starboard/android/shared/audio_decoder.cc - cobalt - Git at Google

 // Copyright 2017 The Cobalt Authors. All Rights Reserved.
 //
 // 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.

 #include "starboard/android/shared/audio_decoder.h"

 #include "starboard/android/shared/jni_env_ext.h"
 #include "starboard/android/shared/jni_utils.h"
 #include "starboard/android/shared/media_common.h"
 #include "starboard/audio_sink.h"
 #include "starboard/common/log.h"
 #include "starboard/memory.h"

 // Can be locally set to |1| for verbose audio decoding.  Verbose audio
 // decoding will log the following transitions that take place for each audio
 // unit:
 //   T1: Our client passes an |InputBuffer| of audio data into us.
 //   T2: We receive a corresponding media codec output buffer back from our
 //       |MediaCodecBridge|.
 //   T3: Our client reads a corresponding |DecodedAudio| out of us.
 //
 // Example usage for debugging audio playback:
 //   $ adb logcat -c
 //   $ adb logcat | tee log.txt
 //   # Play video and get to frozen point.
 //   $ CTRL-C
 //   $ cat log.txt | grep -P 'T2: pts \d+' | wc -l
 //   523
 //   $ cat log.txt | grep -P 'T3: pts \d+' | wc -l
 //   522
 //   # Oh no, why isn't our client reading the audio we have ready to go?
 //   # Time to go find out...
 #define STARBOARD_ANDROID_SHARED_AUDIO_DECODER_VERBOSE 0
 #if STARBOARD_ANDROID_SHARED_AUDIO_DECODER_VERBOSE
 #define VERBOSE_MEDIA_LOG() SB_LOG(INFO)
 #else
 #define VERBOSE_MEDIA_LOG() SB_EAT_STREAM_PARAMETERS
 #endif

 namespace starboard {
 namespace android {
 namespace shared {

 namespace {

 SbMediaAudioSampleType GetSupportedSampleType() {
   SB_DCHECK(SbAudioSinkIsAudioSampleTypeSupported(
       kSbMediaAudioSampleTypeInt16Deprecated));
   return kSbMediaAudioSampleTypeInt16Deprecated;
 }

 void* IncrementPointerByBytes(void* pointer, int offset) {
   return static_cast<uint8_t*>(pointer) + offset;
 }

 }  // namespace

 AudioDecoder::AudioDecoder(SbMediaAudioCodec audio_codec,
                            const SbMediaAudioSampleInfo& audio_sample_info,
                            SbDrmSystem drm_system)
     : audio_codec_(audio_codec),
       audio_sample_info_(audio_sample_info),
       sample_type_(GetSupportedSampleType()),
       output_sample_rate_(audio_sample_info.samples_per_second),
       output_channel_count_(audio_sample_info.number_of_channels),
       drm_system_(static_cast<DrmSystem*>(drm_system)) {
   if (!InitializeCodec()) {
     SB_LOG(ERROR) << "Failed to initialize audio decoder.";
   }
 }

 AudioDecoder::~AudioDecoder() {}

 void AudioDecoder::Initialize(const OutputCB& output_cb,
                               const ErrorCB& error_cb) {
   SB_DCHECK(BelongsToCurrentThread());
   SB_DCHECK(output_cb);
   SB_DCHECK(!output_cb_);
   SB_DCHECK(error_cb);
   SB_DCHECK(!error_cb_);
   SB_DCHECK(media_decoder_);

   output_cb_ = output_cb;
   error_cb_ = error_cb;

   media_decoder_->Initialize(error_cb_);
 }

 void AudioDecoder::Decode(const scoped_refptr<InputBuffer>& input_buffer,
                           const ConsumedCB& consumed_cb) {
   SB_DCHECK(BelongsToCurrentThread());
   SB_DCHECK(input_buffer);
   SB_DCHECK(output_cb_);
   SB_DCHECK(media_decoder_);

   VERBOSE_MEDIA_LOG() << "T1: timestamp " << input_buffer->timestamp();

   media_decoder_->WriteInputBuffer(input_buffer);

