failed"
print l_msg
raise OpTestError(l_msg)
l_res = self.cv_HOST.host_run_command("/tmp/fwts_execution.sh")
print l_res
class OpTestPrdDriver():
## Initialize this object
# @param i_bmcIP The IP address of the BMC
# @param i_bmcUser The userid to log into the BMC with
# @param i_bmcPasswd The password of the userid to log into the BMC with
# @param i_bmcUserIpmi The userid to issue the BMC IPMI commands with
# @param i_bmcPasswdIpmi The password of BMC IPMI userid
# @param i_ffdcDir Optional param to indicate where to write FFDC
#
# "Only required for inband tests" else Default = None
# @param i_hostIP The IP address of the HOST
# @param i_hostuser The userid to log into the HOST
# @param i_hostPasswd The password of the userid to log into the HOST with
#
def __init__(self, i_bmcIP, i_bmcUser, i_bmcPasswd,
i_bmcUserIpmi, i_bmcPasswdIpmi, i_ffdcDir=None, i_hostip=None,
i_hostuser=None, i_hostPasswd=None):
self.cv_BMC = OpTestBMC(i_bmcIP, i_bmcUser, i_bmcPasswd, i_ffdcDir)
self.cv_IPMI = OpTestIPMI(i_bmcIP, i_bmcUserIpmi, i_bmcPasswdIpmi,
i_ffdcDir, i_hostip, i_hostuser, i_hostPasswd)
self.cv_HOST = OpTestHost(i_hostip, i_hostuser, i_hostPasswd, i_bmcIP)
self.cv_SYSTEM = OpTestSystem(i_bmcIP, i_bmcUser, i_bmcPasswd,
i_bmcUserIpmi, i_bmcPasswdIpmi, i_ffdcDir, i_hostip,
i_hostuser, i_hostPasswd)
self.util = OpTestUtil()
##
# @brief This function performs below steps
# 1. Initially connecting to host and ipmi consoles for execution.
# 2. check for IPOLL mask register value to see whether opal-prd is running or not
# if it is 0-->opal-prd is running-->continue
# else start opal-prd service again
# 3. call test_prd_for_fir() function for each core FIR error and this function
# can be used for any number of errors, like it is a generic function
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
def testPrdDriver(self):
self.cv_SYSTEM.sys_bmc_power_on_validate_host()
self.test_init()
l_con = self.cv_SYSTEM.sys_get_ipmi_console()
self.cv_IPMI.ipmi_host_login(l_con)
self.cv_IPMI.ipmi_host_set_unique_prompt(l_con)
self.cv_IPMI.run_host_cmd_on_ipmi_console("cd %s/external/xscom-utils/;" % BMC_CONST.CLONE_SKIBOOT_DIR)
# check for IPOLL mask register value to check opal-prd is running or not
l_cmd = "./getscom -c 0x0 %s" % BMC_CONST.IPOLL_MASK_REGISTER
l_res = self.cv_IPMI.run_host_cmd_on_ipmi_console(l_cmd)
if l_res[-1] == BMC_CONST.IPOLL_MASK_REGISTER_CONTENT:
print "Opal-prd is running"
else:
self.cv_IPMI.run_host_cmd_on_ipmi_console("service opal-prd start")
l_res = self.cv_IPMI.run_host_cmd_on_ipmi_console(l_cmd)
if l_res[-1] == BMC_CONST.IPOLL_MASK_REGISTER_CONTENT:
print "Opal-prd is running"
else:
l_msg = "IPOLL MASK REGISTER is not getting cleared by opal-prd"
raise OpTestError(l_msg)
# test for PBA FIR with different core errors
# 1.PBAFIR_OCI_APAR_ERR-->OCI Address Parity Error
print "PRD: Test for PBAFIR_OCI_APAR_ERR-->OCI Address Parity Error"
self.test_prd_for_fir(BMC_CONST.PBA_FAULT_ISOLATION_REGISTER,
BMC_CONST.PBA_FAULT_ISOLATION_MASK_REGISTER,
BMC_CONST.PBAFIR_OCI_APAR_ERR)
# 2.PBAFIR_PB_CE_FW-->PB Read Data CE Error for Forwarded Request
print "PRD: Test for PBAFIR_PB_CE_FW-->PB Read Data CE Error for Forwarded Request"
self.test_prd_for_fir(BMC_CONST.PBA_FAULT_ISOLATION_REGISTER,
BMC_CONST.PBA_FAULT_ISOLATION_MASK_REGISTER,
BMC_CONST.PBAFIR_PB_CE_FW)
# 3.PBAFIR_PB_RDDATATO_FW-->PB Read Data Timeout for Forwarded Request
print "PRD: Test for PBAFIR_PB_RDDATATO_FW-->PB Read Data Timeout for Forwarded Request"
self.test_prd_for_fir(BMC_CONST.PBA_FAULT_ISOLATION_REGISTER,
BMC_CONST.PBA_FAULT_ISOLATION_MASK_REGISTER,
BMC_CONST.PBAFIR_PB_RDDATATO_FW)
# 4.PBAFIR_PB_RDADRERR_FW-->PB CRESP Addr Error Received for Forwarded Read Request
print "PRD: Test for PBAFIR_PB_RDADRERR_FW-->PB CRESP Addr Error Received for Forwarded Read Request"
self.test_prd_for_fir(BMC_CONST.PBA_FAULT_ISOLATION_REGISTER,
BMC_CONST.PBA_FAULT_ISOLATION_MASK_REGISTER,
BMC_CONST.PBAFIR_PB_RDADRERR_FW)
return BMC_CONST.FW_SUCCESS
##
# @brief This function injects some core FIR errors and verifies whether opal-prd clears the errors.
# and also this function injects errors on random chip.
#
# @param FIR @type str: Local Fault Isolation register
# @param FIMR @type str: Local Fault Isolation mask register
# @param ERROR @type int: Core FIR error, this error will be written to FIR.
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
def test_prd_for_fir(self, FIR, FIMR, ERROR):
chip_id = "0x" + self.random_chip
print chip_id
print "OPAL-PRD: Injecting error 0x%x on FIR: %s" % (ERROR, FIR)
# Read Local Fault Isolation register
l_cmd = "./getscom -c %s %s" % (chip_id, FIR)
l_res = self.cv_IPMI.run_host_cmd_on_ipmi_console(l_cmd)
# Reading Local Fault Isolation mask register
l_cmd = "./getscom -c %s %s" % (chip_id, FIMR)
l_res = self.cv_IPMI.run_host_cmd_on_ipmi_console(l_cmd)
