client/tests/wb_kupdate/wb_kupdate.py - mirrors/cros/chromiumos/third_party/autotest - Git at Google

 import datetime, logging, os, time
 from autotest_lib.client.bin import test, utils
 from autotest_lib.client.common_lib import error

 class wb_kupdate(test.test):
     version = 1


     def _check_parameters(self, mount_point, write_size, file_count,
                           old_cleanup=False):
         """
         Check all test parameters.

         @param mount_point: the path to the desired mount_point.
         @param write_size: the size of data in MB to write.
         @param file_count: the number of files to write.
         @param old_cleanup: removes previous mount_point if it exists and is
                 not mounted. Default is False.
         """
         # Check mount_point.
         if not os.path.exists(mount_point):
             logging.info('%s does not exist. Creating directory.', mount_point)
         elif not os.path.ismount(mount_point) and old_cleanup:
             logging.info('Removing previous mount_point directory')
             os.rmdir(mount_point)
             logging.info('Creating new mount_point.')
         else:
             raise error.TestError('Mount point: %s already exists.' %
                                   mount_point)

         os.makedirs(mount_point)
         # Check write_size > 0.
         if not (write_size > 0):
             raise error.TestError('Write size should be a positive integer.')

         # Check file_count > 0.
         if not (file_count > 0) :
             raise error.TestError('File count shoulde be a positive integer.')


     def _reset_device(self):
         """
         Reset the test. Reinitialize sparse file.
         """
         # Umount device.
         logging.debug('Cleanup - unmounting loopback device.')
         utils.system('umount %s' % self.mount_point, ignore_status=True)

         # Remove sparse_file.
         logging.debug('Cleanup - removing sparse file.')
         os.remove(self.sparse_file)

         # Remove mount_point directory.
         logging.debug('Cleanup - removing the mount_point.')
         os.rmdir(self.mount_point)


     def _create_partition(self):
         """
         Create and initialize the sparse file.
         """
         # Recreate sparse_file.
         utils.system('dd if=/dev/zero of=%s bs=1M seek=1024 count=1' %
                       self.sparse_file)

         # Format sparse_file.
         utils.system('echo "y" |  mkfs -t %s %s' %
                      (self.file_system, self.sparse_file))

         # Mount sparse_file.
         utils.system('mount -o loop -t %s %s %s' %
                      (self.file_system, self.sparse_file, self.mount_point))


     def _needs_more_time(self, start_time, duration, _now=None):
         """
         Checks to see if the test has run its course.

         @param start_time: a datetime object specifying the start time of the
                 test.
         @param duration: test duration in minutes.
         @param _now: used mostly for testing - ensures that the function returns
                 pass/fail depnding on the value of _now.

         @return: True if the test still needs to run longer.
                  False if the test has run for 'duration' minutes.
         """
         if not _now:
             time_diff = datetime.datetime.now() - start_time
         else:
             time_diff = _now - start_time
         return time_diff <= datetime.timedelta(seconds=duration*60)


     def _write_data(self, destination, counter, write_size):
         """
         Writes data to the cache/memory.

         @param destination: the absolute path to where the data needs to be
         written.
         @param counter: the file counter.
         @param write_size: the size of data to be written.

         @return: the time when the write completed as a datetime object.
         """
         # Write data to disk.
         file_name = os.path.join(destination, 'test_file_%s' % counter)
         write_cmd = ('dd if=/dev/zero of=%s bs=1M count=%s' %
                      (file_name, write_size))
         utils.system(write_cmd)

         # Time the write operation.
         write_completion_time = datetime.datetime.now()

         # Return write completion time.
         return write_completion_time


     def _get_disk_usage(self, file_name):
         """
         Returns the disk usage of given file.

         @param file_name: the name of the file.