   ScopedLock lock(decoded_audios_mutex_);
   if (media_decoder_->GetNumberOfPendingTasks() + decoded_audios_.size() <=
       kMaxPendingWorkSize) {
     Schedule(consumed_cb);
   } else {
     consumed_cb_ = consumed_cb;
   }
 }

 void AudioDecoder::WriteEndOfStream() {
   SB_DCHECK(BelongsToCurrentThread());
   SB_DCHECK(output_cb_);
   SB_DCHECK(media_decoder_);

   media_decoder_->WriteEndOfStream();
 }

 scoped_refptr<AudioDecoder::DecodedAudio> AudioDecoder::Read(
     int* samples_per_second) {
   SB_DCHECK(BelongsToCurrentThread());
   SB_DCHECK(output_cb_);

   scoped_refptr<DecodedAudio> result;
   {
     starboard::ScopedLock lock(decoded_audios_mutex_);
     SB_DCHECK(!decoded_audios_.empty());
     if (!decoded_audios_.empty()) {
       result = decoded_audios_.front();
       VERBOSE_MEDIA_LOG() << "T3: timestamp " << result->timestamp();
       decoded_audios_.pop();
     }
   }

   if (consumed_cb_) {
     Schedule(consumed_cb_);
     consumed_cb_ = nullptr;
   }
   *samples_per_second = audio_sample_info_.samples_per_second;
   return result;
 }

 void AudioDecoder::Reset() {
   SB_DCHECK(BelongsToCurrentThread());
   SB_DCHECK(output_cb_);

   media_decoder_.reset();

   if (!InitializeCodec()) {
     // TODO: Communicate this failure to our clients somehow.
     SB_LOG(ERROR) << "Failed to initialize codec after reset.";
   }

   consumed_cb_ = nullptr;

   while (!decoded_audios_.empty()) {
     decoded_audios_.pop();
   }

   CancelPendingJobs();
 }

 bool AudioDecoder::InitializeCodec() {
   SB_DCHECK(!media_decoder_);
   media_decoder_.reset(
       new MediaDecoder(this, audio_codec_, audio_sample_info_, drm_system_));
   if (media_decoder_->is_valid()) {
     if (error_cb_) {
       media_decoder_->Initialize(error_cb_);
     }
     return true;
   }
   media_decoder_.reset();
   return false;
 }

 void AudioDecoder::ProcessOutputBuffer(
     MediaCodecBridge* media_codec_bridge,
     const DequeueOutputResult& dequeue_output_result) {
   SB_DCHECK(media_codec_bridge);
   SB_DCHECK(output_cb_);
   SB_DCHECK(dequeue_output_result.index >= 0);

   if (dequeue_output_result.num_bytes > 0) {
     ScopedJavaByteBuffer byte_buffer(
         media_codec_bridge->GetOutputBuffer(dequeue_output_result.index));
     SB_DCHECK(!byte_buffer.IsNull());

     int16_t* data = static_cast<int16_t*>(IncrementPointerByBytes(
         byte_buffer.address(), dequeue_output_result.offset));
     int size = dequeue_output_result.num_bytes;
     if (2 * audio_sample_info_.samples_per_second == output_sample_rate_) {
       // The audio is encoded using implicit HE-AAC.  As the audio sink has
       // been created already we try to down-mix the decoded data to half of
       // its channels so the audio sink can play it with the correct pitch.
       for (int i = 0; i < size / sizeof(int16_t); i++) {
         data[i / 2] = (static_cast<int32_t>(data[i]) +
                        static_cast<int32_t>(data[i + 1]) / 2);
       }
       size /= 2;
     }

     scoped_refptr<DecodedAudio> decoded_audio = new DecodedAudio(
         audio_sample_info_.number_of_channels, sample_type_,
         kSbMediaAudioFrameStorageTypeInterleaved,
         dequeue_output_result.presentation_time_microseconds, size);

     memcpy(decoded_audio->buffer(), data, size);

     {
       starboard::ScopedLock lock(decoded_audios_mutex_);
       decoded_audios_.push(decoded_audio);
       VERBOSE_MEDIA_LOG() << "T2: timestamp "
                           << decoded_audios_.front()->timestamp();
     }
     Schedule(output_cb_);
   }

   // BUFFER_FLAG_END_OF_STREAM may come with the last valid output buffer.
   if (dequeue_output_result.flags & BUFFER_FLAG_END_OF_STREAM) {
     {
       starboard::ScopedLock lock(decoded_audios_mutex_);
       decoded_audios_.push(new DecodedAudio());
     }
     Schedule(output_cb_);
   }

   media_codec_bridge->ReleaseOutputBuffer(dequeue_output_result.index, false);
 }

 void AudioDecoder::RefreshOutputFormat(MediaCodecBridge* media_codec_bridge) {
   AudioOutputFormatResult output_format =
       media_codec_bridge->GetAudioOutputFormat();
   if (output_format.status == MEDIA_CODEC_ERROR) {
     SB_LOG(ERROR) << "|getOutputFormat| failed";
     return;
   }
   output_sample_rate_ = output_format.sample_rate;
   output_channel_count_ = output_format.channel_count;
 }

 }  // namespace shared
 }  // namespace android
 }  // namespace starboard
	// Copyright 2017 The Cobalt Authors. All Rights Reserved.
	//
	// 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.

