ppapi/shared_impl/ppb_audio_shared.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 "ppapi/shared_impl/ppb_audio_shared.h"

 #include <utility>

 #include "base/logging.h"
 #include "base/trace_event/trace_event.h"
 #include "media/base/audio_parameters.h"
 #include "ppapi/nacl_irt/public/irt_ppapi.h"
 #include "ppapi/shared_impl/ppapi_globals.h"
 #include "ppapi/shared_impl/ppb_audio_config_shared.h"
 #include "ppapi/shared_impl/proxy_lock.h"

 namespace ppapi {

 namespace {
 bool g_nacl_mode = false;
 // Because this is static, the function pointers will be NULL initially.
 PP_ThreadFunctions g_thread_functions;
 }

 AudioCallbackCombined::AudioCallbackCombined()
     : callback_1_0_(NULL), callback_(NULL) {}

 AudioCallbackCombined::AudioCallbackCombined(
     PPB_Audio_Callback_1_0 callback_1_0)
     : callback_1_0_(callback_1_0), callback_(NULL) {}

 AudioCallbackCombined::AudioCallbackCombined(PPB_Audio_Callback callback)
     : callback_1_0_(NULL), callback_(callback) {}

 AudioCallbackCombined::~AudioCallbackCombined() {}

 bool AudioCallbackCombined::IsValid() const {
   return callback_1_0_ || callback_;
 }

 void AudioCallbackCombined::Run(void* sample_buffer,
                                 uint32_t buffer_size_in_bytes,
                                 PP_TimeDelta latency,
                                 void* user_data) const {
   if (callback_) {
     callback_(sample_buffer, buffer_size_in_bytes, latency, user_data);
   } else if (callback_1_0_) {
     callback_1_0_(sample_buffer, buffer_size_in_bytes, user_data);
   } else {
     NOTREACHED();
   }
 }

 PPB_Audio_Shared::PPB_Audio_Shared()
     : playing_(false),
       shared_memory_size_(0),
       nacl_thread_id_(0),
       nacl_thread_active_(false),
       user_data_(NULL),
       client_buffer_size_bytes_(0),
       bytes_per_second_(0),
       buffer_index_(0) {
 }

 PPB_Audio_Shared::~PPB_Audio_Shared() {
   // Shut down the socket to escape any hanging |Receive|s.
   if (socket_.get())
     socket_->Shutdown();
   StopThread();
 }

 void PPB_Audio_Shared::SetCallback(const AudioCallbackCombined& callback,
                                    void* user_data) {
   callback_ = callback;
   user_data_ = user_data;
 }

 void PPB_Audio_Shared::SetStartPlaybackState() {
   DCHECK(!playing_);
   DCHECK(!audio_thread_.get());
   DCHECK(!nacl_thread_active_);
   // If the socket doesn't exist, that means that the plugin has started before
   // the browser has had a chance to create all the shared memory info and
   // notify us. This is a common case. In this case, we just set the playing_
   // flag and the playback will automatically start when that data is available
   // in SetStreamInfo.
   playing_ = true;
   StartThread();
 }

 void PPB_Audio_Shared::SetStopPlaybackState() {
   DCHECK(playing_);
   StopThread();
   playing_ = false;
 }

 void PPB_Audio_Shared::SetStreamInfo(
     PP_Instance instance,
     base::SharedMemoryHandle shared_memory_handle,
     size_t shared_memory_size,
     base::SyncSocket::Handle socket_handle,
     PP_AudioSampleRate sample_rate,
     int sample_frame_count) {
   socket_.reset(new base::CancelableSyncSocket(socket_handle));
   shared_memory_.reset(new base::SharedMemory(shared_memory_handle, false));
   shared_memory_size_ = media::ComputeAudioOutputBufferSize(
       kAudioOutputChannels, sample_frame_count);
   DCHECK_GE(shared_memory_size, shared_memory_size_);
   bytes_per_second_ =
       kAudioOutputChannels * (kBitsPerAudioOutputSample / 8) * sample_rate;
   buffer_index_ = 0;

   if (!shared_memory_->Map(shared_memory_size_)) {
     PpapiGlobals::Get()->LogWithSource(
         instance,
         PP_LOGLEVEL_WARNING,
         std::string(),
         "Failed to map shared memory for PPB_Audio_Shared.");
   } else {
     media::AudioOutputBuffer* buffer =
         reinterpret_cast<media::AudioOutputBuffer*>(shared_memory_->memory());
     audio_bus_ = media::AudioBus::WrapMemory(kAudioOutputChannels,
                                              sample_frame_count, buffer->audio);
     // Setup integer audio buffer for user audio data.
     client_buffer_size_bytes_ = audio_bus_->frames() * audio_bus_->channels() *
                                 kBitsPerAudioOutputSample / 8;
     client_buffer_.reset(new uint8_t[client_buffer_size_bytes_]);
   }

