def run(self, out_dir, uri, portrait=True, collect=''): """ Run viewer workload :param out_dir: Path to experiment directory where to store results. :type out_dir: str :param uri: The URI of the item to display :type location_search: str :param portrait: If True, display mode will be set to 'portrait' prior to viewing the item. If False, 'landscape' mode will be set. :param collect: Specifies what to collect. Possible values: - 'energy' - 'systrace' - 'ftrace' - any combination of the above :type collect: list(str) """ # Keep track of mandatory parameters self.out_dir = out_dir self.collect = collect # Set min brightness Screen.set_brightness(self._target, auto=False, percent=0) # Unlock device screen (assume no password required) Screen.unlock(self._target) # Force screen in requested orientation Screen.set_orientation(self._target, portrait=portrait) System.gfxinfo_reset(self._target, self.package) # Wait for gfxinfo reset to be completed sleep(1) # Open the requested uri System.view_uri(self._target, uri) self.pre_interact() self.tracingStart() self.interact() self.tracingStop() self.post_interact() # Get frame stats self.db_file = os.path.join(out_dir, "framestats.txt") System.gfxinfo_get(self._target, self.package, self.db_file) # Go back to home screen System.home(self._target) # Set brightness back to auto Screen.set_brightness(self._target, auto=True) # Switch back to screen auto rotation Screen.set_orientation(self._target, auto=True)
def run(self, out_dir, video_url, video_duration_s, collect=''): """ Run single YouTube workload. :param out_dir: Path to experiment directory where to store results. :type out_dir: str :param video_url: Video URL to be played :type video_url: str :param video_duration_s: Play video for this required number of seconds :type video_duration_s: int :param collect: Specifies what to collect. Possible values: - 'energy' - 'systrace' - 'ftrace' - any combination of the above :type collect: list(str) """ # Keep track of mandatory parameters self.out_dir = out_dir self.collect = collect # Unlock device screen (assume no password required) Screen.unlock(self._target) # Stop youtube if already running System.force_stop(self._target, self.package) # Use the monkey tool to start YouTube without playing any video. # This allows to subsequently set the screen orientation to LANDSCAPE # and to reset the frame statistics. System.monkey(self._target, self.package) # Force screen in LANDSCAPE mode Screen.set_orientation(self._target, portrait=False) # Set min brightness Screen.set_brightness(self._target, auto=False, percent=0) System.gfxinfo_reset(self._target, self.package) sleep(1) # Start YouTube video on the target device System.start_action(self._target, self.action, video_url) # Allow the activity to start sleep(1) # Wait until the end of the video self.tracingStart() self._log.info('Play video for %d [s]', video_duration_s) sleep(video_duration_s) self.tracingStop() # Get frame stats self.db_file = os.path.join(out_dir, "framestats.txt") System.gfxinfo_get(self._target, self.package, self.db_file) # Close the app without clearing the local data to # avoid the dialog to select the account at next start System.force_stop(self._target, self.package, clear=False) # Go back to home screen System.home(self._target) # Switch back to screen auto rotation Screen.set_orientation(self._target, auto=True) # Set brightness back to auto Screen.set_brightness(self._target, auto=True)
def run(self, out_dir, test_name, collect=''): """ Run single Vellamo workload. Returns a collection of results. :param out_dir: Path to experiment directory where to store results. :type out_dir: str :param test_name: Name of the test to run :type test_name: str :param collect: Specifies what to collect. Possible values: - 'energy' - 'systrace' - 'ftrace' - any combination of the above :type collect: list(str) """ self.out_dir = out_dir self.collect = collect # Check if the density of the target device screen is different from # the one used to get the values below density = Screen.get_screen_density(self._target) if DEFAULT_DENSITY not in density: msg = 'Screen density of target device differs from {}.\n'\ 'Please set it to {}' raise RuntimeError(msg.format(DEFAULT_DENSITY, DEFAULT_DENSITY)) if test_name.upper() not in VELLAMO_TESTS: raise ValueError('Vellamo workload [%s] not supported', test_name) # Set parameter depending on test self._log.debug('Start Vellamo Benchmark [%s]', test_name) test_x, test_y = (0, 0) sleep_time = 0 if test_name.upper() == 'BROWSER': test_x, test_y = (91, 33) sleep_time = 3.5 elif test_name.upper() == 'METAL': test_x, test_y = (91, 59) sleep_time = 1 elif test_name.upper() == 'MULTI': test_x, test_y = (91, 71) sleep_time = 3.5 # Unlock device screen (assume no password required) Screen.unlock(self._target) System.force_stop(self._target, self.package, clear=True) # Set min brightness Screen.set_brightness(self._target, auto=False, percent=0) # Clear logcat os.system(self._adb('logcat -c')) # Regexps for benchmark synchronization start_logline = r'ActivityManager: Start.*'\ ':com.quicinc.vellamo:benchmarking' VELLAMO_BENCHMARK_START_RE = re.compile(start_logline) self._log.debug("START string [%s]", start_logline) # End of benchmark is marked by displaying results end_logline = r'ActivityManager: START.*'\ 'act=com.quicinc.vellamo.*_RESULTS' VELLAMO_BENCHMARK_END_RE = re.compile(end_logline) self._log.debug("END string [%s]", end_logline) # Parse logcat output lines logcat_cmd = self._adb( 'logcat ActivityManager:* System.out:I *:S BENCH:*'\ .format(self._target.adb_name)) self._log.info("%s", logcat_cmd) # Start the activity System.start_activity(self._target, self.package, self.activity) logcat = Popen(logcat_cmd, shell=True, stdout=PIPE) sleep(2) # Accept EULA System.tap(self._target, 80, 86) sleep(1) # Click Let's Roll System.tap(self._target, 50, 67) sleep(1) # Skip Arrow System.tap(self._target, 46, 78) # Run Workload System.tap(self._target, test_x, test_y) # Skip instructions System.hswipe(self._target, 10, 80, duration=100, swipe_right=False) System.hswipe(self._target, 10, 80, duration=100, swipe_right=False) System.hswipe(self._target, 10, 80, duration=100, swipe_right=False) self._log.info("Vellamo - {} started!".format(test_name.upper())) while True: # read next logcat line (up to max 1024 chars) message = logcat.stdout.readline(1024) # Benchmark start trigger if VELLAMO_BENCHMARK_START_RE.search(message): # Start tracing self.tracingStart() self._log.debug("Benchmark started!") elif VELLAMO_BENCHMARK_END_RE.search(message): # Stop tracing self.tracingStop() break else: continue # Gather scores file from the device db_file = os.path.join(out_dir, VELLAMO_SCORE_NAME) self._target.pull('{}/{}'.format(VELLAMO_DB_PATH, VELLAMO_SCORE_NAME), db_file) System.force_stop(self._target, self.package, clear=True) # Go back to home screen System.home(self._target) # Set brightness back to auto Screen.set_brightness(self._target, auto=True)
