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

 # Copyright 2015 The Chromium 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 errno
 import hashlib
 import logging
 import math
 import mmap
 import os
 import re

 from contextlib import closing

 from autotest_lib.client.bin import utils
 from autotest_lib.client.common_lib import error
 from autotest_lib.client.common_lib import file_utils
 from autotest_lib.client.cros import chrome_binary_test
 from autotest_lib.client.cros.video import helper_logger


 DOWNLOAD_BASE = ('http://commondatastorage.googleapis.com'
                  '/chromiumos-test-assets-public/')

 VEA_BINARY = 'video_encode_accelerator_unittest'
 TIME_BINARY = '/usr/local/bin/time'

 # The format used for 'time': <real time> <kernel time> <user time>
 TIME_OUTPUT_FORMAT = '%e %S %U'

 TEST_LOG_SUFFIX = 'test.log'
 TIME_LOG_SUFFIX = 'time.log'

 # Performance keys:
 # FPS (i.e. encoder throughput)
 KEY_FPS = 'fps'
 # Encode latencies at the 50th, 75th, and 95th percentiles.
 # Encode latency is the delay from input of a frame to output of the encoded
 # bitstream.
 KEY_ENCODE_LATENCY_50 = 'encode_latency.50_percentile'
 KEY_ENCODE_LATENCY_75 = 'encode_latency.75_percentile'
 KEY_ENCODE_LATENCY_95 = 'encode_latency.95_percentile'
 # CPU usage in kernel space
 KEY_CPU_KERNEL_USAGE = 'cpu_usage.kernel'
 # CPU usage in user space
 KEY_CPU_USER_USAGE = 'cpu_usage.user'

 # Units of performance values:
 # (These strings should match chromium/src/tools/perf/unit-info.json.)
 UNIT_MILLISECOND = 'milliseconds'
 UNIT_MICROSECOND = 'us'
 UNIT_PERCENT = 'percent'
 UNIT_FPS = 'fps'

 RE_FPS = re.compile(r'^Measured encoder FPS: ([+\-]?[0-9.]+)$', re.MULTILINE)
 RE_ENCODE_LATENCY_50 = re.compile(
     r'^Encode latency for the 50th percentile: (\d+) us$',
     re.MULTILINE)
 RE_ENCODE_LATENCY_75 = re.compile(
     r'^Encode latency for the 75th percentile: (\d+) us$',
     re.MULTILINE)
 RE_ENCODE_LATENCY_95 = re.compile(
     r'^Encode latency for the 95th percentile: (\d+) us$',
     re.MULTILINE)


 def _remove_if_exists(filepath):
     try:
         os.remove(filepath)
     except OSError, e:
         if e.errno != errno.ENOENT:  # no such file
             raise


 class video_VEAPerf(chrome_binary_test.ChromeBinaryTest):
     """
     This test monitors several performance metrics reported by Chrome test
     binary, video_encode_accelerator_unittest.
     """

     version = 1

     def _logperf(self, test_name, key, value, units, higher_is_better=False):
         description = '%s.%s' % (test_name, key)
         self.output_perf_value(
                 description=description, value=value, units=units,
                 higher_is_better=higher_is_better)


     def _analyze_fps(self, test_name, log_file):
         """
         Analyzes FPS info from result log file.
         """
         with open(log_file, 'r') as f:
             mm = mmap.mmap(f.fileno(), 0, access=mmap.ACCESS_READ)
             fps = [float(m.group(1)) for m in RE_FPS.finditer(mm)]
             mm.close()
         if len(fps) != 1:
             raise error.TestError('Parsing FPS failed w/ %d occurrence(s).' %
                                   len(fps))
         self._logperf(test_name, KEY_FPS, fps[0], UNIT_FPS, True)