   StartThread();
 }

 void PPB_Audio_Shared::StartThread() {
   // Don't start the thread unless all our state is set up correctly.
   if (!playing_ || !callback_.IsValid() || !socket_.get() ||
       !shared_memory_->memory() || !audio_bus_.get() || !client_buffer_.get() ||
       bytes_per_second_ == 0)
     return;
   // Clear contents of shm buffer before starting audio thread. This will
   // prevent a burst of static if for some reason the audio thread doesn't
   // start up quickly enough.
   memset(shared_memory_->memory(), 0, shared_memory_size_);
   memset(client_buffer_.get(), 0, client_buffer_size_bytes_);

   if (g_nacl_mode) {
     // Use NaCl's special API for IRT code that creates threads that call back
     // into user code.
     if (!IsThreadFunctionReady())
       return;

     DCHECK(!nacl_thread_active_);
     int result =
         g_thread_functions.thread_create(&nacl_thread_id_, CallRun, this);
     DCHECK_EQ(0, result);
     nacl_thread_active_ = true;
   } else {
     DCHECK(!audio_thread_.get());
     audio_thread_.reset(
         new base::DelegateSimpleThread(this, "plugin_audio_thread"));
     audio_thread_->Start();
   }
 }

 void PPB_Audio_Shared::StopThread() {
   // In general, the audio thread should not do Pepper calls, but it might
   // anyway (for example, our Audio test does CallOnMainThread). If it did a
   // pepper call which acquires the lock (most of them do), and we try to shut
   // down the thread and Join it while holding the lock, we would deadlock. So
   // we give up the lock here so that the thread at least _can_ make Pepper
   // calls without causing deadlock.
   // IMPORTANT: This instance's thread state should be reset to uninitialized
   // before we release the proxy lock, so any calls from the plugin while we're
   // unlocked can't access the joined thread.
   if (g_nacl_mode) {
     if (nacl_thread_active_) {
       nacl_thread_active_ = false;
       int result =
           CallWhileUnlocked(g_thread_functions.thread_join, nacl_thread_id_);
       DCHECK_EQ(0, result);
     }
   } else {
     if (audio_thread_.get()) {
       auto local_audio_thread(std::move(audio_thread_));
       CallWhileUnlocked(base::Bind(&base::DelegateSimpleThread::Join,
                                    base::Unretained(local_audio_thread.get())));
     }
   }
 }

 // static
 bool PPB_Audio_Shared::IsThreadFunctionReady() {
   if (!g_nacl_mode)
     return true;

   return (g_thread_functions.thread_create != NULL &&
           g_thread_functions.thread_join != NULL);
 }

 // static
 void PPB_Audio_Shared::SetNaClMode() {
   g_nacl_mode = true;
 }

 // static
 void PPB_Audio_Shared::SetThreadFunctions(
     const struct PP_ThreadFunctions* functions) {
   DCHECK(g_nacl_mode);
   g_thread_functions = *functions;
 }

 // static
 void PPB_Audio_Shared::CallRun(void* self) {
   PPB_Audio_Shared* audio = static_cast<PPB_Audio_Shared*>(self);
   audio->Run();
 }

 void PPB_Audio_Shared::Run() {
   int control_signal = 0;
   while (sizeof(control_signal) ==
          socket_->Receive(&control_signal, sizeof(control_signal))) {
     // |buffer_index_| must track the number of Receive() calls.  See the Send()
     // call below for why this is important.
     ++buffer_index_;
     if (control_signal < 0)
       break;

     {
       TRACE_EVENT0("audio", "PPB_Audio_Shared::FireRenderCallback");
       media::AudioOutputBuffer* buffer =
           reinterpret_cast<media::AudioOutputBuffer*>(shared_memory_->memory());
       base::TimeDelta delay =
           base::TimeDelta::FromMicroseconds(buffer->params.delay);

       callback_.Run(client_buffer_.get(), client_buffer_size_bytes_,
                     delay.InSecondsF(), user_data_);
     }

     // Deinterleave the audio data into the shared memory as floats.
     audio_bus_->FromInterleaved(client_buffer_.get(),
                                 audio_bus_->frames(),
                                 kBitsPerAudioOutputSample / 8);

     // Let the other end know which buffer we just filled.  The buffer index is
     // used to ensure the other end is getting the buffer it expects.  For more
     // details on how this works see AudioSyncReader::WaitUntilDataIsReady().
     size_t bytes_sent = socket_->Send(&buffer_index_, sizeof(buffer_index_));
     if (bytes_sent != sizeof(buffer_index_))
       break;
   }
 }

