media/audio/pulse/pulse_input.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/pulse/pulse_input.h"

 #include <pulse/pulseaudio.h>

 #include "base/logging.h"
 #include "media/audio/pulse/audio_manager_pulse.h"
 #include "media/audio/pulse/pulse_util.h"
 #include "media/base/seekable_buffer.h"

 namespace media {

 using pulse::AutoPulseLock;
 using pulse::WaitForOperationCompletion;

 PulseAudioInputStream::PulseAudioInputStream(AudioManagerPulse* audio_manager,
                                              const std::string& device_name,
                                              const AudioParameters& params,
                                              pa_threaded_mainloop* mainloop,
                                              pa_context* context)
     : audio_manager_(audio_manager),
       callback_(NULL),
       device_name_(device_name),
       params_(params),
       channels_(0),
       volume_(0.0),
       stream_started_(false),
       pa_mainloop_(mainloop),
       pa_context_(context),
       handle_(NULL),
       context_state_changed_(false) {
   DCHECK(mainloop);
   DCHECK(context);
 }

 PulseAudioInputStream::~PulseAudioInputStream() {
   // All internal structures should already have been freed in Close(),
   // which calls AudioManagerPulse::Release which deletes this object.
   DCHECK(!handle_);
 }

 bool PulseAudioInputStream::Open() {
   DCHECK(thread_checker_.CalledOnValidThread());
   AutoPulseLock auto_lock(pa_mainloop_);
   if (!pulse::CreateInputStream(pa_mainloop_, pa_context_, &handle_, params_,
                                 device_name_, &StreamNotifyCallback, this)) {
     return false;
   }

   DCHECK(handle_);

   buffer_.reset(new media::SeekableBuffer(0, 2 * params_.GetBytesPerBuffer()));
   audio_data_buffer_.reset(new uint8[params_.GetBytesPerBuffer()]);
   return true;
 }

 void PulseAudioInputStream::Start(AudioInputCallback* callback) {
   DCHECK(thread_checker_.CalledOnValidThread());
   DCHECK(callback);
   DCHECK(handle_);

   // AGC needs to be started out of the lock.
   StartAgc();

   AutoPulseLock auto_lock(pa_mainloop_);

   if (stream_started_)
     return;

   // Clean up the old buffer.
   pa_stream_drop(handle_);
   buffer_->Clear();

   // Start the streaming.
   callback_ = callback;
   pa_stream_set_read_callback(handle_, &ReadCallback, this);
   pa_stream_readable_size(handle_);
   stream_started_ = true;

   pa_operation* operation = pa_stream_cork(handle_, 0, NULL, NULL);
   WaitForOperationCompletion(pa_mainloop_, operation);
 }

 void PulseAudioInputStream::Stop() {
   DCHECK(thread_checker_.CalledOnValidThread());
   AutoPulseLock auto_lock(pa_mainloop_);
   if (!stream_started_)
     return;

   StopAgc();

   // Set the flag to false to stop filling new data to soundcard.
   stream_started_ = false;

   pa_operation* operation = pa_stream_flush(handle_,
                                             &pulse::StreamSuccessCallback,
                                             pa_mainloop_);
   WaitForOperationCompletion(pa_mainloop_, operation);

   // Stop the stream.
   pa_stream_set_read_callback(handle_, NULL, NULL);
   operation = pa_stream_cork(handle_, 1, &pulse::StreamSuccessCallback,
                              pa_mainloop_);
   WaitForOperationCompletion(pa_mainloop_, operation);
 }

 void PulseAudioInputStream::Close() {
   DCHECK(thread_checker_.CalledOnValidThread());
   {
     AutoPulseLock auto_lock(pa_mainloop_);
     if (handle_) {
       // Disable all the callbacks before disconnecting.
       pa_stream_set_state_callback(handle_, NULL, NULL);
       pa_stream_flush(handle_, NULL, NULL);

       if (pa_stream_get_state(handle_) != PA_STREAM_UNCONNECTED)
         pa_stream_disconnect(handle_);

       // Release PulseAudio structures.
       pa_stream_unref(handle_);
       handle_ = NULL;
     }
   }

   if (callback_)
     callback_->OnClose(this);

