server/site_tests/audio_AudioVolume/audio_AudioVolume.py - mirrors/cros/chromiumos/third_party/autotest - Git at Google

 # Copyright 2016 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.
 """This is a server side audio volume test using the Chameleon board."""

 import logging
 import os
 import time

 from autotest_lib.client.common_lib import error
 from autotest_lib.client.cros.audio import audio_test_data
 from autotest_lib.client.cros.chameleon import audio_test_utils
 from autotest_lib.client.cros.chameleon import chameleon_audio_ids
 from autotest_lib.client.cros.chameleon import chameleon_audio_helper
 from autotest_lib.server.cros.audio import audio_test


 class audio_AudioVolume(audio_test.AudioTest):
     """Server side audio volume test.

     This test talks to a Chameleon board and a Cros device to verify
     audio volume function of the Cros device.

     """
     version = 1
     RECORD_SECONDS = 8
     DELAY_AFTER_BINDING = 0.5
     DELAY_BEFORE_PLAYBACK = 0.5

     def run_once(self, source_id):
         """Running audio volume test.

         @param source_id: An ID defined in chameleon_audio_ids for source.
         """

         def get_recorder_id(source_id):
             """ Get corresponding recorder_id for the source_id."""
             if source_id == chameleon_audio_ids.CrosIds.SPEAKER:
                 return chameleon_audio_ids.ChameleonIds.MIC
             elif source_id == chameleon_audio_ids.CrosIds.HEADPHONE:
                 return chameleon_audio_ids.ChameleonIds.LINEIN
             elif source_id == chameleon_audio_ids.CrosIds.HDMI:
                 return chameleon_audio_ids.ChameleonIds.HDMI
             elif source_id == chameleon_audio_ids.CrosIds.USBOUT:
                 return chameleon_audio_ids.ChameleonIds.USBIN
             return None

         def get_volume_spec(source_id):
             """ Get corresponding volume spec for the source_id.

             @return volume_spec: A tuple (low_volume, high_volume, ratio).
                             Low volume and high volume specifies the two volumes
                             used in the test, and ratio specifies the
                             highest acceptable value for
                             recorded_volume_low / recorded_volume_high.
                             For example, (50, 100, 0.2) asserts that
                             (recorded magnitude at volume 50) should be lower
                             than (recorded magnitude at volume 100) * 0.2.
             """
             if source_id == chameleon_audio_ids.CrosIds.SPEAKER:
                 return (70, 100, 0.8)
             elif source_id == chameleon_audio_ids.CrosIds.HEADPHONE:
                 return (40, 80, 0.5)
             elif source_id == chameleon_audio_ids.CrosIds.HDMI:
                 return (40, 80, 0.2)
             elif source_id == chameleon_audio_ids.CrosIds.USBOUT:
                 return (40, 80, 0.2)
             return None

         def get_golden_file(source_id):
             """ Create the golden file for the source_id. """
             if source_id == chameleon_audio_ids.CrosIds.SPEAKER:
                 return audio_test_data.GenerateAudioTestData(
                         path=os.path.join(self.bindir, 'fix_440_16_0.5.raw'),
                         duration_secs=10,
                         frequencies=[440, 440],
                         volume_scale=0.5)
             return audio_test_data.GenerateAudioTestData(
                     path=os.path.join(self.bindir, 'fix_2k_1k_16.raw'),
                     duration_secs=10,
                     frequencies=[2000, 1000])

         if (source_id == chameleon_audio_ids.CrosIds.SPEAKER
                     and not audio_test_utils.has_internal_speaker(self.host)):
             return

         golden_file = get_golden_file(source_id)

         source = self.widget_factory.create_widget(source_id)

         recorder_id = get_recorder_id(source_id)
         recorder = self.widget_factory.create_widget(recorder_id)

         binder = None
         # Chameleon Mic does not need binding.
         if recorder_id != chameleon_audio_ids.ChameleonIds.MIC:
             binder = self.widget_factory.create_binder(source, recorder)