def run(self, out_dir, location_search, swipe_count=5, collect=''): """ Run single Gmaps workload. :param out_dir: Path to experiment directory where to store results. :type out_dir: str :param location_search: Search string to be used in GMaps :type location_search: str :param swipe_count: Number of sets of (left, right, up, down) swipes to do :type swipe_count: int :param collect: Specifies what to collect. Possible values: - 'energy' - 'systrace' - 'ftrace' - any combination of the above :type collect: list(str) """ # Keep track of mandatory parameters self.out_dir = out_dir self.collect = collect # Set min brightness Screen.set_brightness(self._target, auto=False, percent=0) # Unlock device screen (assume no password required) Screen.unlock(self._target) # Use the monkey tool to start GMaps # This allows to subsequently set the screen orientation to LANDSCAPE # and to reset the frame statistics. System.monkey(self._target, self.package) # Force screen in PORTRAIT mode Screen.set_orientation(self._target, portrait=True) System.gfxinfo_reset(self._target, self.package) sleep(1) # Start GMaps on the target device loc_url = 'geo:0,0?q=' loc_url += '+'.join(location_search.split()) System.start_action(self._target, self.action, loc_url) # Allow the activity to start sleep(1) script = TargetScript(self._te, "gmaps_swiper.sh") self._log.debug('Accumulating commands') for i in range(swipe_count): System.hswipe(script, 20, 80, 100, True) script.append('sleep 1') System.hswipe(script, 20, 80, 100, False) script.append('sleep 1') System.vswipe(script, 40, 60, 100, True) script.append('sleep 1') System.vswipe(script, 40, 60, 100, False) script.append('sleep 1') self._log.debug('Accumulation done') # Push script to the target script.push() self._log.info('Opening GMaps to [%s]', loc_url) # Let GMaps zoom in on the location sleep(2) self.tracingStart() self._log.info('Launching target script') script.run() self._log.info('Target script ended') self.tracingStop() # Get frame stats self.db_file = os.path.join(out_dir, "framestats.txt") System.gfxinfo_get(self._target, self.package, self.db_file) # Close the app without clearing the local data to # avoid the dialog to select the account at next start System.force_stop(self._target, self.package, clear=False) # Go back to home screen System.home(self._target) # Set brightness back to auto Screen.set_brightness(self._target, auto=True) # Switch back to screen auto rotation Screen.set_orientation(self._target, auto=True)
def run(self, out_dir, test_name, collect=''): """ Run single PCMark workload. Returns a collection of results. :param out_dir: Path to experiment directory on the host where to store results. :type out_dir: str :param test_name: Name of the test to run :type test_name: str :param collect: Specifies what to collect. Possible values: - 'energy' - 'systrace' - 'ftrace' - any combination of the above as a single space-separated string. :type collect: list(str) """ self.out_dir = out_dir self.collect = collect # Unlock device screen (assume no password required) System.menu(self._target) # Make sure we exit the app if already open System.back(self._target) # Close and NOT clear application (benchmark tests are downloaded from web) System.force_stop(self._target, self.package, clear=False) # Set airplane mode System.set_airplane_mode(self._target, on=True) # Set min brightness Screen.set_brightness(self._target, auto=False, percent=0) # Force screen in PORTRAIT mode Screen.set_orientation(self._target, portrait=True) monitor = self._target.get_logcat_monitor(REGEXPS.values()) # Start PCMark on the target device System.start_activity(self._target, self.package, self.activity) # Wait a few seconds while application is being loaded time.sleep(5) if test_name.lower() == 'work': # Move to benchmark run page System.tab(self._target) System.enter(self._target) # Wait for page animations to end time.sleep(10) else: raise ValueError('PCMark test [%s] not supported', test_name) # Start benchmark monitor.start() System.enter(self._target) monitor.wait_for(REGEXPS['start']) self.tracingStart() self._log.info('PCmark started!') monitor.wait_for(REGEXPS['end'], timeout=600) self.tracingStop() self._log.info('PCmark ended!') # That should only match one line, but use the most recent one # in case logcat wasn't cleared properly result = monitor.wait_for(REGEXPS['result'])[-1] monitor.stop() remote_archive = re.match(REGEXPS['result'], result).group('path') local_archive = os.path.join(out_dir, self._target.path.basename(remote_archive)) self._target.pull(remote_archive, local_archive, as_root=True) # Several files in the archive # Only "Result.xml" matters to us with ZipFile(local_archive, 'r') as archive: archive.extractall(out_dir) # Fetch workloads names and scores scores = {} input_result_filepath = os.path.join(out_dir, INPUT_RESULT_FILE) with open(input_result_filepath, 'r') as fd: for line in fd: match = re.match(REGEXPS['score'], line) if match: scores[match.group('name')] = match.group('score') # Dump scores to json output_result_filepath = os.path.join(out_dir, OUTPUT_RESULT_FILE) with open(output_result_filepath, 'w') as fd: json.dump(scores, fd) self._log.info('Scores available in {}'.format(output_result_filepath)) System.force_stop(self._target, self.package, clear=False) # Restore default configuration System.home(self._target) # Set orientation back to auto Screen.set_orientation(self._target, auto=True) # Go back to home screen System.home(self._target) # Turn off airplane mode System.set_airplane_mode(self._target, on=False) # Set brightness back to auto Screen.set_brightness(self._target, auto=True)
