media/audio/audio_output_device.cc - chromium/src - Git at Google

 // Copyright (c) 2012 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.h"

 #include "base/basictypes.h"
 #include "base/debug/trace_event.h"
 #include "base/threading/thread_restrictions.h"
 #include "base/time/time.h"
 #include "media/audio/audio_output_controller.h"
 #include "media/base/limits.h"

 namespace media {

 // Takes care of invoking the render callback on the audio thread.
 // An instance of this class is created for each capture stream in
 // OnStreamCreated().
 class AudioOutputDevice::AudioThreadCallback
     : public AudioDeviceThread::Callback {
  public:
   AudioThreadCallback(const AudioParameters& audio_parameters,
                       base::SharedMemoryHandle memory,
                       int memory_length,
                       AudioRendererSink::RenderCallback* render_callback);
   virtual ~AudioThreadCallback();

   virtual void MapSharedMemory() OVERRIDE;

   // Called whenever we receive notifications about pending data.
   virtual void Process(int pending_data) OVERRIDE;

  private:
   AudioRendererSink::RenderCallback* render_callback_;
   scoped_ptr<AudioBus> input_bus_;
   scoped_ptr<AudioBus> output_bus_;
   DISALLOW_COPY_AND_ASSIGN(AudioThreadCallback);
 };

 AudioOutputDevice::AudioOutputDevice(
     scoped_ptr<AudioOutputIPC> ipc,
     const scoped_refptr<base::SingleThreadTaskRunner>& io_task_runner)
     : ScopedTaskRunnerObserver(io_task_runner),
       callback_(NULL),
       ipc_(ipc.Pass()),
       state_(IDLE),
       play_on_start_(true),
       session_id_(-1),
       stopping_hack_(false) {
   CHECK(ipc_);

   // The correctness of the code depends on the relative values assigned in the
   // State enum.
   COMPILE_ASSERT(IPC_CLOSED < IDLE, invalid_enum_value_assignment_0);
   COMPILE_ASSERT(IDLE < CREATING_STREAM, invalid_enum_value_assignment_1);
   COMPILE_ASSERT(CREATING_STREAM < PAUSED, invalid_enum_value_assignment_2);
   COMPILE_ASSERT(PAUSED < PLAYING, invalid_enum_value_assignment_3);
 }

 void AudioOutputDevice::InitializeUnifiedStream(const AudioParameters& params,
                                                 RenderCallback* callback,
                                                 int session_id) {
   DCHECK(!callback_) << "Calling InitializeUnifiedStream() twice?";
   DCHECK(params.IsValid());
   audio_parameters_ = params;
   callback_ = callback;
   session_id_ = session_id;
 }

 void AudioOutputDevice::Initialize(const AudioParameters& params,
                                    RenderCallback* callback) {
   InitializeUnifiedStream(params, callback, 0);
 }

 AudioOutputDevice::~AudioOutputDevice() {
   // The current design requires that the user calls Stop() before deleting
   // this class.
   DCHECK(audio_thread_.IsStopped());
 }

 void AudioOutputDevice::Start() {
   DCHECK(callback_) << "Initialize hasn't been called";
   task_runner()->PostTask(FROM_HERE,
       base::Bind(&AudioOutputDevice::CreateStreamOnIOThread, this,
                  audio_parameters_));
 }

 void AudioOutputDevice::Stop() {
   {
     base::AutoLock auto_lock(audio_thread_lock_);
     audio_thread_.Stop(base::MessageLoop::current());
     stopping_hack_ = true;
   }

   task_runner()->PostTask(FROM_HERE,
       base::Bind(&AudioOutputDevice::ShutDownOnIOThread, this));
 }

 void AudioOutputDevice::Play() {
   task_runner()->PostTask(FROM_HERE,
       base::Bind(&AudioOutputDevice::PlayOnIOThread, this));
 }

 void AudioOutputDevice::Pause() {
   task_runner()->PostTask(FROM_HERE,
       base::Bind(&AudioOutputDevice::PauseOnIOThread, this));
 }

 bool AudioOutputDevice::SetVolume(double volume) {
   if (volume < 0 || volume > 1.0)
     return false;