         @return: the disk usage as an integer.
         """
         # Check du stats.
         cmd = '%s %s' % (self._DU_CMD, file_name)

         # Expected value for  output = '1028\tfoo'
         output = utils.system_output(cmd)

         # Desired ouput = (1028, foo)
         output = output.split('\t')

         return int(output[0])


     def _wait_until_data_flushed(self, start_time, max_wait_time):
         """
         Check to see if the sparse file size increases.

         @param start_time: the time when data was actually written into the
                 cache.
         @param max_wait_time: the max amount of time to wait.

         @return: time waited as a datetime.timedelta object.
         """
         current_size = self._get_disk_usage(self.sparse_file)
         flushed_size = current_size

         logging.debug('current_size: %s' % current_size)
         logging.debug('flushed_size: %s' % flushed_size)

         # Keep checking until du value changes.
         while current_size == flushed_size:
             # Get flushed_size.
             flushed_size = self._get_disk_usage(self.sparse_file)
             logging.debug('flushed_size: %s' % flushed_size)
             time.sleep(1)

             # Check if data has been synced to disk.
             if not self._needs_more_time(start_time, max_wait_time):
                 raise error.TestError('Data not flushed. Waited for %s minutes '
                                       'for data to flush out.' % max_wait_time)

         # Return time waited.
         return datetime.datetime.now() - start_time


     def initialize(self):
         """
         Initialize all private and global member variables.
         """
         self._DU_CMD = 'du'
         self.partition = None
         self.mount_point = ''
         self.sparse_file = ''
         self.result_map = {}
         self.file_system = None


     def run_once(self, mount_point, file_count, write_size,
                  max_flush_time=1, file_system=None, remove_previous=False,
                  sparse_file=os.path.join(os.getcwd(),'sparse_file'),
                  old_cleanup=False):
         """
         Control execution of the test.

         @param mount_point: the absolute path to the mount point.
         @param file_count: the number of files to write.
         @param write_size: the size of each file in MB.
         @param max_flush_time: the maximum time to wait for the writeback to
                 flush dirty data to disk. Default = 1 minute.
         @param file_system: the new file system to be mounted, if any.
                 Default = None.
         @param remove_previous: boolean that allows the removal of previous
                 files before creating a new one. Default = False.
         @param sparse_file: the absolute path to the sparse file.
         @param old_cleanup: removes previous mount_point if it exists and is
                 not mounted. Default is False.
         """
         # Check validity of parameters.
         self._check_parameters(mount_point, write_size, file_count,
                                old_cleanup)

         # Initialize class variables.
         self.mount_point = mount_point
         self.sparse_file = sparse_file
         self.file_system = file_system

         # Initialize partition values.
         self._create_partition()

         # Flush read and write cache.
         utils.drop_caches()

         # Start iterations.
         logging.info('Starting test operations.')
         test_start_time = datetime.datetime.now()
         counter = 1

         # Run test until file_count files are successfully written to disk.
         while counter < file_count:
             logging.info('Iteration %s.', counter)

             # Write data to disk.
             write_completion_time = self._write_data(self.mount_point, counter,
                                                      write_size)
             logging.debug('Write time:%s',
                           write_completion_time.strftime("%H:%M:%S"))

             # Wait until data get synced to disk.
             time_taken = self._wait_until_data_flushed(write_completion_time,
                                                        max_flush_time)

             # Log time statistics.
             logging.info('Time taken to flush data: %s seconds.',
                          time_taken.seconds)

             # Check if there is a need to remove the previously written file.
             if remove_previous:
                 logging.debug('Removing previous file instance.')
                 os.remove(sparse_file)
             else:
                 logging.debug('Not removing previous file instance.')