	#include "starboard/android/shared/audio_decoder.h"

	#include "starboard/android/shared/jni_env_ext.h"
	#include "starboard/android/shared/jni_utils.h"
	#include "starboard/android/shared/media_common.h"
	#include "starboard/audio_sink.h"
	#include "starboard/common/log.h"
	#include "starboard/memory.h"

	// Can be locally set to \|1\| for verbose audio decoding. Verbose audio
	// decoding will log the following transitions that take place for each audio
	// unit:
	// T1: Our client passes an \|InputBuffer\| of audio data into us.
	// T2: We receive a corresponding media codec output buffer back from our
	// \|MediaCodecBridge\|.
	// T3: Our client reads a corresponding \|DecodedAudio\| out of us.
	//
	// Example usage for debugging audio playback:
	// $ adb logcat -c
	// $ adb logcat \| tee log.txt
	// # Play video and get to frozen point.
	// $ CTRL-C
	// $ cat log.txt \| grep -P 'T2: pts \d+' \| wc -l
	// 523
	// $ cat log.txt \| grep -P 'T3: pts \d+' \| wc -l
	// 522
	// # Oh no, why isn't our client reading the audio we have ready to go?
	// # Time to go find out...
	#define STARBOARD_ANDROID_SHARED_AUDIO_DECODER_VERBOSE 0
	#if STARBOARD_ANDROID_SHARED_AUDIO_DECODER_VERBOSE
	#define VERBOSE_MEDIA_LOG() SB_LOG(INFO)
	#else
	#define VERBOSE_MEDIA_LOG() SB_EAT_STREAM_PARAMETERS
	#endif

	namespace starboard {
	namespace android {
	namespace shared {

	namespace {

	SbMediaAudioSampleType GetSupportedSampleType() {
	SB_DCHECK(SbAudioSinkIsAudioSampleTypeSupported(
	kSbMediaAudioSampleTypeInt16Deprecated));
	return kSbMediaAudioSampleTypeInt16Deprecated;
	}

	void* IncrementPointerByBytes(void* pointer, int offset) {
	return static_cast<uint8_t*>(pointer) + offset;
	}

	} // namespace

	AudioDecoder::AudioDecoder(SbMediaAudioCodec audio_codec,
	const SbMediaAudioSampleInfo& audio_sample_info,
	SbDrmSystem drm_system)
	: audio_codec_(audio_codec),
	audio_sample_info_(audio_sample_info),
	sample_type_(GetSupportedSampleType()),
	output_sample_rate_(audio_sample_info.samples_per_second),
	output_channel_count_(audio_sample_info.number_of_channels),
	drm_system_(static_cast<DrmSystem*>(drm_system)) {
	if (!InitializeCodec()) {
	SB_LOG(ERROR) << "Failed to initialize audio decoder.";
	}
	}

	AudioDecoder::~AudioDecoder() {}

	void AudioDecoder::Initialize(const OutputCB& output_cb,
	const ErrorCB& error_cb) {
	SB_DCHECK(BelongsToCurrentThread());
	SB_DCHECK(output_cb);
	SB_DCHECK(!output_cb_);
	SB_DCHECK(error_cb);
	SB_DCHECK(!error_cb_);
	SB_DCHECK(media_decoder_);

	output_cb_ = output_cb;
	error_cb_ = error_cb;

	media_decoder_->Initialize(error_cb_);
	}

	void AudioDecoder::Decode(const scoped_refptr<InputBuffer>& input_buffer,
	const ConsumedCB& consumed_cb) {
	SB_DCHECK(BelongsToCurrentThread());
	SB_DCHECK(input_buffer);
	SB_DCHECK(output_cb_);
	SB_DCHECK(media_decoder_);

	VERBOSE_MEDIA_LOG() << "T1: timestamp " << input_buffer->timestamp();

	media_decoder_->WriteInputBuffer(input_buffer);