   if (!task_runner()->PostTask(FROM_HERE,
           base::Bind(&AudioOutputDevice::SetVolumeOnIOThread, this, volume))) {
     return false;
   }

   return true;
 }

 void AudioOutputDevice::CreateStreamOnIOThread(const AudioParameters& params) {
   DCHECK(task_runner()->BelongsToCurrentThread());
   if (state_ == IDLE) {
     state_ = CREATING_STREAM;
     ipc_->CreateStream(this, params, session_id_);
   }
 }

 void AudioOutputDevice::PlayOnIOThread() {
   DCHECK(task_runner()->BelongsToCurrentThread());
   if (state_ == PAUSED) {
     ipc_->PlayStream();
     state_ = PLAYING;
     play_on_start_ = false;
   } else {
     play_on_start_ = true;
   }
 }

 void AudioOutputDevice::PauseOnIOThread() {
   DCHECK(task_runner()->BelongsToCurrentThread());
   if (state_ == PLAYING) {
     ipc_->PauseStream();
     state_ = PAUSED;
   }
   play_on_start_ = false;
 }

 void AudioOutputDevice::ShutDownOnIOThread() {
   DCHECK(task_runner()->BelongsToCurrentThread());

   // Close the stream, if we haven't already.
   if (state_ >= CREATING_STREAM) {
     ipc_->CloseStream();
     state_ = IDLE;
   }

   // We can run into an issue where ShutDownOnIOThread is called right after
   // OnStreamCreated is called in cases where Start/Stop are called before we
   // get the OnStreamCreated callback.  To handle that corner case, we call
   // Stop(). In most cases, the thread will already be stopped.
   //
   // Another situation is when the IO thread goes away before Stop() is called
   // in which case, we cannot use the message loop to close the thread handle
   // and can't rely on the main thread existing either.
   base::AutoLock auto_lock_(audio_thread_lock_);
   base::ThreadRestrictions::ScopedAllowIO allow_io;
   audio_thread_.Stop(NULL);
   audio_callback_.reset();
   stopping_hack_ = false;
 }

 void AudioOutputDevice::SetVolumeOnIOThread(double volume) {
   DCHECK(task_runner()->BelongsToCurrentThread());
   if (state_ >= CREATING_STREAM)
     ipc_->SetVolume(volume);
 }

 void AudioOutputDevice::OnStateChanged(AudioOutputIPCDelegate::State state) {
   DCHECK(task_runner()->BelongsToCurrentThread());

   // Do nothing if the stream has been closed.
   if (state_ < CREATING_STREAM)
     return;

   // TODO(miu): Clean-up inconsistent and incomplete handling here.
   // http://crbug.com/180640
   switch (state) {
     case AudioOutputIPCDelegate::kPlaying:
     case AudioOutputIPCDelegate::kPaused:
       break;
     case AudioOutputIPCDelegate::kError:
       DLOG(WARNING) << "AudioOutputDevice::OnStateChanged(kError)";
       // Don't dereference the callback object if the audio thread
       // is stopped or stopping.  That could mean that the callback
       // object has been deleted.
       // TODO(tommi): Add an explicit contract for clearing the callback
       // object.  Possibly require calling Initialize again or provide
       // a callback object via Start() and clear it in Stop().
       if (!audio_thread_.IsStopped())
         callback_->OnRenderError();
       break;
     default:
       NOTREACHED();
       break;
   }
 }

 void AudioOutputDevice::OnStreamCreated(
     base::SharedMemoryHandle handle,
     base::SyncSocket::Handle socket_handle,
     int length) {
   DCHECK(task_runner()->BelongsToCurrentThread());
 #if defined(OS_WIN)
   DCHECK(handle);
   DCHECK(socket_handle);
 #else
   DCHECK_GE(handle.fd, 0);
   DCHECK_GE(socket_handle, 0);
 #endif
   DCHECK_GT(length, 0);

   if (state_ != CREATING_STREAM)
     return;

