/* * Copyright (C) 2016 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #define LOG_TAG "StreamHalLocal" //#define LOG_NDEBUG 0 #include #include #include #include #include "DeviceHalLocal.h" #include "ParameterUtils.h" #include "StreamHalLocal.h" namespace android { namespace CPP_VERSION { StreamHalLocal::StreamHalLocal(audio_stream_t *stream, sp device) : mDevice(device), mStream(stream) { // Instrument audio signal power logging. // Note: This assumes channel mask, format, and sample rate do not change after creation. if (mStream != nullptr /* && mStreamPowerLog.isUserDebugOrEngBuild() */) { mStreamPowerLog.init(mStream->get_sample_rate(mStream), mStream->get_channels(mStream), mStream->get_format(mStream)); } } StreamHalLocal::~StreamHalLocal() { mStream = 0; mDevice.clear(); } status_t StreamHalLocal::getBufferSize(size_t *size) { *size = mStream->get_buffer_size(mStream); return OK; } status_t StreamHalLocal::getAudioProperties(audio_config_base_t *configBase) { configBase->sample_rate = mStream->get_sample_rate(mStream); configBase->channel_mask = mStream->get_channels(mStream); configBase->format = mStream->get_format(mStream); return OK; } status_t StreamHalLocal::setParameters(const String8& kvPairs) { return mStream->set_parameters(mStream, kvPairs.string()); } status_t StreamHalLocal::getParameters(const String8& keys, String8 *values) { char *halValues = mStream->get_parameters(mStream, keys.string()); if (halValues != NULL) { values->setTo(halValues); free(halValues); } else { values->clear(); } return OK; } status_t StreamHalLocal::addEffect(sp) { LOG_ALWAYS_FATAL("Local streams can not have effects"); return INVALID_OPERATION; } status_t StreamHalLocal::removeEffect(sp) { LOG_ALWAYS_FATAL("Local streams can not have effects"); return INVALID_OPERATION; } status_t StreamHalLocal::standby() { return mStream->standby(mStream); } status_t StreamHalLocal::dump(int fd) { status_t status = mStream->dump(mStream, fd); mStreamPowerLog.dump(fd); return status; } status_t StreamHalLocal::setHalThreadPriority(int) { // Don't need to do anything as local hal is executed by audioflinger directly // on the same thread. return OK; } StreamOutHalLocal::StreamOutHalLocal(audio_stream_out_t *stream, sp device) : StreamHalLocal(&stream->common, device), mStream(stream) { } StreamOutHalLocal::~StreamOutHalLocal() { mCallback.clear(); mDevice->closeOutputStream(mStream); mStream = 0; } status_t StreamOutHalLocal::getFrameSize(size_t *size) { *size = audio_stream_out_frame_size(mStream); return OK; } status_t StreamOutHalLocal::getLatency(uint32_t *latency) { *latency = mStream->get_latency(mStream); return OK; } status_t StreamOutHalLocal::setVolume(float left, float right) { if (mStream->set_volume == NULL) return INVALID_OPERATION; return mStream->set_volume(mStream, left, right); } status_t StreamOutHalLocal::selectPresentation(int presentationId, int programId) { AudioParameter param; param.addInt(String8(AudioParameter::keyPresentationId), presentationId); param.addInt(String8(AudioParameter::keyProgramId), programId); return setParameters(param.toString()); } status_t StreamOutHalLocal::write(const void *buffer, size_t bytes, size_t *written) { ssize_t writeResult = mStream->write(mStream, buffer, bytes); if (writeResult > 0) { *written = writeResult; mStreamPowerLog.log(buffer, *written); return OK; } else { *written = 0; return writeResult; } } status_t StreamOutHalLocal::getRenderPosition(uint32_t *dspFrames) { return mStream->get_render_position(mStream, dspFrames); } status_t StreamOutHalLocal::getNextWriteTimestamp(int64_t *timestamp) { if (mStream->get_next_write_timestamp == NULL) return INVALID_OPERATION; return mStream->get_next_write_timestamp(mStream, timestamp); } status_t StreamOutHalLocal::setCallback(wp callback) { if (mStream->set_callback == NULL) return INVALID_OPERATION; status_t result = mStream->set_callback(mStream, StreamOutHalLocal::asyncCallback, this); if (result == OK) { mCallback = callback; } return result; } // static int StreamOutHalLocal::asyncCallback(stream_callback_event_t event, void*, void *cookie) { // We act as if we gave a wp to HAL. This way we should handle // correctly the case when the callback is invoked while StreamOutHalLocal's destructor is // already running, because the destructor is invoked after the refcount has been atomically // decremented. wp weakSelf(static_cast(cookie)); sp self = weakSelf.promote(); if (self == 0) return 0; sp callback = self->mCallback.promote(); if (callback == 0) return 0; ALOGV("asyncCallback() event %d", event); switch (event) { case STREAM_CBK_EVENT_WRITE_READY: callback->onWriteReady(); break; case STREAM_CBK_EVENT_DRAIN_READY: callback->onDrainReady(); break; case STREAM_CBK_EVENT_ERROR: callback->onError(); break; default: ALOGW("asyncCallback() unknown event %d", event); break; } return 0; } status_t StreamOutHalLocal::supportsPauseAndResume(bool *supportsPause, bool *supportsResume) { *supportsPause = mStream->pause != NULL; *supportsResume = mStream->resume != NULL; return OK; } status_t StreamOutHalLocal::pause() { if (mStream->pause == NULL) return INVALID_OPERATION; return mStream->pause(mStream); } status_t StreamOutHalLocal::resume() { if (mStream->resume == NULL) return INVALID_OPERATION; return mStream->resume(mStream); } status_t StreamOutHalLocal::supportsDrain(bool *supportsDrain) { *supportsDrain = mStream->drain != NULL; return OK; } status_t StreamOutHalLocal::drain(bool earlyNotify) { if (mStream->drain == NULL) return INVALID_OPERATION; return mStream->drain(mStream, earlyNotify ? AUDIO_DRAIN_EARLY_NOTIFY : AUDIO_DRAIN_ALL); } status_t StreamOutHalLocal::flush() { if (mStream->flush == NULL) return INVALID_OPERATION; return mStream->flush(mStream); } status_t StreamOutHalLocal::getPresentationPosition(uint64_t *frames, struct timespec *timestamp) { if (mStream->get_presentation_position == NULL) return INVALID_OPERATION; return mStream->get_presentation_position(mStream, frames, timestamp); } void StreamOutHalLocal::doUpdateSourceMetadata(const SourceMetadata& sourceMetadata) { std::vector halTracks; halTracks.reserve(sourceMetadata.tracks.size()); for (auto& metadata : sourceMetadata.tracks) { playback_track_metadata halTrackMetadata; playback_track_metadata_from_v7(&halTrackMetadata, &metadata); halTracks.push_back(halTrackMetadata); } const source_metadata_t halMetadata = { .track_count = halTracks.size(), .tracks = halTracks.data(), }; mStream->update_source_metadata(mStream, &halMetadata); } #if MAJOR_VERSION >= 7 void StreamOutHalLocal::doUpdateSourceMetadataV7(const SourceMetadata& sourceMetadata) { const source_metadata_v7_t metadata { .track_count = sourceMetadata.tracks.size(), // const cast is fine as it is in a const structure .tracks = const_cast(sourceMetadata.tracks.data()), }; mStream->update_source_metadata_v7(mStream, &metadata); } #endif status_t StreamOutHalLocal::updateSourceMetadata(const SourceMetadata& sourceMetadata) { #if MAJOR_VERSION < 7 if (mStream->update_source_metadata == nullptr) { return INVALID_OPERATION; } doUpdateSourceMetadata(sourceMetadata); #else if (mDevice->version() < AUDIO_DEVICE_API_VERSION_3_2) { if (mStream->update_source_metadata == nullptr) { return INVALID_OPERATION; } doUpdateSourceMetadata(sourceMetadata); } else { if (mStream->update_source_metadata_v7 == nullptr) { return INVALID_OPERATION; } doUpdateSourceMetadataV7(sourceMetadata); } #endif return OK; } status_t StreamOutHalLocal::start() { if (mStream->start == NULL) return INVALID_OPERATION; return mStream->start(mStream); } status_t StreamOutHalLocal::stop() { if (mStream->stop == NULL) return INVALID_OPERATION; return mStream->stop(mStream); } status_t StreamOutHalLocal::createMmapBuffer(int32_t minSizeFrames, struct audio_mmap_buffer_info *info) { if (mStream->create_mmap_buffer == NULL) return INVALID_OPERATION; return mStream->create_mmap_buffer(mStream, minSizeFrames, info); } status_t StreamOutHalLocal::getMmapPosition(struct audio_mmap_position *position) { if (mStream->get_mmap_position == NULL) return INVALID_OPERATION; return mStream->get_mmap_position(mStream, position); } status_t StreamOutHalLocal::getDualMonoMode(audio_dual_mono_mode_t* mode) { if (mStream->get_dual_mono_mode == nullptr) return INVALID_OPERATION; return mStream->get_dual_mono_mode(mStream, mode); } status_t StreamOutHalLocal::setDualMonoMode(audio_dual_mono_mode_t mode) { if (mStream->set_dual_mono_mode == nullptr) return INVALID_OPERATION; return mStream->set_dual_mono_mode(mStream, mode); } status_t StreamOutHalLocal::getAudioDescriptionMixLevel(float* leveldB) { if (mStream->get_audio_description_mix_level == nullptr) return INVALID_OPERATION; return mStream->get_audio_description_mix_level(mStream, leveldB); } status_t StreamOutHalLocal::setAudioDescriptionMixLevel(float leveldB) { if (mStream->set_audio_description_mix_level == nullptr) return INVALID_OPERATION; return mStream->set_audio_description_mix_level(mStream, leveldB); } status_t StreamOutHalLocal::getPlaybackRateParameters(audio_playback_rate_t* playbackRate) { if (mStream->get_playback_rate_parameters == nullptr) return INVALID_OPERATION; return mStream->get_playback_rate_parameters(mStream, playbackRate); } status_t StreamOutHalLocal::setPlaybackRateParameters(const audio_playback_rate_t& playbackRate) { if (mStream->set_playback_rate_parameters == nullptr) return INVALID_OPERATION; return mStream->set_playback_rate_parameters(mStream, &playbackRate); } status_t StreamOutHalLocal::setEventCallback( const sp& callback) { if (mStream->set_event_callback == nullptr) { return INVALID_OPERATION; } stream_event_callback_t asyncCallback = callback == nullptr ? nullptr : StreamOutHalLocal::asyncEventCallback; status_t result = mStream->set_event_callback(mStream, asyncCallback, this); if (result == OK) { mEventCallback = callback; } return result; } // static int StreamOutHalLocal::asyncEventCallback( stream_event_callback_type_t event, void *param, void *cookie) { // We act as if we gave a wp to HAL. This way we should handle // correctly the case when the callback is invoked while StreamOutHalLocal's destructor is // already running, because the destructor is invoked after the refcount has been atomically // decremented. wp weakSelf(static_cast(cookie)); sp self = weakSelf.promote(); if (self == nullptr) return 0; sp callback = self->mEventCallback.promote(); if (callback.get() == nullptr) return 0; switch (event) { case STREAM_EVENT_CBK_TYPE_CODEC_FORMAT_CHANGED: // void* param is the byte string buffer from byte_string_from_audio_metadata(). // As the byte string buffer may have embedded zeroes, we cannot use strlen() callback->onCodecFormatChanged(std::basic_string( (const uint8_t*)param, audio_utils::metadata::dataByteStringLen((const uint8_t*)param))); break; default: ALOGW("%s unknown event %d", __func__, event); break; } return 0; } StreamInHalLocal::StreamInHalLocal(audio_stream_in_t *stream, sp device) : StreamHalLocal(&stream->common, device), mStream(stream) { } StreamInHalLocal::~StreamInHalLocal() { mDevice->closeInputStream(mStream); mStream = 0; } status_t StreamInHalLocal::getFrameSize(size_t *size) { *size = audio_stream_in_frame_size(mStream); return OK; } status_t StreamInHalLocal::setGain(float gain) { return mStream->set_gain(mStream, gain); } status_t StreamInHalLocal::read(void *buffer, size_t bytes, size_t *read) { ssize_t readResult = mStream->read(mStream, buffer, bytes); if (readResult > 0) { *read = readResult; mStreamPowerLog.log( buffer, *read); return OK; } else { *read = 0; return readResult; } } status_t StreamInHalLocal::getInputFramesLost(uint32_t *framesLost) { *framesLost = mStream->get_input_frames_lost(mStream); return