print l_res
# Changing the FIMR value to un-masked value.
LEN = 16
l_len = len(l_res[-1])
l_val = hex(int(("0x" + "0"*(LEN - l_len) + l_res[-1]), 16)& (ERROR ^ 0xffffffffffffffff))
# Writing the same value to Local Fault Isolation mask register again
l_cmd = "./putscom -c %s %s %s" % (chip_id, BMC_CONST.PBA_FAULT_ISOLATION_MASK_REGISTER, l_val)
l_res = self.cv_IPMI.run_host_cmd_on_ipmi_console(l_cmd)
# Inject a core error on FIR
l_cmd = "./putscom -c %s %s %s" % (chip_id, FIR, hex(ERROR))
l_res = self.cv_IPMI.run_host_cmd_on_ipmi_console(l_cmd)
time.sleep(30)
# Read Local Fault Isolation register again
l_cmd = "./getscom -c %s %s" % (chip_id, FIR)
l_res = self.cv_IPMI.run_host_cmd_on_ipmi_console(l_cmd)
print l_res
# Check FIR got cleared by opal-prd
if l_res[-1] == BMC_CONST.FAULT_ISOLATION_REGISTER_CONTENT:
print "Opal-prd handles core hardware error"
else:
l_msg = "Opal-prd not clearing hardware errors in runtime"
print l_msg
raise OpTestError(l_msg)
# Reading the Local Fault Isolation Mask Register again
l_cmd = "./getscom -c %s %s" % (chip_id, FIMR)
l_res = self.cv_IPMI.run_host_cmd_on_ipmi_console(l_cmd)
print l_res
# check for IPOLL mask register value to see opal-prd cleared the value
l_cmd = "./getscom -c %s %s" % (chip_id, BMC_CONST.IPOLL_MASK_REGISTER)
l_res = self.cv_IPMI.run_host_cmd_on_ipmi_console(l_cmd)
if l_res[-1] == BMC_CONST.IPOLL_MASK_REGISTER_CONTENT:
print "Opal-prd cleared the IPOLL MASK REGISTER"
return BMC_CONST.FW_SUCCESS
else:
l_msg = "Opal-prd is not clearing the IPOLL MASK REGISTER after injecting core FIR error"
print l_msg
raise OpTestError(l_msg)
##
# @brief This is a common function for all the PRD test cases. This will be executed before
# any test case starts. Basically this provides below requirements.
# 1. Validates all required host commands
# 2. It will clone skiboot source repository
# 3. Compile the necessary tools -xscom-utils(getscom and putscom)
# 4. Get the list Of Chips.
# Ex: ['00000000', '00000001', '00000010']
# 5. generate a random chip.
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
def test_init(self):
# Get OS level
self.cv_HOST.host_get_OS_Level()
# Check whether git and gcc commands are available on host
self.cv_HOST.host_check_command("git", "gcc")
# It will clone skiboot source repository
self.cv_HOST.host_clone_skiboot_source(BMC_CONST.CLONE_SKIBOOT_DIR)
# Compile the necessary tools xscom-utils and gard utility
self.cv_HOST.host_compile_xscom_utilities(BMC_CONST.CLONE_SKIBOOT_DIR)
# Getting list of processor chip Id's(executing getscom -l to get chip id's)
l_res = self.cv_HOST.host_run_command("cd %s/external/xscom-utils/; ./getscom -l" % BMC_CONST.CLONE_SKIBOOT_DIR)
l_res = l_res.splitlines()
l_chips = []
for line in l_res:
matchObj = re.search("(\d{8}).*processor", line)
if matchObj:
l_chips.append(matchObj.group(1))
if not l_chips:
l_msg = "Getscom failed to list processor chip id's"
raise OpTestError(l_msg)
l_chips.sort()
print l_chips # ['00000000', '00000001', '00000010']
self.random_chip = random.choice(l_chips)
# Below will be useful for debug purposes to compare chip information
l_res = self.cv_HOST.host_read_msglog_core()
print l_res
class OpTestNVRAM():
## Initialize this object
# @param i_bmcIP The IP address of the BMC
# @param i_bmcUser The userid to log into the BMC with
# @param i_bmcPasswd The password of the userid to log into the BMC with
# @param i_bmcUserIpmi The userid to issue the BMC IPMI commands with
# @param i_bmcPasswdIpmi The password of BMC IPMI userid
# @param i_ffdcDir Optional param to indicate where to write FFDC
#
# "Only required for inband tests" else Default = None
# @param i_hostIP The IP address of the HOST
# @param i_hostuser The userid to log into the HOST
# @param i_hostPasswd The password of the userid to log into the HOST with
#
def __init__(self,
i_bmcIP,
i_bmcUser,
i_bmcPasswd,
i_bmcUserIpmi,
i_bmcPasswdIpmi,
i_ffdcDir=None,
i_hostip=None,
i_hostuser=None,
i_hostPasswd=None):
self.cv_BMC = OpTestBMC(i_bmcIP, i_bmcUser, i_bmcPasswd, i_ffdcDir)
self.cv_IPMI = OpTestIPMI(i_bmcIP, i_bmcUserIpmi, i_bmcPasswdIpmi,
i_ffdcDir, i_hostip, i_hostuser,
i_hostPasswd)
self.cv_HOST = OpTestHost(i_hostip, i_hostuser, i_hostPasswd, i_bmcIP)
self.cv_SYSTEM = OpTestSystem(i_bmcIP, i_bmcUser, i_bmcPasswd,
i_bmcUserIpmi, i_bmcPasswdIpmi,
i_ffdcDir, i_hostip, i_hostuser,
i_hostPasswd)
self.util = OpTestUtil()