   // We can receive OnStreamCreated() on the IO thread after the client has
   // called Stop() but before ShutDownOnIOThread() is processed. In such a
   // situation |callback_| might point to freed memory. Instead of starting
   // |audio_thread_| do nothing and wait for ShutDownOnIOThread() to get called.
   //
   // TODO(scherkus): The real fix is to have sane ownership semantics. The fact
   // that |callback_| (which should own and outlive this object!) can point to
   // freed memory is a mess. AudioRendererSink should be non-refcounted so that
   // owners (WebRtcAudioDeviceImpl, AudioRendererImpl, etc...) can Stop() and
   // delete as they see fit. AudioOutputDevice should internally use WeakPtr
   // to handle teardown and thread hopping. See http://crbug.com/151051 for
   // details.
   base::AutoLock auto_lock(audio_thread_lock_);
   if (stopping_hack_)
     return;

   DCHECK(audio_thread_.IsStopped());
   audio_callback_.reset(new AudioOutputDevice::AudioThreadCallback(
       audio_parameters_, handle, length, callback_));
   audio_thread_.Start(
       audio_callback_.get(), socket_handle, "AudioOutputDevice", true);
   state_ = PAUSED;

   // We handle the case where Play() and/or Pause() may have been called
   // multiple times before OnStreamCreated() gets called.
   if (play_on_start_)
     PlayOnIOThread();
 }

 void AudioOutputDevice::OnIPCClosed() {
   DCHECK(task_runner()->BelongsToCurrentThread());
   state_ = IPC_CLOSED;
   ipc_.reset();
 }

 void AudioOutputDevice::WillDestroyCurrentMessageLoop() {
   LOG(ERROR) << "IO loop going away before the audio device has been stopped";
   ShutDownOnIOThread();
 }

 // AudioOutputDevice::AudioThreadCallback

 AudioOutputDevice::AudioThreadCallback::AudioThreadCallback(
     const AudioParameters& audio_parameters,
     base::SharedMemoryHandle memory,
     int memory_length,
     AudioRendererSink::RenderCallback* render_callback)
     : AudioDeviceThread::Callback(audio_parameters, memory, memory_length, 1),
       render_callback_(render_callback) {}

 AudioOutputDevice::AudioThreadCallback::~AudioThreadCallback() {
 }

 void AudioOutputDevice::AudioThreadCallback::MapSharedMemory() {
   CHECK_EQ(total_segments_, 1);
   CHECK(shared_memory_.Map(memory_length_));

   // Calculate output and input memory size.
   int output_memory_size = AudioBus::CalculateMemorySize(audio_parameters_);
   int input_channels = audio_parameters_.input_channels();
   int frames = audio_parameters_.frames_per_buffer();
   int input_memory_size = AudioBus::CalculateMemorySize(input_channels, frames);

   int io_size = output_memory_size + input_memory_size;

   DCHECK_EQ(memory_length_, io_size);

   output_bus_ =
       AudioBus::WrapMemory(audio_parameters_, shared_memory_.memory());

   if (input_channels > 0) {
     // The input data is after the output data.
     char* input_data =
         static_cast<char*>(shared_memory_.memory()) + output_memory_size;
     input_bus_ = AudioBus::WrapMemory(input_channels, frames, input_data);
   }
 }

 // Called whenever we receive notifications about pending data.
 void AudioOutputDevice::AudioThreadCallback::Process(int pending_data) {
   // Negative |pending_data| indicates the browser side stream has stopped.
   if (pending_data < 0)
     return;

   // Convert the number of pending bytes in the render buffer into milliseconds.
   int audio_delay_milliseconds = pending_data / bytes_per_ms_;

   TRACE_EVENT0("audio", "AudioOutputDevice::FireRenderCallback");

   // Update the audio-delay measurement then ask client to render audio.  Since
   // |output_bus_| is wrapping the shared memory the Render() call is writing
   // directly into the shared memory.
   int input_channels = audio_parameters_.input_channels();
   if (input_bus_ && input_channels > 0) {
     render_callback_->RenderIO(
         input_bus_.get(), output_bus_.get(), audio_delay_milliseconds);
   } else {
     render_callback_->Render(output_bus_.get(), audio_delay_milliseconds);
   }
 }

