# 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 audio test using the Chameleon board.""" import logging import os import time from autotest_lib.client.bin import utils from autotest_lib.client.cros.chameleon import audio_test_utils from autotest_lib.client.cros.chameleon import audio_widget_link 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 from autotest_lib.server.cros.multimedia import remote_facade_factory class audio_AudioAfterReboot(audio_test.AudioTest): """Server side audio test. This test talks to a Chameleon board and a Cros device to verify audio function of the Cros device after reboot. """ version = 1 DELAY_BEFORE_RECORD_SECONDS = 0.5 DELAY_AFTER_BINDING = 0.5 RECORD_SECONDS = 5 SHORT_WAIT = 2 PRC_RECONNECT_TIMEOUT = 60 def action_plug_jack(self, plug_state): """Calls the audio interface API and plugs/unplugs. @param plug_state: plug state to switch to """ logging.debug('Plugging' if plug_state else 'Unplugging') jack_plugger = self.audio_board.get_jack_plugger() if jack_plugger == None: logging.debug('Jack plugger is NOT present!') return if plug_state: jack_plugger.plug() else: jack_plugger.unplug() time.sleep(self.SHORT_WAIT) def play_and_record(self, source_widget, recorder_widget=None): """Plays and records (if needed) audio. @param source_widget: widget to do the playback @param recorder_widget: widget to do the recording None to skip recording. """ self.check_correct_audio_node_selected() # Play, wait for some time, and then start recording if needed. source_widget.set_playback_data(self.golden_file) logging.debug('Start playing %s', self.golden_file.path) source_widget.start_playback() if recorder_widget != None: time.sleep(self.DELAY_BEFORE_RECORD_SECONDS) logging.debug('Start recording.') recorder_widget.start_recording() time.sleep(self.RECORD_SECONDS) recorder_widget.stop_recording() logging.debug('Stopped recording.') audio_test_utils.dump_cros_audio_logs( self.host, self.audio_facade, self.resultsdir, 'after_recording') recorder_widget.read_recorded_binary() else: time.sleep(self.RECORD_SECONDS) def save_and_check_data(self, recorder_widget): """Saves and checks the data from the recorder. @param recorder_widget: recorder widget to save data from @raise error.TestFail: if comparison fails """ recorded_file = os.path.join(self.resultsdir, "recorded.raw") logging.debug('Saving recorded data to %s', recorded_file) recorder_widget.save_file(recorded_file) # Removes the beginning of recorded data. This is to avoid artifact # caused by codec initialization in the beginning of recording. recorder_widget.remove_head(2.0) # Removes noise by a lowpass filter. recorder_widget.lowpass_filter(self.low_pass_freq) recorded_file = os.path.join(self.resultsdir, "recorded_filtered.raw") logging.debug('Saving filtered data to %s', recorded_file) recorder_widget.save_file(recorded_file) # Compares data by frequency. audio_test_utils.check_recorded_frequency( self.golden_file, recorder_widget, second_peak_ratio=self.second_peak_ratio, ignore_frequencies=self.ignore_frequencies) def check_correct_audio_node_selected(self): """Checks the node selected by Cras is correct.""" audio_test_utils.check_audio_nodes(self.audio_facade, self.audio_nodes) def play_reboot_play_and_record (self, source_widget, recorder_widget): """Play audio, then reboot, and play and record. @param source_widget: source widget to play with @param recorder_widget: recorder widget to record with """ self.play_and_record(source_widget) # Disconnecs audio bus so Cros device can detects plugger correctly # when the test involes plugger. # For case where audio bus is used but no plugger is used, it is no # harm to disconnect audio bus and reconnect it. if self.use_audio_bus: logging.info('Disconnecting audio bus before reboot') self.widget_link.disconnect_audio_bus() self.host.reboot() utils.poll_for_condition(condition=self.factory.ready, timeout=self.PRC_RECONNECT_TIMEOUT,) logging.debug('After reboot') audio_test_utils.dump_cros_audio_logs( self.host, self.audio_facade, self.resultsdir, 'after_reboot') self.check_correct_audio_node_selected() if self.use_audio_bus: logging.info('Reconnecting audio bus after reboot before playback') self.widget_link.reconnect_audio_bus() audio_test_utils.dump_cros_audio_logs( self.host, self.audio_facade, self.resultsdir, 'after_bus_reconnect') self.play_and_record(source_widget, recorder_widget) def run_once(self, host, golden_data, audio_nodes, bind_from=None, bind_to=None, source=None, recorder=None, is_internal=False): """Runs the test main workflow. @param host: A host object representing the DUT. @param golden_data: audio file and low pass filter frequency the audio file should be test data defined in audio_test_data @param audio_nodes: audio nodes supposed to be selected @param bind_from: audio originating entity to be binded should be defined in chameleon_audio_ids @param bind_to: audio directed_to entity to be binded should be defined in chameleon_audio_ids @param source: source widget entity should be defined in chameleon_audio_ids @param recorder: recorder widget entity should be defined in chameleon_audio_ids @param is_internal: whether internal audio is tested flag """ if (recorder == chameleon_audio_ids.CrosIds.INTERNAL_MIC and not audio_test_utils.has_internal_microphone(host)): return if (source == chameleon_audio_ids.CrosIds.SPEAKER and not audio_test_utils.has_internal_speaker(host)): return self.host = host self.audio_nodes = audio_nodes self.golden_file, self.low_pass_freq = golden_data chameleon_board = self.host.chameleon self.factory = remote_facade_factory.RemoteFacadeFactory( self.host, results_dir=self.resultsdir) self.audio_facade = self.factory.create_audio_facade() chameleon_board.setup_and_reset(self.outputdir) widget_factory = chameleon_audio_helper.AudioWidgetFactory( self.factory, host) self.audio_board = chameleon_board.get_audio_board() self.widget_link = None self.use_audio_bus = False self.second_peak_ratio = audio_test_utils.get_second_peak_ratio( source_id=source, recorder_id=recorder) self.ignore_frequencies = None if source == chameleon_audio_ids.CrosIds.SPEAKER: self.ignore_frequencies = [50, 60] # Two widgets are binded in the factory if necessary binder_widget = None bind_from_widget = None bind_to_widget = None if bind_from != None and bind_to != None: bind_from_widget = widget_factory.create_widget(bind_from) bind_to_widget = widget_factory.create_widget(bind_to) binder_widget = widget_factory.create_binder(bind_from_widget, bind_to_widget) self.widget_link = binder_widget.get_link() if isinstance(self.widget_link, audio_widget_link.AudioBusLink): self.use_audio_bus = True # Additional widgets that could be part of the factory if source == None: source_widget = bind_from_widget else: source_widget = widget_factory.create_widget(source) if recorder == None: recorder_widget = bind_to_widget else: recorder_widget = widget_factory.create_widget(recorder) # Plug for external audio self.action_plug_jack(not is_internal) # Play only, reboot, then play and record. if binder_widget != None: with chameleon_audio_helper.bind_widgets(binder_widget): time.sleep(self.DELAY_AFTER_BINDING) self.play_reboot_play_and_record(source_widget, recorder_widget) else: self.play_reboot_play_and_record(source_widget, recorder_widget) self.save_and_check_data(recorder_widget)