     def _analyze_encode_latency(self, test_name, log_file):
         """
         Analyzes encode latency from result log file.
         """
         with open(log_file, 'r') as f:
             mm = mmap.mmap(f.fileno(), 0, access=mmap.ACCESS_READ)
             latency_50 = [int(m.group(1)) for m in
                           RE_ENCODE_LATENCY_50.finditer(mm)]
             latency_75 = [int(m.group(1)) for m in
                           RE_ENCODE_LATENCY_75.finditer(mm)]
             latency_95 = [int(m.group(1)) for m in
                           RE_ENCODE_LATENCY_95.finditer(mm)]
             mm.close()
         if any([len(l) != 1 for l in [latency_50, latency_75, latency_95]]):
             raise error.TestError('Parsing encode latency failed.')
         self._logperf(test_name, KEY_ENCODE_LATENCY_50, latency_50[0],
                       UNIT_MICROSECOND)
         self._logperf(test_name, KEY_ENCODE_LATENCY_75, latency_75[0],
                       UNIT_MICROSECOND)
         self._logperf(test_name, KEY_ENCODE_LATENCY_95, latency_95[0],
                       UNIT_MICROSECOND)


     def _analyze_cpu_usage(self, test_name, time_log_file):
         """
         Analyzes CPU usage from the output of 'time' command.
         """
         with open(time_log_file) as f:
             content = f.read()
         r, s, u = (float(x) for x in content.split())
         self._logperf(test_name, KEY_CPU_USER_USAGE, u / r, UNIT_PERCENT)
         self._logperf(test_name, KEY_CPU_KERNEL_USAGE, s / r, UNIT_PERCENT)


     def _get_profile_name(self, profile):
         """
         Gets profile name from a profile index.
         """
         if profile == 1:
             return 'h264'
         elif profile == 11:
             return 'vp8'
         else:
             raise error.TestError('Internal error.')


     def _convert_test_name(self, path, on_cloud, profile):
         """Converts source path to test name and output video file name.

         For example: for the path on cloud
             "tulip2/tulip2-1280x720-1b95123232922fe0067869c74e19cd09.yuv"

         We will derive the test case's name as "tulip2-1280x720.vp8" or
         "tulip2-1280x720.h264" depending on the profile. The MD5 checksum in
         path will be stripped.

         For the local file, we use the base name directly.

         @param path: The local path or download path.
         @param on_cloud: Whether the file is on cloud.
         @param profile: Profile index.

         @returns a pair of (test name, output video file name)
         """
         s = os.path.basename(path)
         name = s[:s.rfind('-' if on_cloud else '.')]
         profile_name = self._get_profile_name(profile)
         return (name + '_' + profile_name, name + '.' + profile_name)


     def _download_video(self, path_on_cloud, local_file):
         url = '%s%s' % (DOWNLOAD_BASE, path_on_cloud)
         logging.info('download "%s" to "%s"', url, local_file)

         file_utils.download_file(url, local_file)

         with open(local_file, 'r') as r:
             md5sum = hashlib.md5(r.read()).hexdigest()
             if md5sum not in path_on_cloud:
                 raise error.TestError('unmatched md5 sum: %s' % md5sum)


     def _get_result_filename(self, test_name, subtype, suffix):
         return os.path.join(self.resultsdir,
                             '%s_%s_%s' % (test_name, subtype, suffix))


     def _run_test_case(self, test_name, test_stream_data):
         """
         Runs a VEA unit test.

         @param test_name: Name of this test case.
         @param test_stream_data: Parameter to --test_stream_data in vea_unittest.
         """
         # Get FPS.
         test_log_file = self._get_result_filename(test_name, 'fullspeed',
                                                   TEST_LOG_SUFFIX)
         vea_args = [
             '--gtest_filter=EncoderPerf/*/0',
             '--test_stream_data=%s' % test_stream_data,
             '--output_log="%s"' % test_log_file,
             helper_logger.chrome_vmodule_flag(),
             '--ozone-platform=gbm']
         self.run_chrome_test_binary(VEA_BINARY, ' '.join(vea_args))
         self._analyze_fps(test_name, test_log_file)