 }  // namespace media.
	// Copyright (c) 2012 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.h"

	#include "base/basictypes.h"
	#include "base/debug/trace_event.h"
	#include "base/threading/thread_restrictions.h"
	#include "base/time/time.h"
	#include "media/audio/audio_output_controller.h"
	#include "media/base/limits.h"

	namespace media {

	// Takes care of invoking the render callback on the audio thread.
	// An instance of this class is created for each capture stream in
	// OnStreamCreated().
	class AudioOutputDevice::AudioThreadCallback
	: public AudioDeviceThread::Callback {
	public:
	AudioThreadCallback(const AudioParameters& audio_parameters,
	base::SharedMemoryHandle memory,
	int memory_length,
	AudioRendererSink::RenderCallback* render_callback);
	virtual ~AudioThreadCallback();

	virtual void MapSharedMemory() OVERRIDE;

	// Called whenever we receive notifications about pending data.
	virtual void Process(int pending_data) OVERRIDE;

	private:
	AudioRendererSink::RenderCallback* render_callback_;
	scoped_ptr<AudioBus> input_bus_;
	scoped_ptr<AudioBus> output_bus_;
	DISALLOW_COPY_AND_ASSIGN(AudioThreadCallback);
	};

	AudioOutputDevice::AudioOutputDevice(
	scoped_ptr<AudioOutputIPC> ipc,
	const scoped_refptr<base::SingleThreadTaskRunner>& io_task_runner)
	: ScopedTaskRunnerObserver(io_task_runner),
	callback_(NULL),
	ipc_(ipc.Pass()),
	state_(IDLE),
	play_on_start_(true),
	session_id_(-1),
	stopping_hack_(false) {
	CHECK(ipc_);

	// The correctness of the code depends on the relative values assigned in the
	// State enum.
	COMPILE_ASSERT(IPC_CLOSED < IDLE, invalid_enum_value_assignment_0);
	COMPILE_ASSERT(IDLE < CREATING_STREAM, invalid_enum_value_assignment_1);
	COMPILE_ASSERT(CREATING_STREAM < PAUSED, invalid_enum_value_assignment_2);
	COMPILE_ASSERT(PAUSED < PLAYING, invalid_enum_value_assignment_3);
	}

	void AudioOutputDevice::InitializeUnifiedStream(const AudioParameters& params,
	RenderCallback* callback,
	int session_id) {
	DCHECK(!callback_) << "Calling InitializeUnifiedStream() twice?";
	DCHECK(params.IsValid());
	audio_parameters_ = params;
	callback_ = callback;
	session_id_ = session_id;
	}

	void AudioOutputDevice::Initialize(const AudioParameters& params,
	RenderCallback* callback) {
	InitializeUnifiedStream(params, callback, 0);
	}

	AudioOutputDevice::~AudioOutputDevice() {
	// The current design requires that the user calls Stop() before deleting
	// this class.
	DCHECK(audio_thread_.IsStopped());
	}

	void AudioOutputDevice::Start() {
	DCHECK(callback_) << "Initialize hasn't been called";
	task_runner()->PostTask(FROM_HERE,
	base::Bind(&AudioOutputDevice::CreateStreamOnIOThread, this,
	audio_parameters_));
	}

	void AudioOutputDevice::Stop() {
	{
	base::AutoLock auto_lock(audio_thread_lock_);
	audio_thread_.Stop(base::MessageLoop::current());
	stopping_hack_ = true;
	}

	task_runner()->PostTask(FROM_HERE,
	base::Bind(&AudioOutputDevice::ShutDownOnIOThread, this));
	}

	void AudioOutputDevice::Play() {
	task_runner()->PostTask(FROM_HERE,
	base::Bind(&AudioOutputDevice::PlayOnIOThread, this));
	}

	void AudioOutputDevice::Pause() {
	task_runner()->PostTask(FROM_HERE,
	base::Bind(&AudioOutputDevice::PauseOnIOThread, this));
	}

	bool AudioOutputDevice::SetVolume(double volume) {
	if (volume < 0 \|\| volume > 1.0)
	return false;