def run(self, out_dir, test_name, iterations, collect): """ Run Jankbench workload for a number of iterations. Returns a collection of results. :param out_dir: Path to experiment directory on the host where to store results. :type out_dir: str :param test_name: Name of the test to run :type test_name: str :param iterations: Number of iterations for the named test :type iterations: int :param collect: Specifies what to collect. Possible values: - 'energy' - 'systrace' - 'ftrace' - any combination of the above as a single space-separated string. :type collect: list(str) """ # Keep track of mandatory parameters self.out_dir = out_dir self.collect = collect # Setup test id try: test_id = _jankbench[test_name] except KeyError: raise ValueError('Jankbench test [%s] not supported', test_name) # Unlock device screen (assume no password required) Screen.unlock(self._target) # Close and clear application System.force_stop(self._target, self.package, clear=True) # Set airplane mode System.set_airplane_mode(self._target, on=True) # Set min brightness Screen.set_brightness(self._target, auto=False, percent=0) # Force screen in PORTRAIT mode Screen.set_orientation(self._target, portrait=True) # Clear logcat self._target.clear_logcat() self._log.debug('Start Jank Benchmark [%d:%s]', test_id, test_name) test_cmd = 'am start -n "com.android.benchmark/.app.RunLocalBenchmarksActivity" '\ '--eia "com.android.benchmark.EXTRA_ENABLED_BENCHMARK_IDS" {0} '\ '--ei "com.android.benchmark.EXTRA_RUN_COUNT" {1}'\ .format(test_id, iterations) self._log.info(test_cmd) self._target.execute(test_cmd); # Parse logcat output lines logcat_cmd = self._adb( 'logcat ActivityManager:* System.out:I *:S BENCH:*'\ .format(self._target.adb_name)) self._log.info(logcat_cmd) self._log.debug('Iterations:') logcat = Popen(logcat_cmd, shell=True, stdout=PIPE) while True: # read next logcat line (up to max 1024 chars) message = logcat.stdout.readline(1024) # Benchmark start trigger match = JANKBENCH_BENCHMARK_START_RE.search(message) if match: self.tracingStart() self._log.debug('Benchmark started!') # Benchmark completed trigger match = JANKBENCH_BENCHMARK_DONE_RE.search(message) if match: self._log.debug('Benchmark done!') self.tracingStop() break # Iteration completd match = JANKBENCH_ITERATION_COUNT_RE.search(message) if match: self._log.debug('Iteration %2d:', int(match.group('iteration'))+1) # Iteration metrics match = JANKBENCH_ITERATION_METRICS_RE.search(message) if match: self._log.info(' Mean: %7.3f JankP: %7.3f StdDev: %7.3f Count Bad: %4d Count Jank: %4d', float(match.group('mean')), float(match.group('junk_p')), float(match.group('std_dev')), int(match.group('count_bad')), int(match.group('count_junk'))) # Get results self.db_file = os.path.join(out_dir, JANKBENCH_DB_NAME) self._target.pull(JANKBENCH_DB_PATH + JANKBENCH_DB_NAME, self.db_file) System.force_stop(self._target, self.package, clear=True) # Go back to home screen System.home(self._target) # Reset initial setup # Set orientation back to auto Screen.set_orientation(self._target, auto=True) # Turn off airplane mode System.set_airplane_mode(self._target, on=False) # Set brightness back to auto Screen.set_brightness(self._target, auto=True)
def run(self, out_dir, duration_s=10, collect='surfaceflinger'): """ Run a camera startup workload :param out_dir: Path to experiment directory where to store results. :type out_dir: str :param duration_s: Duration of test :type duration_s: int :param collect: Specifies what to collect. Possible values: - 'energy' - 'systrace' - 'ftrace' - any combination of the above :type collect: list(str) """ self._log.info( "Running CameraStartup for {}s and collecting {}".format( duration_s, collect)) # Keep track of mandatory parameters self.out_dir = out_dir self.collect = collect # Unlock device screen (assume no password required) Screen.unlock(self._target) # Set airplane mode System.set_airplane_mode(self._target, on=True) # Set min brightness Screen.set_brightness(self._target, auto=False, percent=0) # Force screen in PORTRAIT mode Screen.set_orientation(self._target, portrait=True) sleep(1) self.tracingStart() # Wait for a few seconds so that you can clear see start of trace and start of camera app sleep(3) # Use the monkey tool to start CameraStartup System.monkey(self._target, self.package) sleep(duration_s) self.tracingStop() # Close the app without clearing the local data to # avoid the dialog to select the account at next start System.force_stop(self._target, self.package, clear=False) # Go back to home screen System.home(self._target) # Set brightness back to auto Screen.set_brightness(self._target, auto=True) # Switch back to screen auto rotation Screen.set_orientation(self._target, auto=True) # Switch off airplane mode System.set_airplane_mode(self._target, on=False)
def run(self, out_dir, duration_s, collect=''): """ Run single idle/suspend workload. :param out_dir: Path to experiment directory where to store results. :type out_dir: str :param duration_s: Duration of test :type duration_s: int :type force: str :param collect: Specifies what to collect. Possible values: - 'energy' - 'systrace' - 'ftrace' - any combination of the above :type collect: list(str) """ # Idle/resume should always disconnect USB so rely on # the Energy meter to disconnect USB (We only support USB disconnect # mode for energy measurement, like with Monsoon if 'energy' not in collect: collect = collect + ' energy' # Keep track of mandatory parameters self.out_dir = out_dir self.collect = collect # Set min brightness Screen.set_brightness(self._target, auto=False, percent=0) # Set timeout to min value Screen.set_timeout(self._target, seconds=0) # Prevent screen from dozing Screen.set_doze_always_on(self._target, on=False) # Turn on airplane mode System.set_airplane_mode(self._target, on=True) # Unlock device screen (assume no password required) Screen.unlock(self._target) # Force the device to suspend System.force_suspend_start(self._target) # Prevent the device from fully suspending by holding a partial wakelock System.wakelock(self._target, take=True) sleep(1) Screen.set_screen(self._target, on=False) sleep(1) self.tracingStart(screen_always_on=False) self._log.info('Waiting for duration {}'.format(duration_s)) sleep(duration_s) self.tracingStop(screen_always_on=False) # Resume normal function System.force_suspend_stop(self._target) # Release wakelock System.wakelock(self._target, take=False) Screen.set_defaults(self._target) System.set_airplane_mode(self._target, on=False)
def run(self, out_dir, test_name, collect=''): """ Run single Geekbench workload. :param out_dir: Path on host to experiment directory where to store results. :type out_dir: str :param test_name: Name of the test to run :type test_name: str :param collect: Specifies what to collect. Possible values: - 'energy' - 'systrace' - 'ftrace' - any combination of the above in a space-separated string. :type collect: list(str) """ # Initialize energy meter results self.out_dir = out_dir self.collect = collect # Clear the stored data for the application, so we always start with # an EULA to clear System.force_stop(self._target, self.package, clear=True) # Clear logcat from any previous runs # do this on the target as then we don't need to build a string self._target.clear_logcat() # Unlock device screen (assume no password required) System.menu(self._target) # Press Back button to be sure we run the benchmark from the start System.back(self._target) # Force screen in PORTRAIT mode Screen.set_orientation(self._target, portrait=True) # Set