OK; } status_t StreamInHalLocal::getCapturePosition(int64_t *frames, int64_t *time) { if (mStream->get_capture_position == NULL) return INVALID_OPERATION; return mStream->get_capture_position(mStream, frames, time); } void StreamInHalLocal::doUpdateSinkMetadata(const SinkMetadata& sinkMetadata) { std::vector halTracks; halTracks.reserve(sinkMetadata.tracks.size()); for (auto& metadata : sinkMetadata.tracks) { record_track_metadata halTrackMetadata; record_track_metadata_from_v7(&halTrackMetadata, &metadata); halTracks.push_back(halTrackMetadata); } const sink_metadata_t halMetadata = { .track_count = halTracks.size(), .tracks = halTracks.data(), }; mStream->update_sink_metadata(mStream, &halMetadata); } #if MAJOR_VERSION >= 7 void StreamInHalLocal::doUpdateSinkMetadataV7(const SinkMetadata& sinkMetadata) { const sink_metadata_v7_t halMetadata { .track_count = sinkMetadata.tracks.size(), // const cast is fine as it is in a const structure .tracks = const_cast(sinkMetadata.tracks.data()), }; mStream->update_sink_metadata_v7(mStream, &halMetadata); } #endif status_t StreamInHalLocal::updateSinkMetadata(const SinkMetadata& sinkMetadata) { #if MAJOR_VERSION < 7 if (mStream->update_sink_metadata == nullptr) { return INVALID_OPERATION; // not supported by the HAL } doUpdateSinkMetadata(sinkMetadata); #else if (mDevice->version() < AUDIO_DEVICE_API_VERSION_3_2) { if (mStream->update_sink_metadata == nullptr) { return INVALID_OPERATION; // not supported by the HAL } doUpdateSinkMetadata(sinkMetadata); } else { if (mStream->update_sink_metadata_v7 == nullptr) { return INVALID_OPERATION; // not supported by the HAL } doUpdateSinkMetadataV7(sinkMetadata); } #endif return OK; } status_t StreamInHalLocal::start() { if (mStream->start == NULL) return INVALID_OPERATION; return mStream->start(mStream); } status_t StreamInHalLocal::stop() { if (mStream->stop == NULL) return INVALID_OPERATION; return mStream->stop(mStream); } status_t StreamInHalLocal::createMmapBuffer(int32_t minSizeFrames, struct audio_mmap_buffer_info *info) { if (mStream->create_mmap_buffer == NULL) return INVALID_OPERATION; return mStream->create_mmap_buffer(mStream, minSizeFrames, info); } status_t StreamInHalLocal::getMmapPosition(struct audio_mmap_position *position) { if (mStream->get_mmap_position == NULL) return INVALID_OPERATION; return mStream->get_mmap_position(mStream, position); } #if MAJOR_VERSION == 2 status_t StreamInHalLocal::getActiveMicrophones( std::vector *microphones __unused) { return INVALID_OPERATION; } #elif MAJOR_VERSION >= 4 status_t StreamInHalLocal::getActiveMicrophones(std::vector *microphones) { if (mStream->get_active_microphones == NULL) return INVALID_OPERATION; size_t actual_mics = AUDIO_MICROPHONE_MAX_COUNT; audio_microphone_characteristic_t mic_array[AUDIO_MICROPHONE_MAX_COUNT]; status_t status = mStream->get_active_microphones(mStream, &mic_array[0], &actual_mics); for (size_t i = 0; i < actual_mics; i++) { media::MicrophoneInfo microphoneInfo = media::MicrophoneInfo(mic_array[i]); microphones->push_back(microphoneInfo); } return status; } #endif #if MAJOR_VERSION < 5 status_t StreamInHalLocal::setPreferredMicrophoneDirection( audio_microphone_direction_t direction __unused) { return INVALID_OPERATION; } status_t StreamInHalLocal::setPreferredMicrophoneFieldDimension(float zoom __unused) { return INVALID_OPERATION; } #else status_t StreamInHalLocal::setPreferredMicrophoneDirection(audio_microphone_direction_t direction) { if (mStream->set_microphone_direction == NULL) return INVALID_OPERATION; return mStream->set_microphone_direction(mStream, direction); } status_t StreamInHalLocal::setPreferredMicrophoneFieldDimension(float zoom) { if (mStream->set_microphone_field_dimension == NULL) return INVALID_OPERATION; return mStream->set_microphone_field_dimension(mStream, zoom); } #endif } // namespace CPP_VERSION } // namespace android