	if (!task_runner()->PostTask(FROM_HERE,
	base::Bind(&AudioOutputDevice::SetVolumeOnIOThread, this, volume))) {
	return false;
	}

	return true;
	}

	void AudioOutputDevice::CreateStreamOnIOThread(const AudioParameters& params) {
	DCHECK(task_runner()->BelongsToCurrentThread());
	if (state_ == IDLE) {
	state_ = CREATING_STREAM;
	ipc_->CreateStream(this, params, session_id_);
	}
	}

	void AudioOutputDevice::PlayOnIOThread() {
	DCHECK(task_runner()->BelongsToCurrentThread());
	if (state_ == PAUSED) {
	ipc_->PlayStream();
	state_ = PLAYING;
	play_on_start_ = false;
	} else {
	play_on_start_ = true;
	}
	}

	void AudioOutputDevice::PauseOnIOThread() {
	DCHECK(task_runner()->BelongsToCurrentThread());
	if (state_ == PLAYING) {
	ipc_->PauseStream();
	state_ = PAUSED;
	}
	play_on_start_ = false;
	}

	void AudioOutputDevice::ShutDownOnIOThread() {
	DCHECK(task_runner()->BelongsToCurrentThread());

	// Close the stream, if we haven't already.
	if (state_ >= CREATING_STREAM) {
	ipc_->CloseStream();
	state_ = IDLE;
	}

	// We can run into an issue where ShutDownOnIOThread is called right after
	// OnStreamCreated is called in cases where Start/Stop are called before we
	// get the OnStreamCreated callback. To handle that corner case, we call
	// Stop(). In most cases, the thread will already be stopped.
	//
	// Another situation is when the IO thread goes away before Stop() is called
	// in which case, we cannot use the message loop to close the thread handle
	// and can't rely on the main thread existing either.
	base::AutoLock auto_lock_(audio_thread_lock_);
	base::ThreadRestrictions::ScopedAllowIO allow_io;
	audio_thread_.Stop(NULL);
	audio_callback_.reset();
	stopping_hack_ = false;
	}

	void AudioOutputDevice::SetVolumeOnIOThread(double volume) {
	DCHECK(task_runner()->BelongsToCurrentThread());
	if (state_ >= CREATING_STREAM)
	ipc_->SetVolume(volume);
	}

	void AudioOutputDevice::OnStateChanged(AudioOutputIPCDelegate::State state) {
	DCHECK(task_runner()->BelongsToCurrentThread());

	// Do nothing if the stream has been closed.
	if (state_ < CREATING_STREAM)
	return;

	// TODO(miu): Clean-up inconsistent and incomplete handling here.
	// http://crbug.com/180640
	switch (state) {
	case AudioOutputIPCDelegate::kPlaying:
	case AudioOutputIPCDelegate::kPaused:
	break;
	case AudioOutputIPCDelegate::kError:
	DLOG(WARNING) << "AudioOutputDevice::OnStateChanged(kError)";
	// Don't dereference the callback object if the audio thread
	// is stopped or stopping. That could mean that the callback
	// object has been deleted.
	// TODO(tommi): Add an explicit contract for clearing the callback
	// object. Possibly require calling Initialize again or provide
	// a callback object via Start() and clear it in Stop().
	if (!audio_thread_.IsStopped())
	callback_->OnRenderError();
	break;
	default:
	NOTREACHED();
	break;
	}
	}

	void AudioOutputDevice::OnStreamCreated(
	base::SharedMemoryHandle handle,
	base::SyncSocket::Handle socket_handle,
	int length) {
	DCHECK(task_runner()->BelongsToCurrentThread());
	#if defined(OS_WIN)
	DCHECK(handle);
	DCHECK(socket_handle);
	#else
	DCHECK_GE(handle.fd, 0);
	DCHECK_GE(socket_handle, 0);
	#endif
	DCHECK_GT(length, 0);

	if (state_ != CREATING_STREAM)
	return;