             # Flush cache.
             logging.debug('Flush cache between iterations.')
             utils.drop_caches()

            # Update the result map.
             self.result_map[counter] = time_taken.seconds

             # Increment the counter.
             counter += 1


     def postprocess(self):
         """
         Cleanup routine.
         """
         # Write out keyval map.
         self.write_perf_keyval(self.result_map)

         # Cleanup device.
         self._reset_device()

         logging.info('Test operations completed.')
	import datetime, logging, os, time
	from autotest_lib.client.bin import test, utils
	from autotest_lib.client.common_lib import error

	class wb_kupdate(test.test):
	version = 1


	def _check_parameters(self, mount_point, write_size, file_count,
	old_cleanup=False):
	"""
	Check all test parameters.

	@param mount_point: the path to the desired mount_point.
	@param write_size: the size of data in MB to write.
	@param file_count: the number of files to write.
	@param old_cleanup: removes previous mount_point if it exists and is
	not mounted. Default is False.
	"""
	# Check mount_point.
	if not os.path.exists(mount_point):
	logging.info('%s does not exist. Creating directory.', mount_point)
	elif not os.path.ismount(mount_point) and old_cleanup:
	logging.info('Removing previous mount_point directory')
	os.rmdir(mount_point)
	logging.info('Creating new mount_point.')
	else:
	raise error.TestError('Mount point: %s already exists.' %
	mount_point)

	os.makedirs(mount_point)
	# Check write_size > 0.
	if not (write_size > 0):
	raise error.TestError('Write size should be a positive integer.')

	# Check file_count > 0.
	if not (file_count > 0) :
	raise error.TestError('File count shoulde be a positive integer.')


	def _reset_device(self):
	"""
	Reset the test. Reinitialize sparse file.
	"""
	# Umount device.
	logging.debug('Cleanup - unmounting loopback device.')
	utils.system('umount %s' % self.mount_point, ignore_status=True)

	# Remove sparse_file.
	logging.debug('Cleanup - removing sparse file.')
	os.remove(self.sparse_file)

	# Remove mount_point directory.
	logging.debug('Cleanup - removing the mount_point.')
	os.rmdir(self.mount_point)


	def _create_partition(self):
	"""
	Create and initialize the sparse file.
	"""
	# Recreate sparse_file.
	utils.system('dd if=/dev/zero of=%s bs=1M seek=1024 count=1' %
	self.sparse_file)

	# Format sparse_file.
	utils.system('echo "y" \| mkfs -t %s %s' %
	(self.file_system, self.sparse_file))

	# Mount sparse_file.
	utils.system('mount -o loop -t %s %s %s' %
	(self.file_system, self.sparse_file, self.mount_point))


	def _needs_more_time(self, start_time, duration, _now=None):
	"""
	Checks to see if the test has run its course.

	@param start_time: a datetime object specifying the start time of the
	test.
	@param duration: test duration in minutes.
	@param _now: used mostly for testing - ensures that the function returns
	pass/fail depnding on the value of _now.

	@return: True if the test still needs to run longer.
	False if the test has run for 'duration' minutes.
	"""
	if not _now:
	time_diff = datetime.datetime.now() - start_time
	else:
	time_diff = _now - start_time
	return time_diff <= datetime.timedelta(seconds=duration*60)


	def _write_data(self, destination, counter, write_size):
	"""
	Writes data to the cache/memory.

	@param destination: the absolute path to where the data needs to be
	written.
	@param counter: the file counter.
	@param write_size: the size of data to be written.

	@return: the time when the write completed as a datetime object.
	"""
	# Write data to disk.
	file_name = os.path.join(destination, 'test_file_%s' % counter)
	write_cmd = ('dd if=/dev/zero of=%s bs=1M count=%s' %
	(file_name, write_size))
	utils.system(write_cmd)

	# Time the write operation.
	write_completion_time = datetime.datetime.now()

	# Return write completion time.
	return write_completion_time


	def _get_disk_usage(self, file_name):
	"""
	Returns the disk usage of given file.

	@param file_name: the name of the file.