         low_volume, high_volume, highest_ratio = get_volume_spec(source_id)
         ignore_frequencies = [50, 60]

         second_peak_ratio = audio_test_utils.get_second_peak_ratio(
                 source_id=source_id, recorder_id=recorder_id, is_hsp=False)

         with chameleon_audio_helper.bind_widgets(binder):
             # Checks the node selected by cras is correct.
             time.sleep(self.DELAY_AFTER_BINDING)

             audio_test_utils.dump_cros_audio_logs(
                     self.host, self.facade, self.resultsdir, 'after_binding')

             node_type = audio_test_utils.cros_port_id_to_cras_node_type(
                     source.port_id)
             if node_type == 'HEADPHONE':
                 node_type = audio_test_utils.get_headphone_node(self.host)
             audio_test_utils.check_and_set_chrome_active_node_types(
                     self.facade, node_type, None)
             audio_test_utils.dump_cros_audio_logs(
                     self.host, self.facade, self.resultsdir, 'after_select')
             audio_test_utils.check_output_port(self.facade, source.port_id)

             logging.info('Setting playback data on Cros device')
             source.set_playback_data(golden_file)

             def playback_record(tag):
                 """Playback and record.

                 @param tag: file name tag.

                 """
                 # Starts recording, waits for some time, and starts playing.
                 # This is to avoid artifact caused by Chameleon codec
                 # initialization. The gap should be removed later.
                 logging.info('Start recording from Chameleon.')
                 recorder.start_recording()
                 time.sleep(self.DELAY_BEFORE_PLAYBACK)

                 logging.info('Start playing %s on Cros device',
                              golden_file.path)
                 source.start_playback()

                 time.sleep(self.RECORD_SECONDS)
                 self.facade.check_audio_stream_at_selected_device()
                 recorder.stop_recording()
                 logging.info('Stopped recording from Chameleon.')

                 audio_test_utils.dump_cros_audio_logs(
                         self.host, self.facade, self.resultsdir,
                         'after_recording_' + 'tag')

                 source.stop_playback()

                 recorder.read_recorded_binary()
                 logging.info('Read recorded binary from Chameleon.')

                 recorder.remove_head(self.DELAY_BEFORE_PLAYBACK)
                 if node_type == "INTERNAL_SPEAKER":
                     recorder.lowpass_filter(1000)
                 recorded_file = os.path.join(self.resultsdir,
                                              "recorded_%s.raw" % tag)
                 logging.info('Saving recorded data to %s', recorded_file)
                 recorder.save_file(recorded_file)

             self.facade.set_chrome_active_volume(low_volume)
             playback_record('low')
             low_dominant_spectrals = audio_test_utils.check_recorded_frequency(
                     golden_file,
                     recorder,
                     second_peak_ratio=second_peak_ratio,
                     ignore_frequencies=ignore_frequencies)

             self.facade.set_chrome_active_volume(high_volume)
             playback_record('high')
             high_dominant_spectrals = audio_test_utils.check_recorded_frequency(
                     golden_file,
                     recorder,
                     second_peak_ratio=second_peak_ratio,
                     ignore_frequencies=ignore_frequencies)

             error_messages = []
             logging.info('low_dominant_spectrals: %s', low_dominant_spectrals)
             logging.info('high_dominant_spectrals: %s',
                          high_dominant_spectrals)

             for channel in xrange(len(low_dominant_spectrals)):
                 _, low_coeff = low_dominant_spectrals[channel]
                 _, high_coeff = high_dominant_spectrals[channel]
                 ratio = low_coeff / high_coeff
                 logging.info('Channel %d volume(at %f) / volume(at %f) = %f',
                              channel, low_volume, high_volume, ratio)
                 if ratio > highest_ratio:
                     error_messages.append(
                             'Channel %d volume ratio: %f is incorrect.' %
                             (channel, ratio))
             if error_messages:
                 raise error.TestFail(
                         'Failed volume check: %s' % ' '.join(error_messages))
	# Copyright 2016 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.
	"""This is a server side audio volume test using the Chameleon board."""

