# Copyright 2015 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 internal speaker 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_helper from autotest_lib.client.cros.chameleon import chameleon_audio_ids from autotest_lib.server.cros.audio import audio_test class audio_AudioBasicInternalSpeaker(audio_test.AudioTest): """Server side internal speaker audio test. This test talks to a Chameleon board and a Cros device to verify internal speaker audio function of the Cros device. """ version = 1 DELAY_BEFORE_RECORD_SECONDS = 0.5 RECORD_SECONDS = 8 def run_once(self, host): if not audio_test_utils.has_internal_speaker(host): return golden_file = audio_test_data.SIMPLE_FREQUENCY_SPEAKER_TEST_FILE chameleon_board = host.chameleon factory = self.create_remote_facade_factory(host) chameleon_board.reset() widget_factory = chameleon_audio_helper.AudioWidgetFactory( factory, host) source = widget_factory.create_widget( chameleon_audio_ids.CrosIds.SPEAKER) recorder = widget_factory.create_widget( chameleon_audio_ids.ChameleonIds.MIC) audio_facade = factory.create_audio_facade() audio_test_utils.dump_cros_audio_logs( host, audio_facade, self.resultsdir, 'start') # Checks the node selected by cras is correct. output_nodes, _ = audio_facade.get_selected_node_types() if output_nodes != ['INTERNAL_SPEAKER']: raise error.TestFail( '%s rather than internal speaker is selected on Cros ' 'device' % output_nodes) audio_facade.set_selected_output_volume(80) logging.info('Setting playback data on Cros device') source.set_playback_data(golden_file) # Starts playing, waits for some time, and then starts recording. # This is to avoid artifact caused by codec initialization. logging.info('Start playing %s on Cros device', golden_file.path) source.start_playback() time.sleep(self.DELAY_BEFORE_RECORD_SECONDS) logging.info('Start recording from Chameleon.') recorder.start_recording() time.sleep(self.RECORD_SECONDS) recorder.stop_recording() logging.info('Stopped recording from Chameleon.') audio_test_utils.dump_cros_audio_logs( host, audio_facade, self.resultsdir, 'after_recording') recorder.read_recorded_binary() logging.info('Read recorded binary from Chameleon.') recorded_file = os.path.join(self.resultsdir, "recorded.raw") logging.info('Saving recorded data to %s', recorded_file) recorder.save_file(recorded_file) # Removes the beginning of recorded data. This is to avoid artifact # caused by Chameleon codec initialization in the beginning of # recording. recorder.remove_head(0.5) # Removes noise by a lowpass filter. recorder.lowpass_filter(1000) recorded_file = os.path.join(self.resultsdir, "recorded_filtered.raw") logging.info('Saving filtered data to %s', recorded_file) recorder.save_file(recorded_file) # Compares data by frequency. Audio signal recorded by microphone has # gone through analog processing and through the air. # This suffers from codec artifacts and noise on the path. # Comparing data by frequency is more robust than comparing by # correlation, which is suitable for fully-digital audio path like USB # and HDMI. audio_test_utils.check_recorded_frequency(golden_file, recorder, second_peak_ratio=0.1, ignore_frequencies=[50, 60])