##
# @brief This function tests nvram partition access, print/update
# the config data and dumping the partition's data. All
# these operations are done on supported partitions in both
# host OS and Petitboot.
#
# @return BMC_CONST.FW_SUCCESS or BMC_CONST.FW_FAILED
#
def test_nvram_configuration(self):
# Execute these tests in host OS
self.cv_SYSTEM.sys_bmc_power_on_validate_host()
self.cv_HOST.host_run_command("uname -a")
self.cv_HOST.host_run_command("cat /etc/os-release")
self.cv_HOST.host_run_command("nvram -v")
self.cv_HOST.host_run_command("nvram --print-config -p ibm,skiboot")
self.cv_HOST.host_run_command("nvram --print-config -p common")
self.cv_HOST.host_run_command("nvram --print-config -p lnx,oops-log")
self.cv_HOST.host_run_command("nvram --print-config -p wwwwwwwwwwww")
self.cv_HOST.host_run_command("nvram --print-vpd")
self.cv_HOST.host_run_command("nvram --print-all-vpd")
self.cv_HOST.host_run_command("nvram --print-err-log")
self.cv_HOST.host_run_command("nvram --print-event-scan")
self.cv_HOST.host_run_command("nvram --partitions")
self.cv_HOST.host_run_command("nvram --dump common")
self.cv_HOST.host_run_command("nvram --dump ibm,skiboot")
self.cv_HOST.host_run_command("nvram --dump lnx,oops-log")
self.cv_HOST.host_run_command("nvram --dump wwwwwwwwwwww")
self.cv_HOST.host_run_command("nvram --ascii common")
self.cv_HOST.host_run_command("nvram --ascii ibm,skiboot")
self.cv_HOST.host_run_command("nvram --ascii lnx,oops-log")
self.cv_HOST.host_run_command("nvram --ascii wwwwwwwwwwww")
try:
self.test_nvram_update_part_config_in_host("common")
self.test_nvram_update_part_config_in_host("ibm,skiboot")
self.test_nvram_update_part_config_in_host("lnx,oops-log")
self.test_nvram_update_part_config_in_host("wwwwwwwwwwww")
except OpTestError:
print "There is a failure in updating one of NVRAM partitions"
# Execute these tests in petitboot
self.console = self.cv_SYSTEM.sys_get_ipmi_console()
try:
self.cv_SYSTEM.sys_ipmi_boot_system_to_petitboot(self.console)
self.cv_IPMI.ipmi_host_set_unique_prompt(self.console)
self.cv_IPMI.run_host_cmd_on_ipmi_console("uname -a")
self.cv_IPMI.run_host_cmd_on_ipmi_console("cat /etc/os-release")
self.cv_IPMI.run_host_cmd_on_ipmi_console("nvram -v")
self.cv_IPMI.run_host_cmd_on_ipmi_console(
"nvram --print-config -p ibm,skiboot")
self.cv_IPMI.run_host_cmd_on_ipmi_console(
"nvram --print-config -p common")
self.cv_IPMI.run_host_cmd_on_ipmi_console(
"nvram --print-config -p lnx,oops-log")
self.cv_IPMI.run_host_cmd_on_ipmi_console(
"nvram --print-config -p wwwwwwwwwwww")
self.cv_IPMI.run_host_cmd_on_ipmi_console("nvram --print-vpd")
self.cv_IPMI.run_host_cmd_on_ipmi_console("nvram --print-all-vpd")
self.cv_IPMI.run_host_cmd_on_ipmi_console("nvram --print-err-log")
self.cv_IPMI.run_host_cmd_on_ipmi_console(
"nvram --print-event-scan")
self.cv_IPMI.run_host_cmd_on_ipmi_console("nvram --partitions")
self.cv_IPMI.run_host_cmd_on_ipmi_console("nvram --dump common")
self.cv_IPMI.run_host_cmd_on_ipmi_console(
"nvram --dump ibm,skiboot")
self.cv_IPMI.run_host_cmd_on_ipmi_console(
"nvram --dump lnx,oops-log")
self.cv_IPMI.run_host_cmd_on_ipmi_console(
"nvram --dump wwwwwwwwwwww")
self.cv_IPMI.run_host_cmd_on_ipmi_console("nvram --ascii common")
self.cv_IPMI.run_host_cmd_on_ipmi_console(
"nvram --ascii ibm,skiboot")
self.cv_IPMI.run_host_cmd_on_ipmi_console(
"nvram --ascii lnx,oops-log")
self.cv_IPMI.run_host_cmd_on_ipmi_console(
"nvram --ascii wwwwwwwwwwww")
try:
self.test_nvram_update_part_config_in_petitboot("common")
self.test_nvram_update_part_config_in_petitboot("ibm,skiboot")
self.test_nvram_update_part_config_in_petitboot("lnx,oops-log")
self.test_nvram_update_part_config_in_petitboot("wwwwwwwwwwww")
except OpTestError:
print "There is a failure in updating one of NVRAM partitions"
except:
self.cv_IPMI.ipmi_set_boot_to_disk()
self.cv_IPMI.ipmi_set_boot_to_disk()
##
# @brief This function tests nvram update/print config functions for partition i_part
# these functions will be tested in host OS
#
# @param i_part @type string:partition to access i.e common, ibm,skiboot etc
#
# @return l_res @type list: output of command or raise OpTestError
#
def test_nvram_update_part_config_in_host(self, i_part):
part = i_part
self.cv_HOST.host_run_command(
"nvram -p %s --update-config 'test-cfg=test-value'" % part)
res = self.cv_HOST.host_run_command(
"nvram -p %s --print-config=test-cfg" % part)
if "test-value" in res:
print "Update config to the partition %s works fine" % part
else:
msg = "failed to update nvram config into the partition %s" % part
print msg
raise OpTestError(msg)
##
# @brief This function tests nvram update/print config functions for partition i_part
# these functions will be tested in Petitboot.
#
# @param i_part @type string:partition to access i.e common, ibm,skiboot etc
#
# @return l_res @type list: output of command or raise OpTestError
#
def test_nvram_update_part_config_in_petitboot(self, i_part):
part = i_part
self.cv_IPMI.run_host_cmd_on_ipmi_console(
"nvram -p %s --update-config 'test-cfg=test-value'" % part)
res_list = self.cv_IPMI.run_host_cmd_on_ipmi_console(
"nvram -p %s --print-config=test-cfg" % part)
res = ''.join(res_list)
if "test-value" in res:
print "Update config to the partition %s works fine" % part
else:
msg = "failed to update nvram config into the partition %s" % part
print msg
raise OpTestError(msg)
class OpTestFWTS():
## Initialize this object
# @param i_bmcIP The IP address of the BMC
# @param i_bmcUser The userid to log into the BMC with
# @param i_bmcPasswd The password of the userid to log into the BMC with
# @param i_bmcUserIpmi The userid to issue the BMC IPMI commands with
# @param i_bmcPasswdIpmi The password of BMC IPMI userid
# @param i_ffdcDir Optional param to indicate where to write FFDC
#
# "Only required for inband tests" else Default = None
# @param i_hostIP The IP address of the HOST
# @param i_hostuser The userid to log into the HOST
# @param i_hostPasswd The password of the userid to log into the HOST with
#
def __init__(self, i_bmcIP, i_bmcUser, i_bmcPasswd,
i_bmcUserIpmi, i_bmcPasswdIpmi, i_ffdcDir=None, i_hostip=None,
i_hostuser=None, i_hostPasswd=None):
self.cv_BMC = OpTestBMC(i_bmcIP, i_bmcUser, i_bmcPasswd, i_ffdcDir)
self.cv_IPMI = OpTestIPMI(i_bmcIP, i_bmcUserIpmi, i_bmcPasswdIpmi,
i_ffdcDir, i_hostip, i_hostuser, i_hostPasswd)
self.cv_HOST = OpTestHost(i_hostip, i_hostuser, i_hostPasswd, i_bmcIP, i_ffdcDir)
self.cv_SYSTEM = OpTestSystem(i_bmcIP, i_bmcUser, i_bmcPasswd,
i_bmcUserIpmi, i_bmcPasswdIpmi, i_ffdcDir, i_hostip,
i_hostuser, i_hostPasswd)
self.util = OpTestUtil()