         # Get CPU usage and encode latency under specified frame rate.
         test_log_file = self._get_result_filename(test_name, 'fixedspeed',
                                                   TEST_LOG_SUFFIX)
         time_log_file = self._get_result_filename(test_name, 'fixedspeed',
                                                   TIME_LOG_SUFFIX)
         vea_args = [
             '--gtest_filter=SimpleEncode/*/0',
             '--test_stream_data=%s' % test_stream_data,
             '--run_at_fps', '--measure_latency',
             '--output_log="%s"' % test_log_file,
             helper_logger.chrome_vmodule_flag(),
             '--ozone-platform=gbm']
         time_cmd = ('%s -f "%s" -o "%s" ' %
                     (TIME_BINARY, TIME_OUTPUT_FORMAT, time_log_file))
         self.run_chrome_test_binary(VEA_BINARY, ' '.join(vea_args),
                                     prefix=time_cmd)
         self._analyze_encode_latency(test_name, test_log_file)
         self._analyze_cpu_usage(test_name, time_log_file)

     @helper_logger.video_log_wrapper
     @chrome_binary_test.nuke_chrome
     def run_once(self, test_cases):
         last_error = None
         for (path, on_cloud, width, height, requested_bit_rate,
              profile, requested_frame_rate) in test_cases:
             try:
                 test_name, output_name = self._convert_test_name(
                     path, on_cloud, profile)
                 if on_cloud:
                     input_path = os.path.join(self.tmpdir,
                                               os.path.basename(path))
                     self._download_video(path, input_path)
                 else:
                     input_path = os.path.join(self.cr_source_dir, path)
                 output_path = os.path.join(self.tmpdir, output_name)
                 test_stream_data = '%s:%s:%s:%s:%s:%s:%s' % (
                     input_path, width, height, profile, output_path,
                     requested_bit_rate, requested_frame_rate)
                 self._run_test_case(test_name, test_stream_data)
             except Exception as last_error:
                 # Log the error and continue to the next test case.
                 logging.exception(last_error)
             finally:
                 if on_cloud:
                     _remove_if_exists(input_path)
                 _remove_if_exists(output_path)

         if last_error:
             raise last_error
	# Copyright 2015 The Chromium 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 errno
	import hashlib
	import logging
	import math
	import mmap
	import os
	import re

	from contextlib import closing

	from autotest_lib.client.bin import utils
	from autotest_lib.client.common_lib import error
	from autotest_lib.client.common_lib import file_utils
	from autotest_lib.client.cros import chrome_binary_test
	from autotest_lib.client.cros.video import helper_logger


	DOWNLOAD_BASE = ('http://commondatastorage.googleapis.com'
	'/chromiumos-test-assets-public/')

	VEA_BINARY = 'video_encode_accelerator_unittest'
	TIME_BINARY = '/usr/local/bin/time'

	# The format used for 'time': <real time> <kernel time> <user time>
	TIME_OUTPUT_FORMAT = '%e %S %U'

	TEST_LOG_SUFFIX = 'test.log'
	TIME_LOG_SUFFIX = 'time.log'

	# Performance keys:
	# FPS (i.e. encoder throughput)
	KEY_FPS = 'fps'
	# Encode latencies at the 50th, 75th, and 95th percentiles.
	# Encode latency is the delay from input of a frame to output of the encoded
	# bitstream.
	KEY_ENCODE_LATENCY_50 = 'encode_latency.50_percentile'
	KEY_ENCODE_LATENCY_75 = 'encode_latency.75_percentile'
	KEY_ENCODE_LATENCY_95 = 'encode_latency.95_percentile'
	# CPU usage in kernel space
	KEY_CPU_KERNEL_USAGE = 'cpu_usage.kernel'
	# CPU usage in user space
	KEY_CPU_USER_USAGE = 'cpu_usage.user'

	# Units of performance values:
	# (These strings should match chromium/src/tools/perf/unit-info.json.)
	UNIT_MILLISECOND = 'milliseconds'
	UNIT_MICROSECOND = 'us'
	UNIT_PERCENT = 'percent'
	UNIT_FPS = 'fps'

