third_party/chromium/media/audio/audio_output_device_thread_callback.cc - cobalt - Git at Google

 // Copyright 2018 The Chromium Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #include "media/audio/audio_output_device_thread_callback.h"

 #include <utility>

 #include "base/logging.h"
 #include "base/metrics/histogram_macros.h"
 #include "base/trace_event/trace_event.h"

 namespace media {

 AudioOutputDeviceThreadCallback::AudioOutputDeviceThreadCallback(
     const media::AudioParameters& audio_parameters,
     base::UnsafeSharedMemoryRegion shared_memory_region,
     media::AudioRendererSink::RenderCallback* render_callback)
     : media::AudioDeviceThread::Callback(
           audio_parameters,
           ComputeAudioOutputBufferSize(audio_parameters),
           /*segment count*/ 1),
       shared_memory_region_(std::move(shared_memory_region)),
       render_callback_(render_callback),
       callback_num_(0) {
   // CHECK that the shared memory is large enough. The memory allocated must be
   // at least as large as expected.
   CHECK(memory_length_ <= shared_memory_region_.GetSize());
 }

 AudioOutputDeviceThreadCallback::~AudioOutputDeviceThreadCallback() = default;

 void AudioOutputDeviceThreadCallback::MapSharedMemory() {
   CHECK_EQ(total_segments_, 1u);
   shared_memory_mapping_ = shared_memory_region_.MapAt(0, memory_length_);
   CHECK(shared_memory_mapping_.IsValid());

   media::AudioOutputBuffer* buffer =
       reinterpret_cast<media::AudioOutputBuffer*>(
           shared_memory_mapping_.memory());
   output_bus_ = media::AudioBus::WrapMemory(audio_parameters_, buffer->audio);
   output_bus_->set_is_bitstream_format(audio_parameters_.IsBitstreamFormat());
 }

 // Called whenever we receive notifications about pending data.
 void AudioOutputDeviceThreadCallback::Process(uint32_t control_signal) {
   callback_num_++;

   // Read and reset the number of frames skipped.
   media::AudioOutputBuffer* buffer =
       reinterpret_cast<media::AudioOutputBuffer*>(
           shared_memory_mapping_.memory());
   uint32_t frames_skipped = buffer->params.frames_skipped;
   buffer->params.frames_skipped = 0;

   TRACE_EVENT_BEGIN2("audio", "AudioOutputDevice::FireRenderCallback",
                      "callback_num", callback_num_, "frames skipped",
                      frames_skipped);

   base::TimeDelta delay = base::Microseconds(buffer->params.delay_us);

   base::TimeTicks delay_timestamp =
       base::TimeTicks() + base::Microseconds(buffer->params.delay_timestamp_us);

   DVLOG(4) << __func__ << " delay:" << delay << " delay_timestamp:" << delay
            << " frames_skipped:" << frames_skipped;

   // When playback starts, we get an immediate callback to Process to make sure
   // that we have some data, we'll get another one after the device is awake and
   // ingesting data, which is what we want to track with this trace.
   if (callback_num_ == 2)
     TRACE_EVENT_NESTABLE_ASYNC_END0("audio", "StartingPlayback",
                                     TRACE_ID_LOCAL(this));

   // Update the audio-delay measurement, inform about the number of skipped
   // frames, and ask client to render audio.  Since |output_bus_| is wrapping
   // the shared memory the Render() call is writing directly into the shared
   // memory.
   render_callback_->Render(delay, delay_timestamp, frames_skipped,
                            output_bus_.get());

   if (audio_parameters_.IsBitstreamFormat()) {
     buffer->params.bitstream_data_size = output_bus_->GetBitstreamDataSize();
     buffer->params.bitstream_frames = output_bus_->GetBitstreamFrames();
   }

   TRACE_EVENT_END2("audio", "AudioOutputDevice::FireRenderCallback",
                    "timestamp (ms)",
                    (delay_timestamp - base::TimeTicks()).InMillisecondsF(),
                    "delay (ms)", delay.InMillisecondsF());
 }

 bool AudioOutputDeviceThreadCallback::CurrentThreadIsAudioDeviceThread() {
   return thread_checker_.CalledOnValidThread();
 }

 void AudioOutputDeviceThreadCallback::InitializePlayStartTime() {}

 }  // namespace media
	// Copyright 2018 The Chromium Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#include "media/audio/audio_output_device_thread_callback.h"