 }  // namespace ppapi
	// 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 "ppapi/shared_impl/ppb_audio_shared.h"

	#include <utility>

	#include "base/logging.h"
	#include "base/trace_event/trace_event.h"
	#include "media/base/audio_parameters.h"
	#include "ppapi/nacl_irt/public/irt_ppapi.h"
	#include "ppapi/shared_impl/ppapi_globals.h"
	#include "ppapi/shared_impl/ppb_audio_config_shared.h"
	#include "ppapi/shared_impl/proxy_lock.h"

	namespace ppapi {

	namespace {
	bool g_nacl_mode = false;
	// Because this is static, the function pointers will be NULL initially.
	PP_ThreadFunctions g_thread_functions;
	}

	AudioCallbackCombined::AudioCallbackCombined()
	: callback_1_0_(NULL), callback_(NULL) {}

	AudioCallbackCombined::AudioCallbackCombined(
	PPB_Audio_Callback_1_0 callback_1_0)
	: callback_1_0_(callback_1_0), callback_(NULL) {}

	AudioCallbackCombined::AudioCallbackCombined(PPB_Audio_Callback callback)
	: callback_1_0_(NULL), callback_(callback) {}

	AudioCallbackCombined::~AudioCallbackCombined() {}

	bool AudioCallbackCombined::IsValid() const {
	return callback_1_0_ \|\| callback_;
	}

	void AudioCallbackCombined::Run(void* sample_buffer,
	uint32_t buffer_size_in_bytes,
	PP_TimeDelta latency,
	void* user_data) const {
	if (callback_) {
	callback_(sample_buffer, buffer_size_in_bytes, latency, user_data);
	} else if (callback_1_0_) {
	callback_1_0_(sample_buffer, buffer_size_in_bytes, user_data);
	} else {
	NOTREACHED();
	}
	}

	PPB_Audio_Shared::PPB_Audio_Shared()
	: playing_(false),
	shared_memory_size_(0),
	nacl_thread_id_(0),
	nacl_thread_active_(false),
	user_data_(NULL),
	client_buffer_size_bytes_(0),
	bytes_per_second_(0),
	buffer_index_(0) {
	}

	PPB_Audio_Shared::~PPB_Audio_Shared() {
	// Shut down the socket to escape any hanging \|Receive\|s.
	if (socket_.get())
	socket_->Shutdown();
	StopThread();
	}

	void PPB_Audio_Shared::SetCallback(const AudioCallbackCombined& callback,
	void* user_data) {
	callback_ = callback;
	user_data_ = user_data;
	}

	void PPB_Audio_Shared::SetStartPlaybackState() {
	DCHECK(!playing_);
	DCHECK(!audio_thread_.get());
	DCHECK(!nacl_thread_active_);
	// If the socket doesn't exist, that means that the plugin has started before
	// the browser has had a chance to create all the shared memory info and
	// notify us. This is a common case. In this case, we just set the playing_
	// flag and the playback will automatically start when that data is available
	// in SetStreamInfo.
	playing_ = true;
	StartThread();
	}

	void PPB_Audio_Shared::SetStopPlaybackState() {
	DCHECK(playing_);
	StopThread();
	playing_ = false;
	}

	void PPB_Audio_Shared::SetStreamInfo(
	PP_Instance instance,
	base::SharedMemoryHandle shared_memory_handle,
	size_t shared_memory_size,
	base::SyncSocket::Handle socket_handle,
	PP_AudioSampleRate sample_rate,
	int sample_frame_count) {
	socket_.reset(new base::CancelableSyncSocket(socket_handle));
	shared_memory_.reset(new base::SharedMemory(shared_memory_handle, false));
	shared_memory_size_ = media::ComputeAudioOutputBufferSize(
	kAudioOutputChannels, sample_frame_count);
	DCHECK_GE(shared_memory_size, shared_memory_size_);
	bytes_per_second_ =
	kAudioOutputChannels * (kBitsPerAudioOutputSample / 8) * sample_rate;
	buffer_index_ = 0;

	if (!shared_memory_->Map(shared_memory_size_)) {
	PpapiGlobals::Get()->LogWithSource(
	instance,
	PP_LOGLEVEL_WARNING,
	std::string(),
	"Failed to map shared memory for PPB_Audio_Shared.");
	} else {
	media::AudioOutputBuffer* buffer =
	reinterpret_cast<media::AudioOutputBuffer*>(shared_memory_->memory());
	audio_bus_ = media::AudioBus::WrapMemory(kAudioOutputChannels,
	sample_frame_count, buffer->audio);
	// Setup integer audio buffer for user audio data.
	client_buffer_size_bytes_ = audio_bus_->frames() * audio_bus_->channels() *
	kBitsPerAudioOutputSample / 8;
	client_buffer_.reset(new uint8_t[client_buffer_size_bytes_]);
	}

