client/site_tests/power_SuspendStress/power_SuspendStress.py - mirrors/cros/chromiumos/third_party/autotest - Git at Google

 # Copyright (c) 2013 The Chromium OS Authors. All rights reserved.
 # Use of this source code is governed by a BSD-style license that can be
 # found in the LICENSE file.

 import logging, numpy, random, time

 from autotest_lib.client.bin import test, utils
 from autotest_lib.client.common_lib import error
 from autotest_lib.client.common_lib.cros.network import interface
 from autotest_lib.client.cros.power import power_suspend, sys_power

 class power_SuspendStress(test.test):
     """Class for test."""
     version = 1

     def initialize(self, duration, idle=False, init_delay=0, min_suspend=0,
                    min_resume=5, max_resume_window=3, check_connection=True,
                    iterations=None, suspend_state=''):
         """
         Entry point.

         @param duration: total run time of the test
         @param idle: use sys_power.idle_suspend method.
                 (use with dummy_IdleSuspend)
         @param init_delay: wait this many seconds before starting the test to
                 give parallel tests time to get started
         @param min_suspend: suspend durations will be chosen randomly out of
                 the interval between min_suspend and min_suspend + 3 seconds.
         @param min_resume: minimal time in seconds between suspends.
         @param max_resume_window: maximum range to use between suspends. i.e.,
                 we will stay awake between min_resume and min_resume +
                 max_resume_window seconds.
         @param check_connection: If true, we check that the network interface
                 used for testing is up after resume. Otherwsie we reboot.
         @param iterations: number of times to attempt suspend.  If !=None has
                 precedence over duration.
         @param suspend_state: Force to suspend to a specific
                 state ("mem" or "freeze"). If the string is empty, suspend
                 state is left to the default pref on the system.
         """
         self._endtime = time.time()
         if duration:
             self._endtime += duration
         self._init_delay = init_delay
         self._min_suspend = min_suspend
         self._min_resume = min_resume
         self._max_resume_window = max_resume_window
         self._check_connection = check_connection
         self._iterations = iterations
         self._suspend_state = suspend_state
         self._method = sys_power.idle_suspend if idle else sys_power.do_suspend

     def _done(self):
         if self._iterations != None:
             self._iterations -= 1
             return self._iterations < 0
         return time.time() >= self._endtime

     def run_once(self):
         time.sleep(self._init_delay)
         self._suspender = power_suspend.Suspender(
                 self.resultsdir, method=self._method,
                 suspend_state=self._suspend_state)
         # Find the interface which is used for most communication.
         # We assume the interface connects to the gateway and has the lowest
         # metric.
         if self._check_connection:
             interface_choices={}
             with open('/proc/net/route') as fh:
                 for line in fh:
                     fields = line.strip().split()
                     if fields[1] != '00000000' or not int(fields[3], 16) & 2:
                         continue
                     interface_choices[fields[0]] = fields[6]
             iface = interface.Interface(min(interface_choices))

         while not self._done():
             time.sleep(self._min_resume +
                        random.randint(0, self._max_resume_window))
             # Check the network interface to the caller is still available
             if self._check_connection:
                 # Give a 10 second window for the network to come back.
                 try:
                     utils.poll_for_condition(iface.is_link_operational,
                                              desc='Link is operational')
                 except utils.TimeoutError:
                     logging.error('Link to the server gone, reboot')
                     utils.system('reboot')
                     # Reboot may return; raise a TestFail() to abort too, even
                     # though the server likely won't see this.
                     raise error.TestFail('Link is gone; rebooting')

             self._suspender.suspend(random.randint(0, 3) + self._min_suspend)


     def postprocess_iteration(self):
         if self._suspender.successes:
             keyvals = {'suspend_iterations': len(self._suspender.successes)}
             for key in self._suspender.successes[0]:
                 values = [result[key] for result in self._suspender.successes]
                 keyvals[key + '_mean'] = numpy.mean(values)
                 keyvals[key + '_stddev'] = numpy.std(values)
                 keyvals[key + '_min'] = numpy.amin(values)
                 keyvals[key + '_max'] = numpy.amax(values)
             self.write_perf_keyval(keyvals)
         if self._suspender.failures:
             total = len(self._suspender.failures)
             iterations = len(self._suspender.successes) + total
             timeout = kernel = firmware = spurious = 0
             for failure in self._suspender.failures:
                 if type(failure) is sys_power.SuspendTimeout: timeout += 1
                 if type(failure) is sys_power.KernelError: kernel += 1
                 if type(failure) is sys_power.FirmwareError: firmware += 1
                 if type(failure) is sys_power.SpuriousWakeupError: spurious += 1
             if total == kernel + timeout:
                 raise error.TestWarn('%d non-fatal suspend failures in %d '
                         'iterations (%d timeouts, %d kernel warnings)' %
                         (total, iterations, timeout, kernel))
             if total == 1:
                 # just throw it as is, makes aggregation on dashboards easier
                 raise self._suspender.failures[0]
             raise error.TestFail('%d suspend failures in %d iterations (%d '
                     'timeouts, %d kernel warnings, %d firmware errors, %d '
                     'spurious wakeups)' %
                     (total, iterations, timeout, kernel, firmware, spurious))


     def cleanup(self):
         """
         Clean this up before we wait ages for all the log copying to finish...
         """
         self._suspender.finalize()
	# Copyright (c) 2013 The Chromium OS Authors. All rights reserved.
	# Use of this source code is governed by a BSD-style license that can be
	# found in the LICENSE file.