self.user = i_hostuser
self.ip = i_hostip
self.passwd = i_hostPasswd
##
# @brief This function just brings the system to host OS.
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
def test_system_reboot(self):
print "Testing FWTS: Booting system to OS"
print "Performing a IPMI Power OFF Operation"
# Perform a IPMI Power OFF Operation(Immediate Shutdown)
self.cv_IPMI.ipmi_power_off()
if int(self.cv_SYSTEM.sys_wait_for_standby_state(BMC_CONST.SYSTEM_STANDBY_STATE_DELAY)) == BMC_CONST.FW_SUCCESS:
print "System is in standby/Soft-off state"
else:
l_msg = "System failed to reach standby/Soft-off state"
raise OpTestError(l_msg)
self.cv_IPMI.ipmi_power_on()
self.cv_SYSTEM.sys_check_host_status()
self.util.PingFunc(self.cv_HOST.ip, BMC_CONST.PING_RETRY_POWERCYCLE)
self.cv_IPMI.clear_ssh_keys(self.cv_HOST.ip)
print "Gathering the OPAL msg logs"
self.cv_HOST.host_gather_opal_msg_log()
return BMC_CONST.FW_SUCCESS
##
# @brief This function just executes the fwts_execution.sh on host OS
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
def test_fwts(self):
l_oslevel = self.cv_HOST.host_get_OS_Level()
if not "Ubuntu" in l_oslevel:
return
# Copy the fwts execution file to the tmp folder in the host
base_path = (os.path.dirname(os.path.abspath(__file__))).split('testcases')[0]
fwts_script = base_path + "/testcases/fwts_execution.sh"
try:
self.util.copyFilesToDest(fwts_script, self.user,
self.ip, "/tmp/", self.passwd)
except:
l_msg = "Copying fwts file to host failed"
print l_msg
raise OpTestError(l_msg)
l_res = self.cv_HOST.host_run_command("/tmp/fwts_execution.sh")
print l_res
class OpTestInbandUsbInterface():
## Initialize this object
# @param i_bmcIP The IP address of the BMC
# @param i_bmcUser The userid to log into the BMC with
# @param i_bmcPasswd The password of the userid to log into the BMC with
# @param i_bmcUserIpmi The userid to issue the BMC IPMI commands with
# @param i_bmcPasswdIpmi The password of BMC IPMI userid
# @param i_ffdcDir Optional param to indicate where to write FFDC
#
# "Only required for inband tests" else Default = None
# @param i_hostIP The IP address of the host
# @param i_hostUser The userid to log into the host
# @param i_hostPasswd The password of the userid to log into the HOST with
#
def __init__(self,
i_bmcIP,
i_bmcUser,
i_bmcPasswd,
i_bmcUserIpmi,
i_bmcPasswdIpmi,
i_ffdcDir=None,
i_hostIP=None,
i_hostUser=None,
i_hostPasswd=None):
self.cv_BMC = OpTestBMC(i_bmcIP, i_bmcUser, i_bmcPasswd, i_ffdcDir)
self.cv_IPMI = OpTestIPMI(i_bmcIP, i_bmcUserIpmi, i_bmcPasswdIpmi,
i_ffdcDir)
self.cv_HOST = OpTestHost(i_hostIP, i_hostUser, i_hostPasswd, i_bmcIP)
self.cv_SYSTEM = OpTestSystem(i_bmcIP, i_bmcUser, i_bmcPasswd,
i_bmcUserIpmi, i_bmcPasswdIpmi,
i_ffdcDir, i_hostIP, i_hostUser,
i_hostPasswd)
self.util = OpTestUtil()
##
# @brief This function will cover following test steps
# 1. It will get the OS level installed on powernv platform
# 2. It will check for kernel version installed on the Open Power Machine
# 3. It will check for ipmitool command existence and ipmitool package
# 4. Checking Inband ipmitool command functionality with different options
# using ipmitool usb interface.
#
# @return BMC_CONST.FW_SUCCESS or raise OpTestError
#
def test_ipmi_inband_usb_interface(self):
self.cv_SYSTEM.sys_bmc_power_on_validate_host()
# Get OS level
l_oslevel = self.cv_HOST.host_get_OS_Level()
# Get kernel version
l_kernel = self.cv_HOST.host_get_kernel_version()
# Checking for ipmitool command and lm_sensors package
self.cv_HOST.host_check_command("ipmitool")
l_pkg = self.cv_HOST.host_check_pkg_for_utility(l_oslevel, "ipmitool")
print "Installed package: %s" % l_pkg
# loading below ipmi modules based on config option
# ipmi_devintf, ipmi_powernv and ipmi_masghandler
self.cv_HOST.host_load_module_based_on_config(
l_kernel, BMC_CONST.CONFIG_IPMI_DEVICE_INTERFACE,
BMC_CONST.IPMI_DEV_INTF)
self.cv_HOST.host_load_module_based_on_config(
l_kernel, BMC_CONST.CONFIG_IPMI_POWERNV, BMC_CONST.IPMI_POWERNV)
self.cv_HOST.host_load_module_based_on_config(
l_kernel, BMC_CONST.CONFIG_IPMI_HANDLER,
BMC_CONST.IPMI_MSG_HANDLER)
fail_count = 0
test_cases = [
self.test_chassis, self.test_chassis_identifytests,
self.test_chassis_bootdev, self.test_channel, self.test_Info,
self.test_sdr_list_by_type, self.test_sdr_elist_by_type,
self.test_sdr_type_list, self.test_sdr_get_id, self.test_fru_print,
self.test_fru_read, self.test_sel_info, self.test_sel_list,
self.test_sel_elist, self.test_sel_time_get,
self.test_sel_set_time, self.test_sel_list_first_3_entries,
self.test_sel_list_last_3_entries, self.test_sel_get_functionality,
self.test_sel_clear_functionality, self.test_mc,
self.test_sensor_list, self.test_sensor_get_host_status,
self.test_sensor_get_os_boot, self.test_sensor_get_occ_active,
self.test_dcmi, self.test_echo, self.test_event,
self.test_firewall, self.test_pef, self.test_raw, self.test_exec
]
for test in test_cases:
try:
print "In-band IPMI[USB]: test case %s" % test
test(self)
except:
print "Test Fail: %s failed" % test
fail_count += 1
print sys.exc_info()