min brightness Screen.set_brightness(self._target, auto=False, percent=0) # Start app on the target device System.start_activity(self._target, self.package, self.activity) # Allow the activity to start sleep(2) # Parse logcat output lines to find beginning and end logcat_cmd = self._adb( 'logcat ActivityManager:* System.out:I *:S GEEKBENCH_RESULT:*'\ .format(self._target.adb_name)) self._log.info("%s", logcat_cmd) logcat = Popen(logcat_cmd, shell=True, stdout=PIPE) # Click to accept the EULA System.tap(self._target, 73, 55) sleep(1) # The main window opened will have the CPU benchmark # Swipe to get the COMPUTE one if test_name.upper() == 'COMPUTE': System.hswipe(self._target, 10, 80, duration=100, swipe_right=False) # Press the 'RUN <test_name> BENCHMARK' button System.tap(self._target, 73, 72) while True: # read next logcat line (up to max 1024 chars) message = logcat.stdout.readline(1024) # Benchmark start trigger match = GEEKBENCH_BENCHMARK_START_RE.search(message) if match: # Start tracing self.tracingStart() self._log.debug("Benchmark started!") # Benchmark end trigger match = GEEKBENCH_BENCHMARK_END_RE.search(message) if match: # Stop tracing self.tracingStop() remote_result_file = match.group('results_file') self._log.debug("Benchmark finished! Results are in {}".format(remote_result_file)) break # Get Geekbench Results file target_result_file = self._target.path.basename(remote_result_file) result_file = os.path.join(self.out_dir, target_result_file) self._log.debug("result_file={}".format(result_file)) self._target.pull(remote_result_file, result_file) # Close the app System.force_stop(self._target, self.package, clear=False) # Go back to home screen System.home(self._target) # Switch back to screen auto rotation Screen.set_orientation(self._target, auto=True) # Set brightness back to auto Screen.set_brightness(self._target, auto=True)
def run(self, out_dir, collect, media_file, from_device=False, play_duration_s=None): """ Run Exoplayer workload :param out_dir: Path to experiment directory on the host where to store results. :type out_dir: str :param collect: Specifies what to collect. Possible values: - 'energy' - 'systrace' - 'ftrace' - any combination of the above as a single space-separated string. :type collect: list(str) :param media_file: Filepath of the media to play Path on device if 'from_device' is True Path on host if 'from_device' is False (default) :type media_file: str :param from_device: Whether file to play is already on the device :type from_device: bool :param play_duration_s: If set, maximum duration (seconds) of the media playback If not set, media will play to completion :type play_duration_s: int """ # Keep track of mandatory parameters self.out_dir = out_dir self.collect = collect self.media_file = media_file self.from_device = from_device self.play_duration_s = play_duration_s # Check media file exists if from_device and not self._target.file_exists(self.media_file): raise RuntimeError('Cannot find "{}" on target'.format(self.media_file)) elif not from_device and not os.path.isfile(self.media_file): raise RuntimeError('Cannot find "{}" on host'.format(self.media_file)) # Unlock device screen (assume no password required) Screen.unlock(self._target) # Close and clear application System.force_stop(self._target, self.package, clear=True) # Enable airplane mode System.set_airplane_mode(self._target, on=True) # Set min brightness Screen.set_brightness(self._target, auto=False, percent=0) # Force screen in PORTRAIT mode Screen.set_orientation(self._target, portrait=True) # Launch Exoplayer benchmark self._play() # Go back to home screen System.home(self._target) # Set orientation back to auto Screen.set_orientation(self._target, auto=True) # Set brightness back to auto Screen.set_brightness(self._target, auto=True) # Turn off airplane mode System.set_airplane_mode(self._target, on=False) # Close and clear application System.force_stop(self._target, self.package, clear=True)
def run(self, out_dir, test_name, iterations, collect='gfxinfo'): """ Run single SystemUi jank test workload. :param out_dir: Path to experiment directory where to store results. :type out_dir: str :param test_name: Name of the test to run :type test_name: str :param iterations: Run benchmark for this required number of iterations :type iterations: int :param collect: Specifies what to collect. Possible values: - 'systrace' - 'ftrace' - 'gfxinfo' - 'surfaceflinger' - any combination of the above :type collect: list(str) """ if 'energy' in collect: raise ValueError( 'SystemUi workload does not support energy data collection') activity = '.' + test_name # Keep track of mandatory parameters self.out_dir = out_dir self.collect = collect # Unlock device screen (assume no password required) Screen.unlock(self._target) # Close and clear application System.force_stop(self._target, self.package, clear=True) # Set airplane mode System.set_airplane_mode(self._target, on=True) # Set min brightness Screen.set_brightness(self._target, auto=False, percent=0) # Force screen in PORTRAIT mode Screen.set_orientation(self._target, portrait=True) # Reset frame statistics System.gfxinfo_reset(self._target, self.package) sleep(1) # Clear logcat os.system(self._adb('logcat -c')) # Regexps for benchmark synchronization start_logline = r'TestRunner: started' SYSTEMUI_BENCHMARK_START_RE = re.compile(start_logline) self._log.debug("START string [%s]", start_logline) finish_logline = r'TestRunner: finished' SYSTEMUI_BENCHMARK_FINISH_RE = re.compile(finish_logline) self._log.debug("FINISH string [%s]", finish_logline) # Parse logcat output lines logcat_cmd = self._adb( 'logcat TestRunner:* System.out:I *:S BENCH:*'\ .format(self._target.adb_name)) self._log.info("%s", logcat_cmd) command = "nohup am instrument -e iterations {} -e class {}{} -w {}".format( iterations, self.test_package, activity, self.test_package) self._target.background(command) logcat = Popen(logcat_cmd, shell=True, stdout=PIPE) while True: # read next logcat line (up to max 1024 chars) message = logcat.stdout.readline(1024) # Benchmark start trigger match = SYSTEMUI_BENCHMARK_START_RE.search(message) if match: self.tracingStart() self._log.debug("Benchmark started!") match = SYSTEMUI_BENCHMARK_FINISH_RE.search(message) if match: self.tracingStop() self._log.debug("Benchmark finished!") break sleep(5) # Go back to home screen System.home(self._target) # Switch back to original settings Screen.set_orientation(self._target, auto=True) System.set_airplane_mode(self._target, on=False) Screen.set_brightness(self._target, auto=True)
