lib/utils.py - openbmc/openbmc-test-automation - Gitiles

 #!/usr/bin/env python

 r"""
 Companion file to utils.robot.
 """

 import gen_print as gp
 import gen_robot_keyword as grk
 import bmc_ssh_utils as bsu
 import var_funcs as vf
 from robot.libraries.BuiltIn import BuiltIn
 from robot.libraries import DateTime
 try:
     from robot.utils import DotDict
 except ImportError:
     pass
 import collections


 def set_power_policy_method():

     r"""
     Set the global bmc_power_policy_method to either 'Old' or 'New'.

     The power policy data has moved from an 'org' location to an 'xyz'
     location.  This keyword will determine whether the new method of getting
     the power policy is valid and will set the global bmc_power_policy_method
     variable accordingly.  If power_policy_setup is already set (by a prior
     call to this function), this keyword will simply return.

     If bmc_power_policy_method is "Old", this function will adjust the global
     policy variables from data/variables.py: RESTORE_LAST_STATE,
     ALWAYS_POWER_ON, ALWAYS_POWER_OFF.
     """

     # Retrieve global variables.
     power_policy_setup = \
         int(BuiltIn().get_variable_value("${power_policy_setup}",
                                          default=0))
     bmc_power_policy_method = \
         BuiltIn().get_variable_value("${bmc_power_policy_method}",
                                      default=0)
     gp.dpvar(power_policy_setup)

     # If this function has already been run once, we need not continue.
     if power_policy_setup:
         return

     gp.dpvar(bmc_power_policy_method, 1)

     # The user has not set bmc_power_policy_method via a -v parm so we will
     # determine what it should be.
     if bmc_power_policy_method == "":
         status, ret_values = grk.run_key_u("New Get Power Policy", ignore=1)
         if status == 'PASS':
             bmc_power_policy_method = 'New'
         else:
             bmc_power_policy_method = 'Old'

     gp.qpvar(bmc_power_policy_method)
     # For old style, we will rewrite these global variable settings to old
     # values.
     if bmc_power_policy_method == "Old":
         BuiltIn().set_global_variable("${RESTORE_LAST_STATE}",
                                       "RESTORE_LAST_STATE")
         BuiltIn().set_global_variable("${ALWAYS_POWER_ON}",
                                       "ALWAYS_POWER_ON")
         BuiltIn().set_global_variable("${ALWAYS_POWER_OFF}",
                                       "ALWAYS_POWER_OFF")

     # Set global variables to control subsequent calls to this function.
     BuiltIn().set_global_variable("${bmc_power_policy_method}",
                                   bmc_power_policy_method)
     BuiltIn().set_global_variable("${power_policy_setup}", 1)


 def translate_power_policy_value(policy):

     r"""
     Translate the policy value and return the result.

     Using old style functions, callers might call like this with a hard-
     code value for policy:

     Set BMC Power Policy  RESTORE_LAST_STATE

     This function will get the value of the corresponding global variable (if
     it exists) and return it.

     This will allow the old style call to still work on systems using the new
     method of storing the policy value.
     """

     valid_power_policy_vars = \
         BuiltIn().get_variable_value("${valid_power_policy_vars}")

     if policy not in valid_power_policy_vars:
         return policy

     status, ret_values = grk.run_key_u("Get Variable Value  ${" + policy + "}",
                                        quiet=1)
     return ret_values


 def get_bmc_date_time():

     r"""
     Get date/time info from BMC and return as a dictionary.

     Example of dictionary data returned by this keyword.
     time_dict:
       [local_time]:               Fri 2017-11-03 152756 UTC
       [local_time_seconds]:       1509740876
       [universal_time]:           Fri 2017-11-03 152756 UTC
       [universal_time_seconds]:   1509740876
       [rtc_time]:                 Fri 2016-05-20 163403
       [rtc_time_seconds]:         1463780043
       [time_zone]:                n/a (UTC, +0000)
       [network_time_on]:          yes
       [ntp_synchronized]:         no
       [rtc_in_local_tz]:          no
     """

     out_buf, stderr, rc = bsu.bmc_execute_command('timedatectl')
     # Example of output returned by call to timedatectl:
     #       Local time: Fri 2017-11-03 15:27:56 UTC
     #   Universal time: Fri 2017-11-03 15:27:56 UTC
     #         RTC time: Fri 2016-05-20 16:34:03
     #        Time zone: n/a (UTC, +0000)
     #  Network time on: yes
     # NTP synchronized: no
     #  RTC in local TZ: no

     # Convert the out_buf to a dictionary.
     initial_time_dict = vf.key_value_outbuf_to_dict(out_buf)

     # For each "_time" entry in the dictionary, we will create a corresponding
     # "_time_seconds" entry.  We create a new dictionary so that the entries
     # are kept in a nice order for printing.
     try:
         result_time_dict = collections.OrderedDict()
     except AttributeError:
         result_time_dict = DotDict()

     for key, value in initial_time_dict.items():
         result_time_dict[key] = value
         if not key.endswith("_time"):
             continue
         result_time_dict[key + '_seconds'] = \
             int(DateTime.convert_date(value, result_format='epoch'))

     return result_time_dict
	#!/usr/bin/env python

	r"""
	Companion file to utils.robot.
	"""

	import gen_print as gp
	import gen_robot_keyword as grk
	import bmc_ssh_utils as bsu
	import var_funcs as vf
	from robot.libraries.BuiltIn import BuiltIn
	from robot.libraries import DateTime
	try:
	from robot.utils import DotDict
	except ImportError:
	pass
	import collections


	def set_power_policy_method():

	r"""
	Set the global bmc_power_policy_method to either 'Old' or 'New'.

