Implements AudioMessageFilter as member in RenderThread

content/renderer/media/audio_device.cc

 // Copyright (c) 2011 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 "content/renderer/media/audio_device.h"
 
 #include "base/memory/singleton.h"
 #include "base/message_loop.h"
 #include "content/common/audio_messages.h"
 #include "content/common/child_process.h"
 #include "content/common/view_messages.h"
 #include "content/renderer/render_thread.h"
 #include "media/audio/audio_util.h"
 
-scoped_refptr<AudioMessageFilter> AudioDevice::filter_;
-
-namespace {
-
-// AudioMessageFilterCreator is intended to be used as a singleton so we can
-// get access to a shared AudioMessageFilter.
-// Example usage:
-//   AudioMessageFilter* filter = AudioMessageFilterCreator::SharedFilter();
-
-class AudioMessageFilterCreator {
- public:
-  AudioMessageFilterCreator() {
-    int routing_id;
-    RenderThread::current()->Send(
-        new ViewHostMsg_GenerateRoutingID(&routing_id));
-    filter_ = new AudioMessageFilter(routing_id);
-    RenderThread::current()->AddFilter(filter_);
-  }
-
-  static AudioMessageFilter* SharedFilter() {
-    return GetInstance()->filter_.get();
-  }
-
-  static AudioMessageFilterCreator* GetInstance() {
-    return Singleton<AudioMessageFilterCreator>::get();
-  }
-
- private:
-  scoped_refptr<AudioMessageFilter> filter_;
-};
-
-}  // namespace
-
 AudioDevice::AudioDevice(size_t buffer_size,
                          int channels,
                          double sample_rate,
-                         RenderCallback* callback)
+                         RenderCallback* callback,
+                         AudioMessageFilter* filter)
     : buffer_size_(buffer_size),
       channels_(channels),
       bits_per_sample_(16),
       sample_rate_(sample_rate),
       callback_(callback),
       audio_delay_milliseconds_(0),
       volume_(1.0),
-      stream_id_(0) {
+      stream_id_(0),
+      filter_(filter),
+      io_loop_(filter->message_loop()) {
+  DCHECK(io_loop_);
   audio_data_.reserve(channels);
   for (int i = 0; i < channels; ++i) {
     float* channel_data = new float[buffer_size];
     audio_data_.push_back(channel_data);
   }
-  // Lazily create the message filter and share across AudioDevice instances.
-  filter_ = AudioMessageFilterCreator::SharedFilter();
 }
 
 AudioDevice::~AudioDevice() {
   // Make sure we have been shut down.
   DCHECK_EQ(0, stream_id_);
   Stop();
   for (int i = 0; i < channels_; ++i)
     delete [] audio_data_[i];
 }
 
 bool AudioDevice::Start() {
   // Make sure we don't call Start() more than once.
   DCHECK_EQ(0, stream_id_);
   if (stream_id_)
     return false;
 
   AudioParameters params;
   params.format = AudioParameters::AUDIO_PCM_LOW_LATENCY;
   params.channels = channels_;
   params.sample_rate = static_cast<int>(sample_rate_);
   params.bits_per_sample = bits_per_sample_;
   params.samples_per_packet = buffer_size_;
 
-  // Ensure that the initialization task is posted on the I/O thread by
-  // accessing the I/O message loop directly. This approach avoids a race
-  // condition which could exist if the message loop of the filter was
-  // used instead.
-  DCHECK(ChildProcess::current()) << "Must be in the renderer";
-  MessageLoop* message_loop = ChildProcess::current()->io_message_loop();
-  if (!message_loop)
-    return false;
-
-  message_loop->PostTask(FROM_HERE,
-      NewRunnableMethod(this, &AudioDevice::InitializeOnIOThread, params));
+  io_loop_->PostTask(FROM_HERE,
+      NewRunnableMethod(this, &AudioDevice::InitializeTask, params));
 
   return true;
 }
 
 bool AudioDevice::Stop() {
   if (!stream_id_)
     return false;
 