	ScopedLock lock(decoded_audios_mutex_);
	if (media_decoder_->GetNumberOfPendingTasks() + decoded_audios_.size() <=
	kMaxPendingWorkSize) {
	Schedule(consumed_cb);
	} else {
	consumed_cb_ = consumed_cb;
	}
	}

	void AudioDecoder::WriteEndOfStream() {
	SB_DCHECK(BelongsToCurrentThread());
	SB_DCHECK(output_cb_);
	SB_DCHECK(media_decoder_);

	media_decoder_->WriteEndOfStream();
	}

	scoped_refptr<AudioDecoder::DecodedAudio> AudioDecoder::Read(
	int* samples_per_second) {
	SB_DCHECK(BelongsToCurrentThread());
	SB_DCHECK(output_cb_);

	scoped_refptr<DecodedAudio> result;
	{
	starboard::ScopedLock lock(decoded_audios_mutex_);
	SB_DCHECK(!decoded_audios_.empty());
	if (!decoded_audios_.empty()) {
	result = decoded_audios_.front();
	VERBOSE_MEDIA_LOG() << "T3: timestamp " << result->timestamp();
	decoded_audios_.pop();
	}
	}

	if (consumed_cb_) {
	Schedule(consumed_cb_);
	consumed_cb_ = nullptr;
	}
	*samples_per_second = audio_sample_info_.samples_per_second;
	return result;
	}

	void AudioDecoder::Reset() {
	SB_DCHECK(BelongsToCurrentThread());
	SB_DCHECK(output_cb_);

	media_decoder_.reset();

	if (!InitializeCodec()) {
	// TODO: Communicate this failure to our clients somehow.
	SB_LOG(ERROR) << "Failed to initialize codec after reset.";
	}

	consumed_cb_ = nullptr;

	while (!decoded_audios_.empty()) {
	decoded_audios_.pop();
	}

	CancelPendingJobs();
	}

	bool AudioDecoder::InitializeCodec() {
	SB_DCHECK(!media_decoder_);
	media_decoder_.reset(
	new MediaDecoder(this, audio_codec_, audio_sample_info_, drm_system_));
	if (media_decoder_->is_valid()) {
	if (error_cb_) {
	media_decoder_->Initialize(error_cb_);
	}
	return true;
	}
	media_decoder_.reset();
	return false;
	}

	void AudioDecoder::ProcessOutputBuffer(
	MediaCodecBridge* media_codec_bridge,
	const DequeueOutputResult& dequeue_output_result) {
	SB_DCHECK(media_codec_bridge);
	SB_DCHECK(output_cb_);
	SB_DCHECK(dequeue_output_result.index >= 0);

	if (dequeue_output_result.num_bytes > 0) {
	ScopedJavaByteBuffer byte_buffer(
	media_codec_bridge->GetOutputBuffer(dequeue_output_result.index));
	SB_DCHECK(!byte_buffer.IsNull());

	int16_t* data = static_cast<int16_t*>(IncrementPointerByBytes(
	byte_buffer.address(), dequeue_output_result.offset));
	int size = dequeue_output_result.num_bytes;
	if (2 * audio_sample_info_.samples_per_second == output_sample_rate_) {
	// The audio is encoded using implicit HE-AAC. As the audio sink has
	// been created already we try to down-mix the decoded data to half of
	// its channels so the audio sink can play it with the correct pitch.
	for (int i = 0; i < size / sizeof(int16_t); i++) {
	data[i / 2] = (static_cast<int32_t>(data[i]) +
	static_cast<int32_t>(data[i + 1]) / 2);
	}
	size /= 2;
	}

	scoped_refptr<DecodedAudio> decoded_audio = new DecodedAudio(
	audio_sample_info_.number_of_channels, sample_type_,
	kSbMediaAudioFrameStorageTypeInterleaved,
	dequeue_output_result.presentation_time_microseconds, size);

	memcpy(decoded_audio->buffer(), data, size);

	{
	starboard::ScopedLock lock(decoded_audios_mutex_);
	decoded_audios_.push(decoded_audio);
	VERBOSE_MEDIA_LOG() << "T2: timestamp "
	<< decoded_audios_.front()->timestamp();
	}
	Schedule(output_cb_);
	}

	// BUFFER_FLAG_END_OF_STREAM may come with the last valid output buffer.
	if (dequeue_output_result.flags & BUFFER_FLAG_END_OF_STREAM) {
	{
	starboard::ScopedLock lock(decoded_audios_mutex_);
	decoded_audios_.push(new DecodedAudio());
	}
	Schedule(output_cb_);
	}

	media_codec_bridge->ReleaseOutputBuffer(dequeue_output_result.index, false);
	}

	void AudioDecoder::RefreshOutputFormat(MediaCodecBridge* media_codec_bridge) {
	AudioOutputFormatResult output_format =
	media_codec_bridge->GetAudioOutputFormat();
	if (output_format.status == MEDIA_CODEC_ERROR) {
	SB_LOG(ERROR) << "\|getOutputFormat\| failed";
	return;
	}
	output_sample_rate_ = output_format.sample_rate;
	output_channel_count_ = output_format.channel_count;
	}

	} // namespace shared
	} // namespace android
	} // namespace starboard