	The power policy data has moved from an 'org' location to an 'xyz'
	location. This keyword will determine whether the new method of getting
	the power policy is valid and will set the global bmc_power_policy_method
	variable accordingly. If power_policy_setup is already set (by a prior
	call to this function), this keyword will simply return.

	If bmc_power_policy_method is "Old", this function will adjust the global
	policy variables from data/variables.py: RESTORE_LAST_STATE,
	ALWAYS_POWER_ON, ALWAYS_POWER_OFF.
	"""

	# Retrieve global variables.
	power_policy_setup = \
	int(BuiltIn().get_variable_value("${power_policy_setup}",
	default=0))
	bmc_power_policy_method = \
	BuiltIn().get_variable_value("${bmc_power_policy_method}",
	default=0)
	gp.dpvar(power_policy_setup)

	# If this function has already been run once, we need not continue.
	if power_policy_setup:
	return

	gp.dpvar(bmc_power_policy_method, 1)

	# The user has not set bmc_power_policy_method via a -v parm so we will
	# determine what it should be.
	if bmc_power_policy_method == "":
	status, ret_values = grk.run_key_u("New Get Power Policy", ignore=1)
	if status == 'PASS':
	bmc_power_policy_method = 'New'
	else:
	bmc_power_policy_method = 'Old'

	gp.qpvar(bmc_power_policy_method)
	# For old style, we will rewrite these global variable settings to old
	# values.
	if bmc_power_policy_method == "Old":
	BuiltIn().set_global_variable("${RESTORE_LAST_STATE}",
	"RESTORE_LAST_STATE")
	BuiltIn().set_global_variable("${ALWAYS_POWER_ON}",
	"ALWAYS_POWER_ON")
	BuiltIn().set_global_variable("${ALWAYS_POWER_OFF}",
	"ALWAYS_POWER_OFF")

	# Set global variables to control subsequent calls to this function.
	BuiltIn().set_global_variable("${bmc_power_policy_method}",
	bmc_power_policy_method)
	BuiltIn().set_global_variable("${power_policy_setup}", 1)


	def translate_power_policy_value(policy):

	r"""
	Translate the policy value and return the result.

	Using old style functions, callers might call like this with a hard-
	code value for policy:

	Set BMC Power Policy RESTORE_LAST_STATE

	This function will get the value of the corresponding global variable (if
	it exists) and return it.

	This will allow the old style call to still work on systems using the new
	method of storing the policy value.
	"""

	valid_power_policy_vars = \
	BuiltIn().get_variable_value("${valid_power_policy_vars}")

	if policy not in valid_power_policy_vars:
	return policy

	status, ret_values = grk.run_key_u("Get Variable Value ${" + policy + "}",
	quiet=1)
	return ret_values


	def get_bmc_date_time():

	r"""
	Get date/time info from BMC and return as a dictionary.

	Example of dictionary data returned by this keyword.
	time_dict:
	[local_time]: Fri 2017-11-03 152756 UTC
	[local_time_seconds]: 1509740876
	[universal_time]: Fri 2017-11-03 152756 UTC
	[universal_time_seconds]: 1509740876
	[rtc_time]: Fri 2016-05-20 163403
	[rtc_time_seconds]: 1463780043
	[time_zone]: n/a (UTC, +0000)
	[network_time_on]: yes
	[ntp_synchronized]: no
	[rtc_in_local_tz]: no
	"""

	out_buf, stderr, rc = bsu.bmc_execute_command('timedatectl')
	# Example of output returned by call to timedatectl:
	# Local time: Fri 2017-11-03 15:27:56 UTC
	# Universal time: Fri 2017-11-03 15:27:56 UTC
	# RTC time: Fri 2016-05-20 16:34:03
	# Time zone: n/a (UTC, +0000)
	# Network time on: yes
	# NTP synchronized: no
	# RTC in local TZ: no

	# Convert the out_buf to a dictionary.
	initial_time_dict = vf.key_value_outbuf_to_dict(out_buf)

	# For each "_time" entry in the dictionary, we will create a corresponding
	# "_time_seconds" entry. We create a new dictionary so that the entries
	# are kept in a nice order for printing.
	try:
	result_time_dict = collections.OrderedDict()
	except AttributeError:
	result_time_dict = DotDict()

	for key, value in initial_time_dict.items():
	result_time_dict[key] = value
	if not key.endswith("_time"):
	continue
	result_time_dict[key + '_seconds'] = \
	int(DateTime.convert_date(value, result_format='epoch'))

	return result_time_dict