	import logging, numpy, random, time

	from autotest_lib.client.bin import test, utils
	from autotest_lib.client.common_lib import error
	from autotest_lib.client.common_lib.cros.network import interface
	from autotest_lib.client.cros.power import power_suspend, sys_power

	class power_SuspendStress(test.test):
	"""Class for test."""
	version = 1

	def initialize(self, duration, idle=False, init_delay=0, min_suspend=0,
	min_resume=5, max_resume_window=3, check_connection=True,
	iterations=None, suspend_state=''):
	"""
	Entry point.

	@param duration: total run time of the test
	@param idle: use sys_power.idle_suspend method.
	(use with dummy_IdleSuspend)
	@param init_delay: wait this many seconds before starting the test to
	give parallel tests time to get started
	@param min_suspend: suspend durations will be chosen randomly out of
	the interval between min_suspend and min_suspend + 3 seconds.
	@param min_resume: minimal time in seconds between suspends.
	@param max_resume_window: maximum range to use between suspends. i.e.,
	we will stay awake between min_resume and min_resume +
	max_resume_window seconds.
	@param check_connection: If true, we check that the network interface
	used for testing is up after resume. Otherwsie we reboot.
	@param iterations: number of times to attempt suspend. If !=None has
	precedence over duration.
	@param suspend_state: Force to suspend to a specific
	state ("mem" or "freeze"). If the string is empty, suspend
	state is left to the default pref on the system.
	"""
	self._endtime = time.time()
	if duration:
	self._endtime += duration
	self._init_delay = init_delay
	self._min_suspend = min_suspend
	self._min_resume = min_resume
	self._max_resume_window = max_resume_window
	self._check_connection = check_connection
	self._iterations = iterations
	self._suspend_state = suspend_state
	self._method = sys_power.idle_suspend if idle else sys_power.do_suspend

	def _done(self):
	if self._iterations != None:
	self._iterations -= 1
	return self._iterations < 0
	return time.time() >= self._endtime

	def run_once(self):
	time.sleep(self._init_delay)
	self._suspender = power_suspend.Suspender(
	self.resultsdir, method=self._method,
	suspend_state=self._suspend_state)
	# Find the interface which is used for most communication.
	# We assume the interface connects to the gateway and has the lowest
	# metric.
	if self._check_connection:
	interface_choices={}
	with open('/proc/net/route') as fh:
	for line in fh:
	fields = line.strip().split()
	if fields[1] != '00000000' or not int(fields[3], 16) & 2:
	continue
	interface_choices[fields[0]] = fields[6]
	iface = interface.Interface(min(interface_choices))

	while not self._done():
	time.sleep(self._min_resume +
	random.randint(0, self._max_resume_window))
	# Check the network interface to the caller is still available
	if self._check_connection:
	# Give a 10 second window for the network to come back.
	try:
	utils.poll_for_condition(iface.is_link_operational,
	desc='Link is operational')
	except utils.TimeoutError:
	logging.error('Link to the server gone, reboot')
	utils.system('reboot')
	# Reboot may return; raise a TestFail() to abort too, even
	# though the server likely won't see this.
	raise error.TestFail('Link is gone; rebooting')

	self._suspender.suspend(random.randint(0, 3) + self._min_suspend)


	def postprocess_iteration(self):
	if self._suspender.successes:
	keyvals = {'suspend_iterations': len(self._suspender.successes)}
	for key in self._suspender.successes[0]:
	values = [result[key] for result in self._suspender.successes]
	keyvals[key + '_mean'] = numpy.mean(values)
	keyvals[key + '_stddev'] = numpy.std(values)
	keyvals[key + '_min'] = numpy.amin(values)
	keyvals[key + '_max'] = numpy.amax(values)
	self.write_perf_keyval(keyvals)
	if self._suspender.failures:
	total = len(self._suspender.failures)
	iterations = len(self._suspender.successes) + total
	timeout = kernel = firmware = spurious = 0
	for failure in self._suspender.failures:
	if type(failure) is sys_power.SuspendTimeout: timeout += 1
	if type(failure) is sys_power.KernelError: kernel += 1
	if type(failure) is sys_power.FirmwareError: firmware += 1
	if type(failure) is sys_power.SpuriousWakeupError: spurious += 1
	if total == kernel + timeout:
	raise error.TestWarn('%d non-fatal suspend failures in %d '
	'iterations (%d timeouts, %d kernel warnings)' %
	(total, iterations, timeout, kernel))
	if total == 1:
	# just throw it as is, makes aggregation on dashboards easier
	raise self._suspender.failures[0]
	raise error.TestFail('%d suspend failures in %d iterations (%d '
	'timeouts, %d kernel warnings, %d firmware errors, %d '
	'spurious wakeups)' %
	(total, iterations, timeout, kernel, firmware, spurious))


	def cleanup(self):
	"""
	Clean this up before we wait ages for all the log copying to finish...
	"""
	self._suspender.finalize()