	StartThread();
	}

	void PPB_Audio_Shared::StartThread() {
	// Don't start the thread unless all our state is set up correctly.
	if (!playing_ \|\| !callback_.IsValid() \|\| !socket_.get() \|\|
	!shared_memory_->memory() \|\| !audio_bus_.get() \|\| !client_buffer_.get() \|\|
	bytes_per_second_ == 0)
	return;
	// Clear contents of shm buffer before starting audio thread. This will
	// prevent a burst of static if for some reason the audio thread doesn't
	// start up quickly enough.
	memset(shared_memory_->memory(), 0, shared_memory_size_);
	memset(client_buffer_.get(), 0, client_buffer_size_bytes_);

	if (g_nacl_mode) {
	// Use NaCl's special API for IRT code that creates threads that call back
	// into user code.
	if (!IsThreadFunctionReady())
	return;

	DCHECK(!nacl_thread_active_);
	int result =
	g_thread_functions.thread_create(&nacl_thread_id_, CallRun, this);
	DCHECK_EQ(0, result);
	nacl_thread_active_ = true;
	} else {
	DCHECK(!audio_thread_.get());
	audio_thread_.reset(
	new base::DelegateSimpleThread(this, "plugin_audio_thread"));
	audio_thread_->Start();
	}
	}

	void PPB_Audio_Shared::StopThread() {
	// In general, the audio thread should not do Pepper calls, but it might
	// anyway (for example, our Audio test does CallOnMainThread). If it did a
	// pepper call which acquires the lock (most of them do), and we try to shut
	// down the thread and Join it while holding the lock, we would deadlock. So
	// we give up the lock here so that the thread at least _can_ make Pepper
	// calls without causing deadlock.
	// IMPORTANT: This instance's thread state should be reset to uninitialized
	// before we release the proxy lock, so any calls from the plugin while we're
	// unlocked can't access the joined thread.
	if (g_nacl_mode) {
	if (nacl_thread_active_) {
	nacl_thread_active_ = false;
	int result =
	CallWhileUnlocked(g_thread_functions.thread_join, nacl_thread_id_);
	DCHECK_EQ(0, result);
	}
	} else {
	if (audio_thread_.get()) {
	auto local_audio_thread(std::move(audio_thread_));
	CallWhileUnlocked(base::Bind(&base::DelegateSimpleThread::Join,
	base::Unretained(local_audio_thread.get())));
	}
	}
	}

	// static
	bool PPB_Audio_Shared::IsThreadFunctionReady() {
	if (!g_nacl_mode)
	return true;

	return (g_thread_functions.thread_create != NULL &&
	g_thread_functions.thread_join != NULL);
	}

	// static
	void PPB_Audio_Shared::SetNaClMode() {
	g_nacl_mode = true;
	}

	// static
	void PPB_Audio_Shared::SetThreadFunctions(
	const struct PP_ThreadFunctions* functions) {
	DCHECK(g_nacl_mode);
	g_thread_functions = *functions;
	}

	// static
	void PPB_Audio_Shared::CallRun(void* self) {
	PPB_Audio_Shared* audio = static_cast<PPB_Audio_Shared*>(self);
	audio->Run();
	}

	void PPB_Audio_Shared::Run() {
	int control_signal = 0;
	while (sizeof(control_signal) ==
	socket_->Receive(&control_signal, sizeof(control_signal))) {
	// \|buffer_index_\| must track the number of Receive() calls. See the Send()
	// call below for why this is important.
	++buffer_index_;
	if (control_signal < 0)
	break;

	{
	TRACE_EVENT0("audio", "PPB_Audio_Shared::FireRenderCallback");
	media::AudioOutputBuffer* buffer =
	reinterpret_cast<media::AudioOutputBuffer*>(shared_memory_->memory());
	base::TimeDelta delay =
	base::TimeDelta::FromMicroseconds(buffer->params.delay);

	callback_.Run(client_buffer_.get(), client_buffer_size_bytes_,
	delay.InSecondsF(), user_data_);
	}

	// Deinterleave the audio data into the shared memory as floats.
	audio_bus_->FromInterleaved(client_buffer_.get(),
	audio_bus_->frames(),
	kBitsPerAudioOutputSample / 8);

	// Let the other end know which buffer we just filled. The buffer index is
	// used to ensure the other end is getting the buffer it expects. For more
	// details on how this works see AudioSyncReader::WaitUntilDataIsReady().
	size_t bytes_sent = socket_->Send(&buffer_index_, sizeof(buffer_index_));
	if (bytes_sent != sizeof(buffer_index_))
	break;
	}
	}

	} // namespace ppapi