	@return: the disk usage as an integer.
	"""
	# Check du stats.
	cmd = '%s %s' % (self._DU_CMD, file_name)

	# Expected value for output = '1028\tfoo'
	output = utils.system_output(cmd)

	# Desired ouput = (1028, foo)
	output = output.split('\t')

	return int(output[0])


	def _wait_until_data_flushed(self, start_time, max_wait_time):
	"""
	Check to see if the sparse file size increases.

	@param start_time: the time when data was actually written into the
	cache.
	@param max_wait_time: the max amount of time to wait.

	@return: time waited as a datetime.timedelta object.
	"""
	current_size = self._get_disk_usage(self.sparse_file)
	flushed_size = current_size

	logging.debug('current_size: %s' % current_size)
	logging.debug('flushed_size: %s' % flushed_size)

	# Keep checking until du value changes.
	while current_size == flushed_size:
	# Get flushed_size.
	flushed_size = self._get_disk_usage(self.sparse_file)
	logging.debug('flushed_size: %s' % flushed_size)
	time.sleep(1)

	# Check if data has been synced to disk.
	if not self._needs_more_time(start_time, max_wait_time):
	raise error.TestError('Data not flushed. Waited for %s minutes '
	'for data to flush out.' % max_wait_time)

	# Return time waited.
	return datetime.datetime.now() - start_time


	def initialize(self):
	"""
	Initialize all private and global member variables.
	"""
	self._DU_CMD = 'du'
	self.partition = None
	self.mount_point = ''
	self.sparse_file = ''
	self.result_map = {}
	self.file_system = None


	def run_once(self, mount_point, file_count, write_size,
	max_flush_time=1, file_system=None, remove_previous=False,
	sparse_file=os.path.join(os.getcwd(),'sparse_file'),
	old_cleanup=False):
	"""
	Control execution of the test.

	@param mount_point: the absolute path to the mount point.
	@param file_count: the number of files to write.
	@param write_size: the size of each file in MB.
	@param max_flush_time: the maximum time to wait for the writeback to
	flush dirty data to disk. Default = 1 minute.
	@param file_system: the new file system to be mounted, if any.
	Default = None.
	@param remove_previous: boolean that allows the removal of previous
	files before creating a new one. Default = False.
	@param sparse_file: the absolute path to the sparse file.
	@param old_cleanup: removes previous mount_point if it exists and is
	not mounted. Default is False.
	"""
	# Check validity of parameters.
	self._check_parameters(mount_point, write_size, file_count,
	old_cleanup)

	# Initialize class variables.
	self.mount_point = mount_point
	self.sparse_file = sparse_file
	self.file_system = file_system

	# Initialize partition values.
	self._create_partition()

	# Flush read and write cache.
	utils.drop_caches()

	# Start iterations.
	logging.info('Starting test operations.')
	test_start_time = datetime.datetime.now()
	counter = 1

	# Run test until file_count files are successfully written to disk.
	while counter < file_count:
	logging.info('Iteration %s.', counter)

	# Write data to disk.
	write_completion_time = self._write_data(self.mount_point, counter,
	write_size)
	logging.debug('Write time:%s',
	write_completion_time.strftime("%H:%M:%S"))

	# Wait until data get synced to disk.
	time_taken = self._wait_until_data_flushed(write_completion_time,
	max_flush_time)

	# Log time statistics.
	logging.info('Time taken to flush data: %s seconds.',
	time_taken.seconds)

	# Check if there is a need to remove the previously written file.
	if remove_previous:
	logging.debug('Removing previous file instance.')
	os.remove(sparse_file)
	else:
	logging.debug('Not removing previous file instance.')

	# Flush cache.
	logging.debug('Flush cache between iterations.')
	utils.drop_caches()

	# Update the result map.
	self.result_map[counter] = time_taken.seconds

	# Increment the counter.
	counter += 1


	def postprocess(self):
	"""
	Cleanup routine.
	"""
	# Write out keyval map.
	self.write_perf_keyval(self.result_map)

	# Cleanup device.
	self._reset_device()

	logging.info('Test operations completed.')