continue
print "Inband IPMI[USB]: Test case failure count %s" % fail_count
##
# @brief It will execute and test the return code of ipmi command.
#
# @param i_cmd @type string:The ipmitool command, for example: ipmitool -I usb chassis status; echo $?
#
# @return l_res @type list: output of command or raise OpTestError
#
def run_ipmi_cmd_on_host(self, i_cmd):
l_cmd = i_cmd
print l_cmd
l_res = self.cv_HOST.host_run_command(l_cmd)
l_res = l_res.splitlines()
if int(l_res[-1]):
l_msg = "IPMI: command failed %c" % l_cmd
raise OpTestError(l_msg)
return l_res
##
# @brief It will execute and test the ipmitool -I usb chassis <cmd> commands
# cmd: status, poh, restart_cause, policy list and policy set
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_chassis(self):
print "Inband IPMI[USB]: Chassis tests"
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB +
BMC_CONST.IPMI_CHASSIS_POH)
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB +
BMC_CONST.IPMI_CHASSIS_RESTART_CAUSE)
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB +
BMC_CONST.IPMI_CHASSIS_POLICY_LIST)
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB +
BMC_CONST.IPMI_CHASSIS_POLICY_ALWAYS_OFF)
##
# @brief It will execute and test the ipmi chassis identify commands
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_chassis_identifytests(self):
print "Inband IPMI[USB]: Chassis Identify tests"
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB +
BMC_CONST.IPMI_CHASSIS_IDENTIFY)
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB +
BMC_CONST.IPMI_CHASSIS_IDENTIFY_5)
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB +
BMC_CONST.IPMI_CHASSIS_IDENTIFY)
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB +
BMC_CONST.IPMI_CHASSIS_IDENTIFY_FORCE)
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB +
BMC_CONST.IPMI_CHASSIS_IDENTIFY)
##
# @brief It will execute and test the functionality of ipmi chassis bootdev <dev>
# dev: none,pxe,cdrom,disk,bios,safe,diag,floppy and none.
#
# @return BMC_CONST.FW_SUCCESS on success or raise OpTestError
#
@staticmethod
def test_chassis_bootdev(self):
print "Inband IPMI[USB]: Chassis Bootdevice tests"
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB +
BMC_CONST.IPMI_CHASSIS_BOOTDEV_NONE)
self.verify_bootdev("none")
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB +
BMC_CONST.IPMI_CHASSIS_BOOTDEV_PXE)
self.verify_bootdev("pxe")
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB +
BMC_CONST.IPMI_CHASSIS_BOOTDEV_CDROM)
self.verify_bootdev("cdrom")
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB +
BMC_CONST.IPMI_CHASSIS_BOOTDEV_DISK)
self.verify_bootdev("disk")
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB +
BMC_CONST.IPMI_CHASSIS_BOOTDEV_BIOS)
self.verify_bootdev("bios")
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB +
BMC_CONST.IPMI_CHASSIS_BOOTDEV_SAFE)
self.verify_bootdev("safe")
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB +
BMC_CONST.IPMI_CHASSIS_BOOTDEV_DIAG)
self.verify_bootdev("diag")
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB +
BMC_CONST.IPMI_CHASSIS_BOOTDEV_FLOPPY)
self.verify_bootdev("floppy")
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB +
BMC_CONST.IPMI_CHASSIS_BOOTDEV_NONE)
self.verify_bootdev("none")
##
# @brief It will verify whether setting of given bootdevice is honoured or not
# by reading chassis bootparam get 5
#
# @param i_dev @type string: boot device name: Ex safe, disk and cdrom
#
# @return BMC_CONST.FW_SUCCESS on success or raise OpTestError
#
def verify_bootdev(self, i_dev):
l_res = self.run_ipmi_cmd_on_host(
BMC_CONST.IPMITOOL_USB + BMC_CONST.IPMI_CHASSIS_BOOTPARAM_GET_5)
if i_dev == "safe":
l_msg = "Force Boot from default Hard-Drive, request Safe-Mode"
elif i_dev == "disk":
l_msg = "Force Boot from default Hard-Drive"
elif i_dev == "diag":
l_msg = "Force Boot from Diagnostic Partition"
elif i_dev == "bios":
l_msg = "Force Boot into BIOS Setup"
elif i_dev == "pxe":
l_msg = "Force PXE"
elif i_dev == "cdrom":
l_msg = "Force Boot from CD/DVD"
elif i_dev == "none":
l_msg = "No override"
elif i_dev == "floppy":
l_msg = "Force Boot from Floppy/primary removable media"
else:
print "pass proper bootdevice"
for l_line in l_res:
if l_line.__contains__(l_msg):
print "Verifying bootdev is successfull for %s" % i_dev
return BMC_CONST.FW_SUCCESS
else:
l_msg = "Boot device is not set to %s" % i_dev
raise OpTestError(l_msg)
##
# @brief It will check basic channel functionalities: info and authentication capabilities.
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_channel(self):
print "Inband IPMI[USB]: Channel tests"
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB +
BMC_CONST.IPMI_CHANNEL_AUTHCAP)
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB +
BMC_CONST.IPMI_CHANNEL_INFO)