def run(self, out_dir, test_name, collect=''): """ Run single Vellamo workload. Returns a collection of results. :param out_dir: Path to experiment directory where to store results. :type out_dir: str :param test_name: Name of the test to run :type test_name: str :param collect: Specifies what to collect. Possible values: - 'energy' - 'systrace' - 'ftrace' - any combination of the above :type collect: list(str) """ self.out_dir = out_dir self.collect = collect # Check if the density of the target device screen is different from # the one used to get the values below density = Screen.get_screen_density(self._target) if DEFAULT_DENSITY not in density: msg = 'Screen density of target device differs from {}.\n'\ 'Please set it to {}' raise RuntimeError(msg.format(DEFAULT_DENSITY, DEFAULT_DENSITY)) if test_name.upper() not in VELLAMO_TESTS: raise ValueError('Vellamo workload [%s] not supported', test_name) # Set parameter depending on test self._log.debug('Start Vellamo Benchmark [%s]', test_name) test_x, test_y = (0, 0) sleep_time = 0 if test_name.upper() == 'BROWSER': test_x, test_y = (91, 33) sleep_time = 3.5 elif test_name.upper() == 'METAL': test_x, test_y = (91, 59) sleep_time = 1 elif test_name.upper() == 'MULTI': test_x, test_y = (91, 71) sleep_time = 3.5 # Unlock device screen (assume no password required) Screen.unlock(self._target) System.force_stop(self._target, self.package, clear=True) # Set min brightness Screen.set_brightness(self._target, auto=False, percent=0) # Clear logcat os.system(self._adb('logcat -c')); # Regexps for benchmark synchronization start_logline = r'ActivityManager: Start.*'\ ':com.quicinc.vellamo:benchmarking' VELLAMO_BENCHMARK_START_RE = re.compile(start_logline) self._log.debug("START string [%s]", start_logline) # End of benchmark is marked by displaying results end_logline = r'ActivityManager: START.*'\ 'act=com.quicinc.vellamo.*_RESULTS' VELLAMO_BENCHMARK_END_RE = re.compile(end_logline) self._log.debug("END string [%s]", end_logline) # Parse logcat output lines logcat_cmd = self._adb( 'logcat ActivityManager:* System.out:I *:S BENCH:*'\ .format(self._target.adb_name)) self._log.info("%s", logcat_cmd) # Start the activity System.start_activity(self._target, self.package, self.activity) logcat = Popen(logcat_cmd, shell=True, stdout=PIPE) sleep(2) # Accept EULA System.tap(self._target, 80, 86) sleep(1) # Click Let's Roll System.tap(self._target, 50, 67) sleep(1) # Skip Arrow System.tap(self._target, 46, 78) # Run Workload System.tap(self._target, test_x, test_y) # Skip instructions System.hswipe(self._target, 10, 80, duration=100, swipe_right=False) System.hswipe(self._target, 10, 80, duration=100, swipe_right=False) System.hswipe(self._target, 10, 80, duration=100, swipe_right=False) self._log.info("Vellamo - {} started!".format(test_name.upper())) while True: # read next logcat line (up to max 1024 chars) message = logcat.stdout.readline(1024) # Benchmark start trigger if VELLAMO_BENCHMARK_START_RE.search(message): # Start tracing self.tracingStart() self._log.debug("Benchmark started!") elif VELLAMO_BENCHMARK_END_RE.search(message): # Stop tracing self.tracingStop() break else: continue # Gather scores file from the device db_file = os.path.join(out_dir, VELLAMO_SCORE_NAME) self._target.pull('{}/{}'.format(VELLAMO_DB_PATH, VELLAMO_SCORE_NAME), db_file) System.force_stop(self._target, self.package, clear=True) # Go back to home screen System.home(self._target) # Set brightness back to auto Screen.set_brightness(self._target, auto=True)
def run(self, out_dir, test_name, collect=''): """ Run single Geekbench workload. :param out_dir: Path on host to experiment directory where to store results. :type out_dir: str :param test_name: Name of the test to run :type test_name: str :param collect: Specifies what to collect. Possible values: - 'energy' - 'systrace' - 'ftrace' - any combination of the above in a space-separated string. :type collect: list(str) """ # Initialize energy meter results self.out_dir = out_dir self.collect = collect # Clear the stored data for the application, so we always start with # an EULA to clear System.force_stop(self._target, self.package, clear=True) # Clear logcat from any previous runs # do this on the target as then we don't need to build a string self._target.clear_logcat() # Unlock device screen (assume no password required) System.menu(self._target) # Press Back button to be sure we run the benchmark from the start System.back(self._target) # Force screen in PORTRAIT mode Screen.set_orientation(self._target, portrait=True) # Set min brightness Screen.set_brightness(self._target, auto=False, percent=0) # Start app on the target device System.start_activity(self._target, self.package, self.activity) # Allow the activity to start sleep(2) # Parse logcat output lines to find beginning and end logcat_cmd = self._adb( 'logcat ActivityManager:* System.out:I *:S GEEKBENCH_RESULT:*'\ .format(self._target.adb_name)) self._log.info("%s", logcat_cmd) logcat = Popen(logcat_cmd, shell=True, stdout=PIPE) # Click to accept the EULA System.tap(self._target, 73, 55) sleep(1) # The main window opened will have the CPU benchmark # Swipe to get the COMPUTE one if test_name.upper() == 'COMPUTE': System.hswipe(self._target, 10, 80, duration=100, swipe_right=False) # Press the 'RUN <test_name> BENCHMARK' button System.tap(self._target, 73, 72) while True: # read next logcat line (up to max 1024 chars) message = logcat.stdout.readline(1024) # Benchmark start trigger match = GEEKBENCH_BENCHMARK_START_RE.search(message) if match: # Start tracing self.tracingStart() self._log.debug("Benchmark started!") # Benchmark end trigger match = GEEKBENCH_BENCHMARK_END_RE.search(message) if match: # Stop tracing self.tracingStop() remote_result_file = match.group('results_file') self._log.debug("Benchmark finished! Results are in {}".format( remote_result_file)) break # Get Geekbench Results file target_result_file = self._target.path.basename(remote_result_file) result_file = os.path.join(self.out_dir, target_result_file) self._log.debug("result_file={}".format(result_file)) self._target.pull(remote_result_file, result_file) # Close the app System.force_stop(self._target, self.package, clear=False) # Go back to home screen System.home(self._target) # Switch back to screen auto rotation Screen.set_orientation(self._target, auto=True) # Set brightness back to auto Screen.set_brightness(self._target, auto=True)