-  filter_->message_loop()->PostTask(FROM_HERE,
-      NewRunnableMethod(this, &AudioDevice::ShutDownOnIOThread));
+  io_loop_->PostTask(FROM_HERE,
+      NewRunnableMethod(this, &AudioDevice::ShutDownTask));
 
   if (audio_thread_.get()) {
     socket_->Close();
     audio_thread_->Join();
   }
 
   return true;
 }
 
 bool AudioDevice::SetVolume(double volume) {
   if (!stream_id_)
     return false;
 
   if (volume < 0 || volume > 1.0)
     return false;
 
-  filter_->message_loop()->PostTask(FROM_HERE,
-      NewRunnableMethod(this, &AudioDevice::SetVolumeOnIOThread, volume));
+  io_loop_->PostTask(FROM_HERE,
+      NewRunnableMethod(this, &AudioDevice::SetVolumeTask, volume));
 
   volume_ = volume;
 
   return true;
 }
 
 bool AudioDevice::GetVolume(double* volume) {
   if (!stream_id_)
     return false;
 
   // Return a locally cached version of the current scaling factor.
   *volume = volume_;
 
   return true;
 }
 
-void AudioDevice::InitializeOnIOThread(const AudioParameters& params) {
+void AudioDevice::InitializeTask(const AudioParameters& params) {
+  DCHECK(MessageLoop::current() == io_loop_);
   stream_id_ = filter_->AddDelegate(this);
   filter_->Send(new AudioHostMsg_CreateStream(0, stream_id_, params, true));
 }
 
-void AudioDevice::StartOnIOThread() {
+void AudioDevice::StartTask() {
+  DCHECK(MessageLoop::current() == io_loop_);
   if (stream_id_)
     filter_->Send(new AudioHostMsg_PlayStream(0, stream_id_));
 }
 
-void AudioDevice::ShutDownOnIOThread() {
+void AudioDevice::ShutDownTask() {
+  DCHECK(MessageLoop::current() == io_loop_);
   // Make sure we don't call shutdown more than once.
   if (!stream_id_)
     return;
 
+  filter_->RemoveDelegate(stream_id_);
   filter_->Send(new AudioHostMsg_CloseStream(0, stream_id_));
-  filter_->RemoveDelegate(stream_id_);
   stream_id_ = 0;
 }
 
-void AudioDevice::SetVolumeOnIOThread(double volume) {
+void AudioDevice::SetVolumeTask(double volume) {
+  DCHECK(MessageLoop::current() == io_loop_);
   if (stream_id_)
     filter_->Send(new AudioHostMsg_SetVolume(0, stream_id_, volume));
 }
 
 void AudioDevice::OnRequestPacket(AudioBuffersState buffers_state) {
   // This method does not apply to the low-latency system.
   NOTIMPLEMENTED();
 }
 
 void AudioDevice::OnStateChanged(AudioStreamState state) {
@@ skipping 30 matching lines @@
   socket_.reset(new base::SyncSocket(socket_handle));
   // Allow the client to pre-populate the buffer.
   FireRenderCallback();
 
   audio_thread_.reset(
       new base::DelegateSimpleThread(this, "renderer_audio_thread"));
   audio_thread_->Start();
 
   if (filter_) {
     filter_->message_loop()->PostTask(FROM_HERE,
-        NewRunnableMethod(this, &AudioDevice::StartOnIOThread));
+        NewRunnableMethod(this, &AudioDevice::StartTask));
   }
 }
 
 void AudioDevice::OnVolume(double volume) {
   NOTIMPLEMENTED();
 }
 
 // Our audio thread runs here.
 void AudioDevice::Run() {
     audio_thread_->SetThreadPriority(base::kThreadPriority_RealtimeAudio);
@@ skipping 18 matching lines @@
 void AudioDevice::FireRenderCallback() {
   if (callback_) {
     // Update the audio-delay measurement then ask client to render audio.
     callback_->Render(audio_data_, buffer_size_, audio_delay_milliseconds_);
 
     // Interleave, scale, and clip to int16.
     int16* output_buffer16 = static_cast<int16*>(shared_memory_data());
     media::InterleaveFloatToInt16(audio_data_, output_buffer16, buffer_size_);
   }
 }