##
# @brief It will execute and test the ipmi <sdr/sel/mc/channel> info related commands.
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_Info(self):
print "Inband IPMI[USB]: Info tests"
#self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB + BMC_CONST.IPMI_CHANNEL_INFO)
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB +
BMC_CONST.IPMI_MC_INFO)
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB +
BMC_CONST.IPMI_SEL_INFO)
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB +
BMC_CONST.IPMI_SDR_INFO)
##
# @brief It will execute and test the ipmi sdr list <all/fru/event/mcloc/compact/full/generic>
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_sdr_list_by_type(self):
print "Inband IPMI[USB]: SDR list tests"
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB +
BMC_CONST.IPMI_SDR_LIST)
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB +
BMC_CONST.IPMI_SDR_LIST_ALL)
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB +
BMC_CONST.IPMI_SDR_LIST_FRU)
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB +
BMC_CONST.IPMI_SDR_LIST_EVENT)
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB +
BMC_CONST.IPMI_SDR_LIST_MCLOC)
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB +
BMC_CONST.IPMI_SDR_LIST_COMPACT)
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB +
BMC_CONST.IPMI_SDR_LIST_FULL)
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB +
BMC_CONST.IPMI_SDR_LIST_GENERIC)
##
# @brief It will execute and test the ipmi sdr elist <all/fru/event/mcloc/compact/full/generic>
# commands
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_sdr_elist_by_type(self):
print "Inband IPMI[USB]: SDR elist tests"
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB +
BMC_CONST.IPMI_SDR_ELIST)
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB +
BMC_CONST.IPMI_SDR_ELIST_ALL)
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB +
BMC_CONST.IPMI_SDR_ELIST_FRU)
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB +
BMC_CONST.IPMI_SDR_ELIST_EVENT)
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB +
BMC_CONST.IPMI_SDR_ELIST_MCLOC)
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB +
BMC_CONST.IPMI_SDR_ELIST_COMPACT)
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB +
BMC_CONST.IPMI_SDR_ELIST_FULL)
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB +
BMC_CONST.IPMI_SDR_ELIST_GENERIC)
##
# @brief It will execute and test the ipmi sdr type <Temp/fan/Powersupply> commands
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_sdr_type_list(self):
print "Inband IPMI[USB]: SDR type list tests"
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB +
BMC_CONST.IPMI_SDR_TYPE_LIST)
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB +
BMC_CONST.IPMI_SDR_TYPE_TEMPERATURE)
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB +
BMC_CONST.IPMI_SDR_TYPE_FAN)
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB +
BMC_CONST.IPMI_SDR_TYPE_POWER_SUPPLY)
##
# @brief It will execute and test the ipmi sdr get <sensor-id> command
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_sdr_get_id(self):
print "Inband IPMI[USB]: SDR get tests"
l_cmd = BMC_CONST.IPMITOOL_USB + BMC_CONST.IPMI_SDR_GET_WATCHDOG + "; echo $?"
self.run_ipmi_cmd_on_host(l_cmd)
##
# @brief It will execute and test the ipmi fru print command.
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_fru_print(self):
print "Inband IPMI[USB]: FRU Print Test"
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB +
BMC_CONST.IPMI_FRU_PRINT)
##
# @brief It will execute and test the ipmi fru read command.
# then the output file is displayed by hexdump
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_fru_read(self):
print "Inband IPMI[USB]: FRU Read Test"
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB +
"fru read 0 /tmp/file_fru; echo $?")
l_res = self.cv_HOST.host_run_command(
"hexdump -C /tmp/file_fru; echo $?")
# TODO: Check for file output
##
# @brief It will execute and test the management controller(mc) commands functionality
# info-Displays information about the BMC hardware, including device revision,
# firmware revision, IPMI version supported, manufacturer ID, and information
# on additional device support
# watchdog get-Show current Watchdog Timer settings and countdown state.
# watchdog off-Turn off a currently running Watchdog countdown timer.
# watchdog reset-Reset the Watchdog Timer to its most recent state and restart the countdown timer.
# selftest- Check on the basic health of the BMC by executing the
# Get Self Test results command and report the results.
# setenables-Enables or disables the given option
# getenables-Displays a list of the currently enabled options for the BMC.
# getsysinfo-Retrieves system info from bmc for given argument
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_mc(self):
print "Inband IPMI[USB]: MC tests"
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB +
BMC_CONST.IPMI_MC_INFO)
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB +
BMC_CONST.IPMI_MC_WATCHDOG_GET)
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB +
BMC_CONST.IPMI_MC_SELFTEST)
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB +
BMC_CONST.IPMI_MC_SELFTEST)
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB +
BMC_CONST.IPMI_MC_SETENABLES_OEM_0_OFF)
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB +
BMC_CONST.IPMI_MC_GETENABLES)
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB +
BMC_CONST.IPMI_MC_SETENABLES_OEM_0_ON)
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB +
BMC_CONST.IPMI_MC_GETENABLES)
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB +
BMC_CONST.IPMI_MC_WATCHDOG_OFF)
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB +
BMC_CONST.IPMI_MC_WATCHDOG_RESET)
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB +
BMC_CONST.IPMI_MC_GETSYS_INFO)
##
# @brief It will execute and test the ipmi sel info functionality
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_sel_info(self):
print "Inband IPMI[USB]: SEL Info test"
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB +
BMC_CONST.IPMI_SEL_INFO)
##
# @brief It will execute and test ipmi sel list functionality.
# the entire contents of the System Event Log are displayed.
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_sel_list(self):
print "Inband IPMI[USB]: SEL List test"
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB +
BMC_CONST.IPMI_SEL_LIST)
##
# @brief It will execute and test the ipmi sel elist functionality
# If invoked as elist (extended list) it will also use the
# Sensor Data Record entries to display the sensor ID for
# the sensor that caused each event.
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_sel_elist(self):
print "Inband IPMI[USB]: SEL elist test"
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB +
BMC_CONST.IPMI_SEL_ELIST)
##
# @brief It will execute and test the ipmi sel time get functionality
# Displays the SEL clock's current time.
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_sel_time_get(self):
print "Inband IPMI[USB]: SEL Time get test"
l_res = self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB +
BMC_CONST.IPMI_SEL_TIME_GET)
return l_res
##
# @brief It will execute and test the ipmi sel set <time string> functionality
# Sets the SEL clock. Future SEL entries will use the time set by this command.
#
# @param i_time @type string: the value to be set as a sel time
# <time string> is of the form "MM/DD/YYYY HH:MM:SS"
#
# @return l_res @type list: output of command or raise OpTestError
#
def test_sel_time_set(self, i_time):
print "Inband IPMI[USB]: SEL Time set test"
l_cmd = "sel time set \'%s\'; echo $?" % i_time
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB + l_cmd)
##
# @brief It will execute and test the ipmi sel list first <n entries>
#
# @param i_num @type string:The num of entries of sel to be listed
#
# @return l_res @type list: output of command or raise OpTestError
#
def test_sel_list_first_n_entries(self, i_num):
l_cmd = "sel list first %i; echo $?" % int(i_num)
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB + l_cmd)
##
# @brief It will execute and test the ipmi sel list last <n entries>
#
# @param i_num @type string:The num of entries of sel to be listed
#
# @return l_res @type list: output of command or raise OpTestError
#
def test_sel_list_last_n_entries(self, i_num):
l_cmd = "sel list last %i; echo $?" % int(i_num)
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB + l_cmd)