def run(self, out_dir, test_name, duration_s, collect=''): """ Run single UiBench workload. :param out_dir: Path to experiment directory where to store results. :type out_dir: str :param test_name: Name of the test to run :type test_name: str :param duration_s: Run benchmak for this required number of seconds :type duration_s: int :param collect: Specifies what to collect. Possible values: - 'energy' - 'systrace' - 'ftrace' - any combination of the above :type collect: list(str) """ activity = '.' + test_name # Keep track of mandatory parameters self.out_dir = out_dir self.collect = collect # Unlock device screen (assume no password required) Screen.unlock(self._target) # Close and clear application System.force_stop(self._target, self.package, clear=True) # Set airplane mode System.set_airplane_mode(self._target, on=True) # Set min brightness Screen.set_brightness(self._target, auto=False, percent=0) # Start the main view of the app which must be running # to reset the frame statistics. System.monkey(self._target, self.package) # Force screen in PORTRAIT mode Screen.set_orientation(self._target, portrait=True) # Reset frame statistics System.gfxinfo_reset(self._target, self.package) sleep(1) # Clear logcat os.system(self._adb('logcat -c')); # Regexps for benchmark synchronization start_logline = r'ActivityManager: START.*'\ 'cmp=com.android.test.uibench/{}'.format(activity) UIBENCH_BENCHMARK_START_RE = re.compile(start_logline) self._log.debug("START string [%s]", start_logline) # Parse logcat output lines logcat_cmd = self._adb( 'logcat ActivityManager:* System.out:I *:S BENCH:*'\ .format(self._target.adb_name)) self._log.info("%s", logcat_cmd) # Start the activity System.start_activity(self._target, self.package, activity) logcat = Popen(logcat_cmd, shell=True, stdout=PIPE) while True: # read next logcat line (up to max 1024 chars) message = logcat.stdout.readline(1024) # Benchmark start trigger match = UIBENCH_BENCHMARK_START_RE.search(message) if match: self.tracingStart() self._log.debug("Benchmark started!") break # Run the workload for the required time self._log.info('Benchmark [%s] started, waiting %d [s]', activity, duration_s) sleep(duration_s) self._log.debug("Benchmark done!") self.tracingStop() # Get frame stats self.db_file = os.path.join(out_dir, "framestats.txt") System.gfxinfo_get(self._target, self.package, self.db_file) # Close and clear application System.force_stop(self._target, self.package, clear=True) # Go back to home screen System.home(self._target) # Switch back to original settings Screen.set_orientation(self._target, auto=True) System.set_airplane_mode(self._target, on=False) Screen.set_brightness(self._target, auto=True)
def run(self, out_dir, test_name, iterations=10, collect=''): """ Run single UiBench workload. :param out_dir: Path to experiment directory where to store results. :type out_dir: str :param test_name: Name of the test to run :type test_name: str :param iterations: Run benchmak for this required number of iterations :type iterations: int :param collect: Specifies what to collect. Possible values: - 'systrace' - 'ftrace' :type collect: list(str) """ if 'energy' in collect: raise ValueError('UiBench workload does not support energy data collection') activity = '.' + test_name # Keep track of mandatory parameters self.out_dir = out_dir self.collect = collect # Filter out test overhead filter_prop = System.get_boolean_property(self._target, 'debug.hwui.filter_test_overhead') if not filter_prop: System.set_property( self._target, 'debug.hwui.filter_test_overhead', 'true', restart=True) # Unlock device screen (assume no password required) Screen.unlock(self._target) # Close and clear application System.force_stop(self._target, self.package, clear=True) # Set airplane mode System.set_airplane_mode(self._target, on=True) # Set min brightness Screen.set_brightness(self._target, auto=False, percent=0) # Force screen in PORTRAIT mode Screen.set_orientation(self._target, portrait=True) # Clear logcat os.system(self._adb('logcat -c')); # Regexps for benchmark synchronization start_logline = r'TestRunner: started' UIBENCH_BENCHMARK_START_RE = re.compile(start_logline) self._log.debug("START string [%s]", start_logline) finish_logline = r'TestRunner: finished' UIBENCH_BENCHMARK_FINISH_RE = re.compile(finish_logline) self._log.debug("FINISH string [%s]", start_logline) # Parse logcat output lines logcat_cmd = self._adb( 'logcat TestRunner:* System.out:I *:S BENCH:*'\ .format(self._target.adb_name)) self._log.info("%s", logcat_cmd) command = "am instrument -e iterations {} -e class {}{} -w {}".format( iterations, self.test_package, activity, self.test_package) test_proc = self._target.background(command) logcat = Popen(logcat_cmd, shell=True, stdout=PIPE) while True: # read next logcat line (up to max 1024 chars) message = logcat.stdout.readline(1024) # Benchmark start trigger match = UIBENCH_BENCHMARK_START_RE.search(message) if match: self.tracingStart() self._log.debug("Benchmark started!") match = UIBENCH_BENCHMARK_FINISH_RE.search(message) if match: self.tracingStop() self._log.debug("Benchmark finished!") test_proc.wait() break # Get frame stats self.db_file = os.path.join(out_dir, "framestats.txt") with open(self.db_file, 'w') as f: f.writelines(test_proc.stdout.readlines()) self.results = self.get_results(out_dir) # Close and clear application System.force_stop(self._target, self.package, clear=True) # Go back to home screen System.home(self._target) # Switch back to original settings Screen.set_orientation(self._target, auto=True) System.set_airplane_mode(self._target, on=False) Screen.set_brightness(self._target, auto=True)
def run(self, out_dir, test_name, duration_s, collect=''): """ Run single UiBench workload. :param out_dir: Path to experiment directory where to store results. :type out_dir: str :param test_name: Name of the test to run :type test_name: str :param duration_s: Run benchmak for this required number of seconds :type duration_s: int :param collect: Specifies what to collect. Possible values: - 'energy' - 'systrace' - 'ftrace' - any combination of the above :type collect: list(str) """ activity = '.' + test_name # Keep track of mandatory parameters self.out_dir = out_dir self.collect = collect # Unlock device screen (assume no password required) Screen.unlock(self._target) # Close and clear application System.force_stop(self._target, self.package, clear=True) # Set airplane mode System.set_airplane_mode(self._target, on=True) # Set min brightness Screen.set_brightness(self._target, auto=False, percent=0) # Start the main view of the app which must be running # to reset the frame statistics. System.monkey(self._target, self.package) # Force screen in PORTRAIT mode Screen.set_orientation(self._target, portrait=True) # Reset frame statistics System.gfxinfo_reset(self._target, self.package) sleep(1) # Clear logcat os.system(self._adb('logcat -c')) # Regexps for benchmark synchronization start_logline = r'TestRunner: started' UIBENCH_BENCHMARK_START_RE = re.compile(start_logline) self._log.debug("START string [%s]", start_logline) # Parse logcat output lines