	import logging
	import os
	import time

	from autotest_lib.client.common_lib import error
	from autotest_lib.client.cros.audio import audio_test_data
	from autotest_lib.client.cros.chameleon import audio_test_utils
	from autotest_lib.client.cros.chameleon import chameleon_audio_ids
	from autotest_lib.client.cros.chameleon import chameleon_audio_helper
	from autotest_lib.server.cros.audio import audio_test


	class audio_AudioVolume(audio_test.AudioTest):
	"""Server side audio volume test.

	This test talks to a Chameleon board and a Cros device to verify
	audio volume function of the Cros device.

	"""
	version = 1
	RECORD_SECONDS = 8
	DELAY_AFTER_BINDING = 0.5
	DELAY_BEFORE_PLAYBACK = 0.5

	def run_once(self, source_id):
	"""Running audio volume test.

	@param source_id: An ID defined in chameleon_audio_ids for source.
	"""

	def get_recorder_id(source_id):
	""" Get corresponding recorder_id for the source_id."""
	if source_id == chameleon_audio_ids.CrosIds.SPEAKER:
	return chameleon_audio_ids.ChameleonIds.MIC
	elif source_id == chameleon_audio_ids.CrosIds.HEADPHONE:
	return chameleon_audio_ids.ChameleonIds.LINEIN
	elif source_id == chameleon_audio_ids.CrosIds.HDMI:
	return chameleon_audio_ids.ChameleonIds.HDMI
	elif source_id == chameleon_audio_ids.CrosIds.USBOUT:
	return chameleon_audio_ids.ChameleonIds.USBIN
	return None

	def get_volume_spec(source_id):
	""" Get corresponding volume spec for the source_id.

	@return volume_spec: A tuple (low_volume, high_volume, ratio).
	Low volume and high volume specifies the two volumes
	used in the test, and ratio specifies the
	highest acceptable value for
	recorded_volume_low / recorded_volume_high.
	For example, (50, 100, 0.2) asserts that
	(recorded magnitude at volume 50) should be lower
	than (recorded magnitude at volume 100) * 0.2.
	"""
	if source_id == chameleon_audio_ids.CrosIds.SPEAKER:
	return (70, 100, 0.8)
	elif source_id == chameleon_audio_ids.CrosIds.HEADPHONE:
	return (40, 80, 0.5)
	elif source_id == chameleon_audio_ids.CrosIds.HDMI:
	return (40, 80, 0.2)
	elif source_id == chameleon_audio_ids.CrosIds.USBOUT:
	return (40, 80, 0.2)
	return None

	def get_golden_file(source_id):
	""" Create the golden file for the source_id. """
	if source_id == chameleon_audio_ids.CrosIds.SPEAKER:
	return audio_test_data.GenerateAudioTestData(
	path=os.path.join(self.bindir, 'fix_440_16_0.5.raw'),
	duration_secs=10,
	frequencies=[440, 440],
	volume_scale=0.5)
	return audio_test_data.GenerateAudioTestData(
	path=os.path.join(self.bindir, 'fix_2k_1k_16.raw'),
	duration_secs=10,
	frequencies=[2000, 1000])

	if (source_id == chameleon_audio_ids.CrosIds.SPEAKER
	and not audio_test_utils.has_internal_speaker(self.host)):
	return

	golden_file = get_golden_file(source_id)

	source = self.widget_factory.create_widget(source_id)

	recorder_id = get_recorder_id(source_id)
	recorder = self.widget_factory.create_widget(recorder_id)

	binder = None
	# Chameleon Mic does not need binding.
	if recorder_id != chameleon_audio_ids.ChameleonIds.MIC:
	binder = self.widget_factory.create_binder(source, recorder)