##
# @brief It will execute and test the ipmi sel get <id> functionality
#
# @param i_sel_id @type string: for example 0x05, 0x06..
#
# @return l_res @type list: output of command or raise OpTestError
#
def test_sel_get_byid(self, i_sel_id):
l_cmd = "sel get %s; echo $?" % i_sel_id
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB + l_cmd)
##
# @brief It will execute the ipmi sel clear command
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_sel_clear(self):
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB +
BMC_CONST.IPMI_SEL_CLEAR)
##
# @brief It will execute and test the ipmi sel get <id> functionality
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_sel_get_functionality(self):
l_res = self.cv_HOST.host_run_command(
BMC_CONST.IPMITOOL_USB + "sel list first 3 | awk '{print $1}'")
if l_res.__contains__("SEL has no entries"):
print "IPMI: There are no sel entries to fetch"
pass
else:
l_list = l_res.splitlines()
del l_list[0]
for l in l_list:
l_id = "0x" + l
self.test_sel_get_byid(l_id)
##
# @brief It will execute and test the ipmi sel clear functionality
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_sel_clear_functionality(self):
self.test_sel_clear(self)
l_res = self.cv_HOST.host_run_command(
"ipmitool -I usb sel list; echo $?")
l_list = l_res.splitlines()
for l_line in l_list:
if l_line.__contains__("SEL has no entries"):
print "Sel clear function got cleared event entries"
break
else:
l_msg = "Inband IPMI[USB]: sel clear function failing in clearing entries"
print l_msg
raise OpTestError(l_msg)
##
# @brief It will execute and test the ipmi sensor list functionality
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_sensor_list(self):
print "Inband IPMI[USB]: Sensor tests"
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB +
BMC_CONST.IPMI_SENSOR_LIST)
##
# @brief It will execute and test the ipmi sensor get <id> functionality
#
# @param i_sensor @type string:sensor id to retrieve the data
#
# @return l_res @type list: output of command or raise OpTestError
#
def test_sensor_byid(self, i_sensor):
l_cmd = BMC_CONST.IPMITOOL_USB + "sensor get \"%s\"; echo $?" % i_sensor
self.run_ipmi_cmd_on_host(l_cmd)
##
# @brief It will execute and test the dcmi related ipmi commands.
# discover-This command is used to discover supported capabilities in DCMI
# Power reading-Get power related readings from the system.
# get_limit-Get the configured power limits.
# sensors-Prints the available DCMI sensors.
# get_mc_id_string-Get management controller identifier string
# get_temp_reading-Get Temperature Sensor Readings.
# get_conf_param-Get DCMI Configuration Parameters.
# oob_discover-Ping/Pong Message for DCMI Discovery
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_dcmi(self):
print "Inband IPMI[USB]: dcmi tests"
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB +
BMC_CONST.IPMI_DCMI_DISCOVER)
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB +
BMC_CONST.IPMI_DCMI_POWER_READING)
#self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB + BMC_CONST.IPMI_DCMI_POWER_GET_LIMIT)
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB +
BMC_CONST.IPMI_DCMI_SENSORS)
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB +
BMC_CONST.IPMI_DCMI_GET_MC_ID_STRING)
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB +
BMC_CONST.IPMI_DCMI_GET_TEMP_READING)
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB +
BMC_CONST.IPMI_DCMI_GET_CONF_PARAM)
##
# @brief It will execute and test the functionality of ipmi echo command.
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_echo(self):
print "Inband IPMI[USB]: echo tests"
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB +
BMC_CONST.IPMI_ECHO_DONE)
##
# @brief It will execute and test event related commands to test sel functionality.
# Send a pre-defined test event to the System Event Log. The following
# events are included as a means to test the functionality of the System
# Event Log component of the BMC (an entry will be added each time the
# event N command is executed)
# Currently supported values for N are:
# 1 Temperature: Upper Critical: Going High
# 2 Voltage Threshold: Lower Critical: Going Low
# 3 Memory: Correctable ECC
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_event(self):
print "Inband IPMI[USB]: event tests"
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB +
BMC_CONST.IPMI_EVENT_1)
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB +
BMC_CONST.IPMI_EVENT_2)
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB +
BMC_CONST.IPMI_EVENT_3)
##
# @brief It will execute and test ipmi exec command.
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_exec(self):
print "Inband IPMI[USB]: exec tests"
pass
# TODO: need to execute ipmi commands from a file
##
# @brief It will execute and test firmware firewall info command.
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_firewall(self):
print "Inband IPMI[USB]: Firewall test"
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB +
BMC_CONST.IPMI_FIREWALL_INFO)
##
# @brief It will execute and test pef related commands:
# info:This command will query the BMC and print information about the PEF supported features.
# status: This command prints the current PEF status
# policy: This command lists the PEF policy table entries
# list: This command lists the PEF table entries.
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_pef(self):
print "Inband IPMI[USB]: Pef tests"
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB +
BMC_CONST.IPMI_PEF_INFO)
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB +
BMC_CONST.IPMI_PEF_STATUS)
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB +
BMC_CONST.IPMI_PEF_POLICY)
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB +
BMC_CONST.IPMI_PEF_LIST)
##
# @brief This will test raw IPMI commands. For example to query the POH counter with a raw command
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_raw(self):
print "Inband IPMI[USB]: raw command execution tests"
self.run_ipmi_cmd_on_host(BMC_CONST.IPMITOOL_USB +
BMC_CONST.IPMI_RAW_POH)