logcat_cmd = self._adb( 'logcat TestRunner:* System.out:I *:S BENCH:*'\ .format(self._target.adb_name)) self._log.info("%s", logcat_cmd) # Run benchmark with a lot of iterations to avoid finishing before duration_s elapses command = "nohup am instrument -e iterations 1000000 -e class {}{} -w {}".format( self.test_package, activity, self.test_package) self._target.background(command) logcat = Popen(logcat_cmd, shell=True, stdout=PIPE) while True: # read next logcat line (up to max 1024 chars) message = logcat.stdout.readline(1024) # Benchmark start trigger match = UIBENCH_BENCHMARK_START_RE.search(message) if match: self.tracingStart() self._log.debug("Benchmark started!") break # Run the workload for the required time self._log.info('Benchmark [%s] started, waiting %d [s]', activity, duration_s) sleep(duration_s) self._log.debug("Benchmark done!") self.tracingStop() # Get frame stats self.db_file = os.path.join(out_dir, "framestats.txt") System.gfxinfo_get(self._target, self.package, self.db_file) # Close and clear application System.force_stop(self._target, self.package, clear=True) # Go back to home screen System.home(self._target) # Switch back to original settings Screen.set_orientation(self._target, auto=True) System.set_airplane_mode(self._target, on=False) Screen.set_brightness(self._target, auto=True)
def run(self, out_dir, test_name, iterations, collect=''): """ Run single system app jank test workload. Performance statistics are stored in self.results, and can be retrieved after the fact by calling SystemUi.get_results() :param out_dir: Path to experiment directory where to store results. :type out_dir: str :param test_name: Name of the test to run :type test_name: str :param iterations: Run benchmark for this required number of iterations :type iterations: int :param collect: Specifies what to collect. Possible values: - 'systrace' - 'ftrace' - 'gfxinfo' - 'surfaceflinger' - any combination of the above :type collect: list(str) """ if "energy" in collect: raise ValueError('System app workload does not support energy data collection') activity = "." + test_name package = self._get_test_package(test_name) # Keep track of mandatory parameters self.out_dir = out_dir self.collect = collect # Filter out test overhead filter_prop = System.get_boolean_property(self._target, "debug.hwui.filter_test_overhead") if not filter_prop: System.set_property(self._target, "debug.hwui.filter_test_overhead", "true", restart=True) # Unlock device screen (assume no password required) Screen.unlock(self._target) # Close and clear application System.force_stop(self._target, package, clear=True) # Set min brightness Screen.set_brightness(self._target, auto=False, percent=0) # Force screen in PORTRAIT mode Screen.set_orientation(self._target, portrait=True) # Delete old test results self._target.remove("/sdcard/results.log") # Clear logcat self._target.execute("logcat -c") # Regexps for benchmark synchronization start_logline = r"TestRunner: started" SYSAPP_BENCHMARK_START_RE = re.compile(start_logline) self._log.debug("START string [%s]", start_logline) finish_logline = r"TestRunner: finished" SYSAPP_BENCHMARK_FINISH_RE = re.compile(finish_logline) self._log.debug("FINISH string [%s]", finish_logline) # Parse logcat output lines logcat_cmd = self._adb("logcat TestRunner:* System.out:I *:S BENCH:*") self._log.info("%s", logcat_cmd) command = "am instrument -e iterations {} -e class {}{} -w {}".format( iterations, self.test_package, activity, self.test_package) logcat = Popen(logcat_cmd, shell=True, stdout=PIPE) test_proc = self._target.background(command) while True: # read next logcat line (up to max 1024 chars) message = logcat.stdout.readline(1024) # Benchmark start match = SYSAPP_BENCHMARK_START_RE.search(message) if match: self.tracingStart() self._log.debug("Benchmark started!") # Benchmark finish match = SYSAPP_BENCHMARK_FINISH_RE.search(message) if match: self.tracingStop() self._log.debug("Benchmark finished!") test_proc.wait() break sleep(5) self._target.pull("/sdcard/results.log", os.path.join(out_dir, "results.log")) self.db_file = os.path.join(out_dir, "results.log") self.results = self.get_results(out_dir) # Close and clear application System.force_stop(self._target, package, clear=True) # Go back to home screen System.home(self._target) # Switch back to original settings Screen.set_orientation(self._target, auto=True) Screen.set_brightness(self._target, auto=True)
def run(self, out_dir, package, permissions, duration_s, collect=''): """ Run single AppStartup workload. :param out_dir: Path to experiment directory where to store results. :type out_dir: str :param package: Name of the apk package :type package: str :param permissions: List of permissions the app requires :type permissions: list of str :param duration_s: Run benchmak for this required number of seconds :type duration_s: int :param collect: Specifies what to collect. Possible values: - 'energy' - 'time_in_state' - 'systrace' - 'ftrace' - any combination of the above :type collect: list(str) """ # Keep track of mandatory parameters self.out_dir = out_dir self.collect = collect # Check if the package exists on the device if not System.contains_package(self._target, package): raise RuntimeError('System does not contain the requried package') # Unlock device screen (assume no password required) Screen.unlock(self._target) # Close and clear application System.force_stop(self._target, package, clear=True) sleep(3) # Grant permissions for permission in permissions: System.grant_permission(self._target, package, permission) sleep(3) # Set min brightness Screen.set_brightness(self._target, auto=False, percent=100) # Set screen timeout Screen.set_timeout(self._target, seconds=duration_s + 60) # Force screen in PORTRAIT mode Screen.set_orientation(self._target, portrait=True) # Start the main view of the app System.monkey(self._target, package) # Start tracing self.tracingStart() # Sleep for duration sleep(duration_s) # Stop tracing self.tracingStop() # Reset permissions System.reset_permissions(self._target, package) # Close and clear application System.force_stop(self._target, package, clear=True) # Go back to home screen System.home(self._target) # Switch back to original settings Screen.set_defaults(self._target)