	low_volume, high_volume, highest_ratio = get_volume_spec(source_id)
	ignore_frequencies = [50, 60]

	second_peak_ratio = audio_test_utils.get_second_peak_ratio(
	source_id=source_id, recorder_id=recorder_id, is_hsp=False)

	with chameleon_audio_helper.bind_widgets(binder):
	# Checks the node selected by cras is correct.
	time.sleep(self.DELAY_AFTER_BINDING)

	audio_test_utils.dump_cros_audio_logs(
	self.host, self.facade, self.resultsdir, 'after_binding')

	node_type = audio_test_utils.cros_port_id_to_cras_node_type(
	source.port_id)
	if node_type == 'HEADPHONE':
	node_type = audio_test_utils.get_headphone_node(self.host)
	audio_test_utils.check_and_set_chrome_active_node_types(
	self.facade, node_type, None)
	audio_test_utils.dump_cros_audio_logs(
	self.host, self.facade, self.resultsdir, 'after_select')
	audio_test_utils.check_output_port(self.facade, source.port_id)

	logging.info('Setting playback data on Cros device')
	source.set_playback_data(golden_file)

	def playback_record(tag):
	"""Playback and record.

	@param tag: file name tag.

	"""
	# Starts recording, waits for some time, and starts playing.
	# This is to avoid artifact caused by Chameleon codec
	# initialization. The gap should be removed later.
	logging.info('Start recording from Chameleon.')
	recorder.start_recording()
	time.sleep(self.DELAY_BEFORE_PLAYBACK)

	logging.info('Start playing %s on Cros device',
	golden_file.path)
	source.start_playback()

	time.sleep(self.RECORD_SECONDS)
	self.facade.check_audio_stream_at_selected_device()
	recorder.stop_recording()
	logging.info('Stopped recording from Chameleon.')

	audio_test_utils.dump_cros_audio_logs(
	self.host, self.facade, self.resultsdir,
	'after_recording_' + 'tag')

	source.stop_playback()

	recorder.read_recorded_binary()
	logging.info('Read recorded binary from Chameleon.')

	recorder.remove_head(self.DELAY_BEFORE_PLAYBACK)
	if node_type == "INTERNAL_SPEAKER":
	recorder.lowpass_filter(1000)
	recorded_file = os.path.join(self.resultsdir,
	"recorded_%s.raw" % tag)
	logging.info('Saving recorded data to %s', recorded_file)
	recorder.save_file(recorded_file)

	self.facade.set_chrome_active_volume(low_volume)
	playback_record('low')
	low_dominant_spectrals = audio_test_utils.check_recorded_frequency(
	golden_file,
	recorder,
	second_peak_ratio=second_peak_ratio,
	ignore_frequencies=ignore_frequencies)

	self.facade.set_chrome_active_volume(high_volume)
	playback_record('high')
	high_dominant_spectrals = audio_test_utils.check_recorded_frequency(
	golden_file,
	recorder,
	second_peak_ratio=second_peak_ratio,
	ignore_frequencies=ignore_frequencies)

	error_messages = []
	logging.info('low_dominant_spectrals: %s', low_dominant_spectrals)
	logging.info('high_dominant_spectrals: %s',
	high_dominant_spectrals)

	for channel in xrange(len(low_dominant_spectrals)):
	_, low_coeff = low_dominant_spectrals[channel]
	_, high_coeff = high_dominant_spectrals[channel]
	ratio = low_coeff / high_coeff
	logging.info('Channel %d volume(at %f) / volume(at %f) = %f',
	channel, low_volume, high_volume, ratio)
	if ratio > highest_ratio:
	error_messages.append(
	'Channel %d volume ratio: %f is incorrect.' %
	(channel, ratio))
	if error_messages:
	raise error.TestFail(
	'Failed volume check: %s' % ' '.join(error_messages))