##
# @brief It will execute and test the ipmi sel set <time string> functionality
# Sets the SEL clock. Future SEL entries will use the time set by this command.
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_sel_set_time(self):
l_res = self.test_sel_time_get(self)
self.test_sel_time_set(l_res[-2])
##
# @brief It will execute and test the ipmi sel list first <3 entries>
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_sel_list_first_3_entries(self):
self.test_sel_list_first_n_entries(BMC_CONST.IPMI_SEL_LIST_ENTRIES)
##
# @brief It will execute and test the ipmi sel list last <3 entries>
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_sel_list_last_3_entries(self):
self.test_sel_list_last_n_entries(BMC_CONST.IPMI_SEL_LIST_ENTRIES)
##
# @brief It will execute and test the ipmi sensor get "Host Status" functionality
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_sensor_get_host_status(self):
self.test_sensor_byid(BMC_CONST.SENSOR_HOST_STATUS)
##
# @brief It will execute and test the ipmi sensor get "OS Boot" functionality
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_sensor_get_os_boot(self):
self.test_sensor_byid(BMC_CONST.SENSOR_OS_BOOT)
##
# @brief It will execute and test the ipmi sensor get "OCC Active" functionality
#
# @return l_res @type list: output of command or raise OpTestError
#
@staticmethod
def test_sensor_get_occ_active(self):
self.test_sensor_byid(BMC_CONST.SENSOR_OCC_ACTIVE)
def _config_read():
""" returns bmc system and test config options """
bmcConfig = ConfigParser.RawConfigParser()
configFile = os.path.join(os.path.dirname(__file__), 'op_ci_tools.cfg')
bmcConfig.read(configFile)
return dict(bmcConfig.items('bmc')), dict(bmcConfig.items('test'))
''' Read the configuration settings into global space so they can be used by
other functions '''
bmcCfg, testCfg = _config_read()
opTestSys = OpTestSystem(bmcCfg['ip'],bmcCfg['username'],
bmcCfg['password'],
bmcCfg['usernameipmi'],
bmcCfg['passwordipmi'],
testCfg['ffdcdir'])
def test_init():
"""This function validates the test config before running other functions
"""
''' create FFDC dir if it does not exist '''
ffdcDir = testCfg['ffdcdir']
if not os.path.exists(os.path.dirname(ffdcDir)):
os.makedirs(os.path.dirname(ffdcDir))
''' make sure PNOR image exists '''
pnorImg = testCfg['imagedir'] + testCfg['imagename']
class OpTestPCI():
## Initialize this object
# @param i_bmcIP The IP address of the BMC
# @param i_bmcUser The userid to log into the BMC with
# @param i_bmcPasswd The password of the userid to log into the BMC with
# @param i_bmcUserIpmi The userid to issue the BMC IPMI commands with
# @param i_bmcPasswdIpmi The password of BMC IPMI userid
# @param i_ffdcDir Optional param to indicate where to write FFDC
#
# "Only required for inband tests" else Default = None
# @param i_hostIP The IP address of the HOST
# @param i_hostuser The userid to log into the HOST
# @param i_hostPasswd The password of the userid to log into the HOST with
#
def __init__(self,
i_bmcIP,
i_bmcUser,
i_bmcPasswd,
i_bmcUserIpmi,
i_bmcPasswdIpmi,
i_ffdcDir=None,
i_hostip=None,
i_hostuser=None,
i_hostPasswd=None,
i_hostLspci=None):
self.cv_BMC = OpTestBMC(i_bmcIP, i_bmcUser, i_bmcPasswd, i_ffdcDir)
self.cv_IPMI = OpTestIPMI(i_bmcIP, i_bmcUserIpmi, i_bmcPasswdIpmi,
i_ffdcDir, i_hostip, i_hostuser,
i_hostPasswd)
self.cv_HOST = OpTestHost(i_hostip, i_hostuser, i_hostPasswd, i_bmcIP,
i_ffdcDir)
self.cv_SYSTEM = OpTestSystem(i_bmcIP, i_bmcUser, i_bmcPasswd,
i_bmcUserIpmi, i_bmcPasswdIpmi,
i_ffdcDir, i_hostip, i_hostuser,
i_hostPasswd)
self.util = OpTestUtil()
self.lspci_file = i_hostLspci
##
# @brief This function will get the PCI and USB susbsytem Info
# And also this test compares known good data of
# "lspci -mm -n" which is stored in testcases/data directory
# with the current lspci data.
# User need to specify the corresponding file name into
# machines xml like lspci.txt which contains "lspci -mm -n"
# command output in a working good state of system.
# tools used are lspci and lsusb
#
# @return BMC_CONST.FW_SUCCESS or BMC_CONST.FW_FAILED
#
def test_host_pci_devices_info(self):
if self.lspci_file == "empty.txt":
print "Skipping the pci devices comparision as missing the lspci data file name in machines xml"
return BMC_CONST.FW_SUCCESS
filename = os.path.join(
os.path.dirname(__file__).split('testcases')[0], self.lspci_file)
if not os.path.isfile(filename):
raise OpTestError(
"lspci file %s not found in top level directory" % filename)
self.pci_good_data_file = filename
self.test_skiroot_pci_devices()
self.cv_IPMI.ipmi_set_boot_to_disk()
self.cv_IPMI.ipmi_power_off()
self.cv_IPMI.ipmi_power_on()
self.cv_IPMI.ipl_wait_for_working_state()
self.test_host_pci_devices()
##
# @brief This function will get the "lspci -mm -n" output from the petitboot
# and compares it with known good lspci data
#
# @return BMC_CONST.FW_SUCCESS or BMC_CONST.FW_FAILED
#
def test_skiroot_pci_devices(self):
cmd = "lspci -mm -n"
self.console = self.cv_SYSTEM.sys_get_ipmi_console()
self.cv_SYSTEM.sys_ipmi_boot_system_to_petitboot(self.console)
self.cv_IPMI.ipmi_host_set_unique_prompt(self.console)
self.cv_IPMI.run_host_cmd_on_ipmi_console("uname -a")
self.cv_IPMI.run_host_cmd_on_ipmi_console("cat /etc/os-release")
res = self.cv_IPMI.run_host_cmd_on_ipmi_console(cmd)
self.cv_SYSTEM.sys_ipmi_close_console(self.console)
self.pci_data_petitboot = '\n'.join(res[1:])
diff_process = subprocess.Popen(
['diff', "-u", self.pci_good_data_file, "-"],
stdin=subprocess.PIPE)
diff_stdout, diff_stderr = diff_process.communicate(
self.pci_data_petitboot + '\n')
r = diff_process.wait()
if r == 0:
print "All the pci devices are detected at petitboot"
else:
print diff_stdout
raise OpTestError(
"There is a mismatch b/w known good output and tested petitboot lspci output"
)
##
# @brief This function will get the "lspci -mm -n" output from the host OS
# and compares it with known good lspci data
#
# @return BMC_CONST.FW_SUCCESS or BMC_CONST.FW_FAILED
#
def test_host_pci_devices(self):
self.cv_HOST.host_check_command("lspci", "lsusb")
self.cv_HOST.host_list_pci_devices()
self.cv_HOST.host_get_pci_verbose_info()
self.cv_HOST.host_list_usb_devices()
l_res = self.cv_HOST.host_run_command("lspci -mm -n")
self.pci_data_hostos = l_res.replace("\r\n", "\n")
diff_process = subprocess.Popen(
['diff', "-u", self.pci_good_data_file, "-"],
stdin=subprocess.PIPE)
diff_stdout, diff_stderr = diff_process.communicate(
self.pci_data_hostos)
r = diff_process.wait()
if r == 0:
print "All the pci devices are detected in host OS"
else:
print diff_stdout
raise OpTestError(
"There is a mismatch b/w known good output and tested host OS lspci output"
)