def run(self, out_dir, duration_s, brightness, filepath, collect=''): """ Run single display image workload. :param out_dir: Path to experiment directory where to store results. :type out_dir: str :param duration_s: Duration of test :type duration_s: int :param brightness: Brightness of the screen 0-100 :type brightness: int :param out_dir: Path to the image to display :type out_dir: str :param collect: Specifies what to collect. Possible values: - 'energy' - 'time_in_state' - 'systrace' - 'ftrace' - any combination of the above, except energy and display-energy cannot be collected simultaneously. :type collect: list(str) """ # Keep track of mandatory parameters self.out_dir = out_dir self.collect = collect # Set brightness Screen.set_brightness(self._target, auto=False, percent=brightness) # Set timeout to be sufficiently longer than the duration of the test Screen.set_timeout(self._target, seconds=(duration_s+60)) # Turn on airplane mode System.set_airplane_mode(self._target, on=True) # Unlock device screen (assume no password required) Screen.unlock(self._target) # Push the image to the device device_filepath = '/data/local/tmp/image' self._target.push(filepath, device_filepath) sleep(1) # Put image on the screen System.start_action(self._target, self.action, '-t image/* -d file://{}'.format(device_filepath)) sleep(1) # Dimiss the navigation bar by tapping the center of the screen System.tap(self._target, 50, 50) self.tracingStart(screen_always_on=False) self._log.info('Waiting for duration {}'.format(duration_s)) sleep(duration_s) self.tracingStop(screen_always_on=False) # Close app and dismiss image System.force_stop(self._target, self.package, clear=True) # Remove image self._target.execute('rm /data/local/tmp/image') Screen.set_defaults(self._target) System.set_airplane_mode(self._target, on=False) Screen.set_screen(self._target, on=False)
def run(self, out_dir, test_name, duration_s, collect='', actions='default'): """ Run single UiBench workload. :param out_dir: Path to experiment directory where to store results. :type out_dir: str :param test_name: Name of the test to run :type test_name: str :param duration_s: Run benchmak for this required number of seconds :type duration_s: int :param collect: Specifies what to collect. Possible values: - 'energy' - 'systrace' - 'ftrace' - any combination of the above :type collect: list(str) :param actions: Specifies what actions to perform. Possible values: - None : Perform no action - 'default' : Use the predefined default actions from the `test_actions` dict - 'vswipe' : Perform a vertical swipe - 'tap' : Perform a centre tap - A list with any combination of vswipe and tap, in execution order :type actions: list(str) """ activity = '.' + test_name # If default, get the default actions from test_actions # If this is an undefined test, no action will be the default if actions == 'default': actions = None if test_name in self.test_actions: actions = self.test_actions[test_name] # Format actions as a list if it is just a single string item, # or an empty list if it is None actions = [actions] if isinstance(actions, basestring) else actions if actions else [] # Keep track of mandatory parameters self.out_dir = out_dir self.collect = collect # Unlock device screen (assume no password required) Screen.unlock(self._target) # Close and clear application System.force_stop(self._target, self.package, clear=True) # Set airplane mode System.set_airplane_mode(self._target, on=True) # Set min brightness Screen.set_brightness(self._target, auto=False, percent=0) # Start the main view of the app which must be running # to reset the frame statistics. System.monkey(self._target, self.package) # Force screen in PORTRAIT mode Screen.set_orientation(self._target, portrait=True) # Reset frame statistics System.gfxinfo_reset(self._target, self.package) sleep(1) # Clear logcat os.system(self._adb('logcat -c')); # Regexps for benchmark synchronization start_logline = r'ActivityManager: START.*'\ 'cmp=com.android.test.uibench/{}'.format(activity) UIBENCH_BENCHMARK_START_RE = re.compile(start_logline) self._log.debug("START string [%s]", start_logline) # Parse logcat output lines logcat_cmd = self._adb( 'logcat ActivityManager:* System.out:I *:S BENCH:*'\ .format(self._target.adb_name)) self._log.info("%s", logcat_cmd) # Prepare user-input commands on the device if actions: script = TargetScript(self._te, "uibench.sh") for action in actions: self._perform_action(script, action) script.push() # Start the activity System.start_activity(self._target, self.package, activity) logcat = Popen(logcat_cmd, shell=True, stdout=PIPE) while True: # read next logcat line (up to max 1024 chars) message = logcat.stdout.readline(1024) # Benchmark start trigger match = UIBENCH_BENCHMARK_START_RE.search(message) if match: self.tracingStart() self._log.debug("Benchmark started!") break # Run the workload for the required time self._log.info('Benchmark [%s] started, waiting %d [s]', activity, duration_s) start = time() if actions: script.run() while (time() - start) < duration_s: sleep(1) self._log.debug("Benchmark done!") self.tracingStop() # Get frame stats self.db_file = os.path.join(out_dir, "framestats.txt") System.gfxinfo_get(self._target, self.package, self.db_file) # Close and clear application System.force_stop(self._target, self.package, clear=True) # Go back to home screen System.home(self._target) # Switch back to original settings Screen.set_orientation(self._target, auto=True) System.set_airplane_mode(self._target, on=False) Screen.set_brightness(self._target, auto=True)
def run(self, out_dir, duration_s=30, collect='systrace'): """ Run a camera preview workload :param out_dir: Path to experiment directory where to store results. :type out_dir: str :param duration_s: Duration of test :type duration_s: int :param collect: Specifies what to collect. Possible values: - 'energy' - 'systrace' - 'ftrace' - any combination of the above :type collect: list(str) """ self._log.info("Running CameraPreview for {}s and collecting {}".format(duration_s, collect)) # Keep track of mandatory parameters self.out_dir = out_dir self.collect = collect # Unlock device screen (assume no password required) Screen.unlock(self._target) # Set airplane mode System.set_airplane_mode(self._target, on=True) # Set min brightness Screen.set_brightness(self._target, auto=False, percent=0) # Use the monkey tool to start CameraPreview # This allows to subsequently set the screen orientation to LANDSCAPE # and to reset the frame statistics. System.monkey(self._target, self.package) # Force screen in PORTRAIT mode Screen.set_orientation(self._target, portrait=True) sleep(2) self.tracingStart() sleep(duration_s) self.tracingStop() # Close the app without clearing the local data to # avoid the dialog to select the account at next start System.force_stop(self._target, self.package, clear=False) # Go back to home screen System.home(self._target) # Set brightness back to auto Screen.set_brightness(self._target, auto=True) # Switch back to screen auto rotation Screen.set_orientation(self._target, auto=True) # Switch off airplane mode System.set_airplane_mode(self._target, on=False)