	RE_FPS = re.compile(r'^Measured encoder FPS: ([+\-]?[0-9.]+)$', re.MULTILINE)
	RE_ENCODE_LATENCY_50 = re.compile(
	r'^Encode latency for the 50th percentile: (\d+) us$',
	re.MULTILINE)
	RE_ENCODE_LATENCY_75 = re.compile(
	r'^Encode latency for the 75th percentile: (\d+) us$',
	re.MULTILINE)
	RE_ENCODE_LATENCY_95 = re.compile(
	r'^Encode latency for the 95th percentile: (\d+) us$',
	re.MULTILINE)


	def _remove_if_exists(filepath):
	try:
	os.remove(filepath)
	except OSError, e:
	if e.errno != errno.ENOENT: # no such file
	raise


	class video_VEAPerf(chrome_binary_test.ChromeBinaryTest):
	"""
	This test monitors several performance metrics reported by Chrome test
	binary, video_encode_accelerator_unittest.
	"""

	version = 1

	def _logperf(self, test_name, key, value, units, higher_is_better=False):
	description = '%s.%s' % (test_name, key)
	self.output_perf_value(
	description=description, value=value, units=units,
	higher_is_better=higher_is_better)


	def _analyze_fps(self, test_name, log_file):
	"""
	Analyzes FPS info from result log file.
	"""
	with open(log_file, 'r') as f:
	mm = mmap.mmap(f.fileno(), 0, access=mmap.ACCESS_READ)
	fps = [float(m.group(1)) for m in RE_FPS.finditer(mm)]
	mm.close()
	if len(fps) != 1:
	raise error.TestError('Parsing FPS failed w/ %d occurrence(s).' %
	len(fps))
	self._logperf(test_name, KEY_FPS, fps[0], UNIT_FPS, True)


	def _analyze_encode_latency(self, test_name, log_file):
	"""
	Analyzes encode latency from result log file.
	"""
	with open(log_file, 'r') as f:
	mm = mmap.mmap(f.fileno(), 0, access=mmap.ACCESS_READ)
	latency_50 = [int(m.group(1)) for m in
	RE_ENCODE_LATENCY_50.finditer(mm)]
	latency_75 = [int(m.group(1)) for m in
	RE_ENCODE_LATENCY_75.finditer(mm)]
	latency_95 = [int(m.group(1)) for m in
	RE_ENCODE_LATENCY_95.finditer(mm)]
	mm.close()
	if any([len(l) != 1 for l in [latency_50, latency_75, latency_95]]):
	raise error.TestError('Parsing encode latency failed.')
	self._logperf(test_name, KEY_ENCODE_LATENCY_50, latency_50[0],
	UNIT_MICROSECOND)
	self._logperf(test_name, KEY_ENCODE_LATENCY_75, latency_75[0],
	UNIT_MICROSECOND)
	self._logperf(test_name, KEY_ENCODE_LATENCY_95, latency_95[0],
	UNIT_MICROSECOND)


	def _analyze_cpu_usage(self, test_name, time_log_file):
	"""
	Analyzes CPU usage from the output of 'time' command.
	"""
	with open(time_log_file) as f:
	content = f.read()
	r, s, u = (float(x) for x in content.split())
	self._logperf(test_name, KEY_CPU_USER_USAGE, u / r, UNIT_PERCENT)
	self._logperf(test_name, KEY_CPU_KERNEL_USAGE, s / r, UNIT_PERCENT)


	def _get_profile_name(self, profile):
	"""
	Gets profile name from a profile index.
	"""
	if profile == 1:
	return 'h264'
	elif profile == 11:
	return 'vp8'
	else:
	raise error.TestError('Internal error.')


	def _convert_test_name(self, path, on_cloud, profile):
	"""Converts source path to test name and output video file name.

	For example: for the path on cloud
	"tulip2/tulip2-1280x720-1b95123232922fe0067869c74e19cd09.yuv"

	We will derive the test case's name as "tulip2-1280x720.vp8" or
	"tulip2-1280x720.h264" depending on the profile. The MD5 checksum in
	path will be stripped.