	// We can receive OnStreamCreated() on the IO thread after the client has
	// called Stop() but before ShutDownOnIOThread() is processed. In such a
	// situation \|callback_\| might point to freed memory. Instead of starting
	// \|audio_thread_\| do nothing and wait for ShutDownOnIOThread() to get called.
	//
	// TODO(scherkus): The real fix is to have sane ownership semantics. The fact
	// that \|callback_\| (which should own and outlive this object!) can point to
	// freed memory is a mess. AudioRendererSink should be non-refcounted so that
	// owners (WebRtcAudioDeviceImpl, AudioRendererImpl, etc...) can Stop() and
	// delete as they see fit. AudioOutputDevice should internally use WeakPtr
	// to handle teardown and thread hopping. See http://crbug.com/151051 for
	// details.
	base::AutoLock auto_lock(audio_thread_lock_);
	if (stopping_hack_)
	return;

	DCHECK(audio_thread_.IsStopped());
	audio_callback_.reset(new AudioOutputDevice::AudioThreadCallback(
	audio_parameters_, handle, length, callback_));
	audio_thread_.Start(
	audio_callback_.get(), socket_handle, "AudioOutputDevice", true);
	state_ = PAUSED;

	// We handle the case where Play() and/or Pause() may have been called
	// multiple times before OnStreamCreated() gets called.
	if (play_on_start_)
	PlayOnIOThread();
	}

	void AudioOutputDevice::OnIPCClosed() {
	DCHECK(task_runner()->BelongsToCurrentThread());
	state_ = IPC_CLOSED;
	ipc_.reset();
	}

	void AudioOutputDevice::WillDestroyCurrentMessageLoop() {
	LOG(ERROR) << "IO loop going away before the audio device has been stopped";
	ShutDownOnIOThread();
	}

	// AudioOutputDevice::AudioThreadCallback

	AudioOutputDevice::AudioThreadCallback::AudioThreadCallback(
	const AudioParameters& audio_parameters,
	base::SharedMemoryHandle memory,
	int memory_length,
	AudioRendererSink::RenderCallback* render_callback)
	: AudioDeviceThread::Callback(audio_parameters, memory, memory_length, 1),
	render_callback_(render_callback) {}

	AudioOutputDevice::AudioThreadCallback::~AudioThreadCallback() {
	}

	void AudioOutputDevice::AudioThreadCallback::MapSharedMemory() {
	CHECK_EQ(total_segments_, 1);
	CHECK(shared_memory_.Map(memory_length_));

	// Calculate output and input memory size.
	int output_memory_size = AudioBus::CalculateMemorySize(audio_parameters_);
	int input_channels = audio_parameters_.input_channels();
	int frames = audio_parameters_.frames_per_buffer();
	int input_memory_size = AudioBus::CalculateMemorySize(input_channels, frames);

	int io_size = output_memory_size + input_memory_size;

	DCHECK_EQ(memory_length_, io_size);

	output_bus_ =
	AudioBus::WrapMemory(audio_parameters_, shared_memory_.memory());

	if (input_channels > 0) {
	// The input data is after the output data.
	char* input_data =
	static_cast<char*>(shared_memory_.memory()) + output_memory_size;
	input_bus_ = AudioBus::WrapMemory(input_channels, frames, input_data);
	}
	}

	// Called whenever we receive notifications about pending data.
	void AudioOutputDevice::AudioThreadCallback::Process(int pending_data) {
	// Negative \|pending_data\| indicates the browser side stream has stopped.
	if (pending_data < 0)
	return;

	// Convert the number of pending bytes in the render buffer into milliseconds.
	int audio_delay_milliseconds = pending_data / bytes_per_ms_;

	TRACE_EVENT0("audio", "AudioOutputDevice::FireRenderCallback");

	// Update the audio-delay measurement then ask client to render audio. Since
	// \|output_bus_\| is wrapping the shared memory the Render() call is writing
	// directly into the shared memory.
	int input_channels = audio_parameters_.input_channels();
	if (input_bus_ && input_channels > 0) {
	render_callback_->RenderIO(
	input_bus_.get(), output_bus_.get(), audio_delay_milliseconds);
	} else {
	render_callback_->Render(output_bus_.get(), audio_delay_milliseconds);
	}
	}

	} // namespace media.