	#include <utility>

	#include "base/logging.h"
	#include "base/metrics/histogram_macros.h"
	#include "base/trace_event/trace_event.h"

	namespace media {

	AudioOutputDeviceThreadCallback::AudioOutputDeviceThreadCallback(
	const media::AudioParameters& audio_parameters,
	base::UnsafeSharedMemoryRegion shared_memory_region,
	media::AudioRendererSink::RenderCallback* render_callback)
	: media::AudioDeviceThread::Callback(
	audio_parameters,
	ComputeAudioOutputBufferSize(audio_parameters),
	/segment count/ 1),
	shared_memory_region_(std::move(shared_memory_region)),
	render_callback_(render_callback),
	callback_num_(0) {
	// CHECK that the shared memory is large enough. The memory allocated must be
	// at least as large as expected.
	CHECK(memory_length_ <= shared_memory_region_.GetSize());
	}

	AudioOutputDeviceThreadCallback::~AudioOutputDeviceThreadCallback() = default;

	void AudioOutputDeviceThreadCallback::MapSharedMemory() {
	CHECK_EQ(total_segments_, 1u);
	shared_memory_mapping_ = shared_memory_region_.MapAt(0, memory_length_);
	CHECK(shared_memory_mapping_.IsValid());

	media::AudioOutputBuffer* buffer =
	reinterpret_cast<media::AudioOutputBuffer*>(
	shared_memory_mapping_.memory());
	output_bus_ = media::AudioBus::WrapMemory(audio_parameters_, buffer->audio);
	output_bus_->set_is_bitstream_format(audio_parameters_.IsBitstreamFormat());
	}

	// Called whenever we receive notifications about pending data.
	void AudioOutputDeviceThreadCallback::Process(uint32_t control_signal) {
	callback_num_++;

	// Read and reset the number of frames skipped.
	media::AudioOutputBuffer* buffer =
	reinterpret_cast<media::AudioOutputBuffer*>(
	shared_memory_mapping_.memory());
	uint32_t frames_skipped = buffer->params.frames_skipped;
	buffer->params.frames_skipped = 0;

	TRACE_EVENT_BEGIN2("audio", "AudioOutputDevice::FireRenderCallback",
	"callback_num", callback_num_, "frames skipped",
	frames_skipped);

	base::TimeDelta delay = base::Microseconds(buffer->params.delay_us);

	base::TimeTicks delay_timestamp =
	base::TimeTicks() + base::Microseconds(buffer->params.delay_timestamp_us);

	DVLOG(4) << __func__ << " delay:" << delay << " delay_timestamp:" << delay
	<< " frames_skipped:" << frames_skipped;

	// When playback starts, we get an immediate callback to Process to make sure
	// that we have some data, we'll get another one after the device is awake and
	// ingesting data, which is what we want to track with this trace.
	if (callback_num_ == 2)
	TRACE_EVENT_NESTABLE_ASYNC_END0("audio", "StartingPlayback",
	TRACE_ID_LOCAL(this));

	// Update the audio-delay measurement, inform about the number of skipped
	// frames, and ask client to render audio. Since \|output_bus_\| is wrapping
	// the shared memory the Render() call is writing directly into the shared
	// memory.
	render_callback_->Render(delay, delay_timestamp, frames_skipped,
	output_bus_.get());

	if (audio_parameters_.IsBitstreamFormat()) {
	buffer->params.bitstream_data_size = output_bus_->GetBitstreamDataSize();
	buffer->params.bitstream_frames = output_bus_->GetBitstreamFrames();
	}

	TRACE_EVENT_END2("audio", "AudioOutputDevice::FireRenderCallback",
	"timestamp (ms)",
	(delay_timestamp - base::TimeTicks()).InMillisecondsF(),
	"delay (ms)", delay.InMillisecondsF());
	}

	bool AudioOutputDeviceThreadCallback::CurrentThreadIsAudioDeviceThread() {
	return thread_checker_.CalledOnValidThread();
	}

	void AudioOutputDeviceThreadCallback::InitializePlayStartTime() {}

	} // namespace media