	For the local file, we use the base name directly.

	@param path: The local path or download path.
	@param on_cloud: Whether the file is on cloud.
	@param profile: Profile index.

	@returns a pair of (test name, output video file name)
	"""
	s = os.path.basename(path)
	name = s[:s.rfind('-' if on_cloud else '.')]
	profile_name = self._get_profile_name(profile)
	return (name + '_' + profile_name, name + '.' + profile_name)


	def _download_video(self, path_on_cloud, local_file):
	url = '%s%s' % (DOWNLOAD_BASE, path_on_cloud)
	logging.info('download "%s" to "%s"', url, local_file)

	file_utils.download_file(url, local_file)

	with open(local_file, 'r') as r:
	md5sum = hashlib.md5(r.read()).hexdigest()
	if md5sum not in path_on_cloud:
	raise error.TestError('unmatched md5 sum: %s' % md5sum)


	def _get_result_filename(self, test_name, subtype, suffix):
	return os.path.join(self.resultsdir,
	'%s_%s_%s' % (test_name, subtype, suffix))


	def _run_test_case(self, test_name, test_stream_data):
	"""
	Runs a VEA unit test.

	@param test_name: Name of this test case.
	@param test_stream_data: Parameter to --test_stream_data in vea_unittest.
	"""
	# Get FPS.
	test_log_file = self._get_result_filename(test_name, 'fullspeed',
	TEST_LOG_SUFFIX)
	vea_args = [
	'--gtest_filter=EncoderPerf/*/0',
	'--test_stream_data=%s' % test_stream_data,
	'--output_log="%s"' % test_log_file,
	helper_logger.chrome_vmodule_flag(),
	'--ozone-platform=gbm']
	self.run_chrome_test_binary(VEA_BINARY, ' '.join(vea_args))
	self._analyze_fps(test_name, test_log_file)

	# Get CPU usage and encode latency under specified frame rate.
	test_log_file = self._get_result_filename(test_name, 'fixedspeed',
	TEST_LOG_SUFFIX)
	time_log_file = self._get_result_filename(test_name, 'fixedspeed',
	TIME_LOG_SUFFIX)
	vea_args = [
	'--gtest_filter=SimpleEncode/*/0',
	'--test_stream_data=%s' % test_stream_data,
	'--run_at_fps', '--measure_latency',
	'--output_log="%s"' % test_log_file,
	helper_logger.chrome_vmodule_flag(),
	'--ozone-platform=gbm']
	time_cmd = ('%s -f "%s" -o "%s" ' %
	(TIME_BINARY, TIME_OUTPUT_FORMAT, time_log_file))
	self.run_chrome_test_binary(VEA_BINARY, ' '.join(vea_args),
	prefix=time_cmd)
	self._analyze_encode_latency(test_name, test_log_file)
	self._analyze_cpu_usage(test_name, time_log_file)

	@helper_logger.video_log_wrapper
	@chrome_binary_test.nuke_chrome
	def run_once(self, test_cases):
	last_error = None
	for (path, on_cloud, width, height, requested_bit_rate,
	profile, requested_frame_rate) in test_cases:
	try:
	test_name, output_name = self._convert_test_name(
	path, on_cloud, profile)
	if on_cloud:
	input_path = os.path.join(self.tmpdir,
	os.path.basename(path))
	self._download_video(path, input_path)
	else:
	input_path = os.path.join(self.cr_source_dir, path)
	output_path = os.path.join(self.tmpdir, output_name)
	test_stream_data = '%s:%s:%s:%s:%s:%s:%s' % (
	input_path, width, height, profile, output_path,
	requested_bit_rate, requested_frame_rate)
	self._run_test_case(test_name, test_stream_data)
	except Exception as last_error:
	# Log the error and continue to the next test case.
	logging.exception(last_error)
	finally:
	if on_cloud:
	_remove_if_exists(input_path)
	_remove_if_exists(output_path)

	if last_error:
	raise last_error