   // Signal to the manager that we're closed and can be removed.
   // This should be the last call in the function as it deletes "this".
   audio_manager_->ReleaseInputStream(this);
 }

 double PulseAudioInputStream::GetMaxVolume() {
   return static_cast<double>(PA_VOLUME_NORM);
 }

 void PulseAudioInputStream::SetVolume(double volume) {
   AutoPulseLock auto_lock(pa_mainloop_);
   if (!handle_)
     return;

   size_t index = pa_stream_get_device_index(handle_);
   pa_operation* operation = NULL;
   if (!channels_) {
     // Get the number of channels for the source only when the |channels_| is 0.
     // We are assuming the stream source is not changed on the fly here.
     operation = pa_context_get_source_info_by_index(
         pa_context_, index, &VolumeCallback, this);
     WaitForOperationCompletion(pa_mainloop_, operation);
     if (!channels_) {
       DLOG(WARNING) << "Failed to get the number of channels for the source";
       return;
     }
   }

   pa_cvolume pa_volume;
   pa_cvolume_set(&pa_volume, channels_, volume);
   operation = pa_context_set_source_volume_by_index(
       pa_context_, index, &pa_volume, NULL, NULL);

   // Don't need to wait for this task to complete.
   pa_operation_unref(operation);
 }

 double PulseAudioInputStream::GetVolume() {
   if (pa_threaded_mainloop_in_thread(pa_mainloop_)) {
     // When being called by the pulse thread, GetVolume() is asynchronous and
     // called under AutoPulseLock.
     if (!handle_)
       return 0.0;

     size_t index = pa_stream_get_device_index(handle_);
     pa_operation* operation = pa_context_get_source_info_by_index(
         pa_context_, index, &VolumeCallback, this);
     // Do not wait for the operation since we can't block the pulse thread.
     pa_operation_unref(operation);

     // Return zero and the callback will asynchronously update the |volume_|.
     return 0.0;
   } else {
     // Called by other thread, put an AutoPulseLock and wait for the operation.
     AutoPulseLock auto_lock(pa_mainloop_);
     if (!handle_)
       return 0.0;

     size_t index = pa_stream_get_device_index(handle_);
     pa_operation* operation = pa_context_get_source_info_by_index(
         pa_context_, index, &VolumeCallback, this);
     WaitForOperationCompletion(pa_mainloop_, operation);

     return volume_;
   }
 }

 // static, used by pa_stream_set_read_callback.
 void PulseAudioInputStream::ReadCallback(pa_stream* handle,
                                          size_t length,
                                          void* user_data) {
   PulseAudioInputStream* stream =
       reinterpret_cast<PulseAudioInputStream*>(user_data);

   stream->ReadData();
 }

 // static, used by pa_context_get_source_info_by_index.
 void PulseAudioInputStream::VolumeCallback(pa_context* context,
                                            const pa_source_info* info,
                                            int error, void* user_data) {
   PulseAudioInputStream* stream =
       reinterpret_cast<PulseAudioInputStream*>(user_data);

   if (error) {
     pa_threaded_mainloop_signal(stream->pa_mainloop_, 0);
     return;
   }

   if (stream->channels_ != info->channel_map.channels)
     stream->channels_ = info->channel_map.channels;

   pa_volume_t volume = PA_VOLUME_MUTED;  // Minimum possible value.
   // Use the max volume of any channel as the volume.
   for (int i = 0; i < stream->channels_; ++i) {
     if (volume < info->volume.values[i])
       volume = info->volume.values[i];
   }

   // It is safe to access |volume_| here since VolumeCallback() is running
   // under PulseLock.
   stream->volume_ = static_cast<double>(volume);
 }

 // static, used by pa_stream_set_state_callback.
 void PulseAudioInputStream::StreamNotifyCallback(pa_stream* s,
                                                  void* user_data) {
   PulseAudioInputStream* stream =
       reinterpret_cast<PulseAudioInputStream*>(user_data);
   if (s && stream->callback_ &&
       pa_stream_get_state(s) == PA_STREAM_FAILED) {
     stream->callback_->OnError(stream);
   }

   pa_threaded_mainloop_signal(stream->pa_mainloop_, 0);
 }

 void PulseAudioInputStream::ReadData() {
   uint32 hardware_delay = pulse::GetHardwareLatencyInBytes(
       handle_, params_.sample_rate(), params_.GetBytesPerFrame());

   // Update the AGC volume level once every second. Note that,
   // |volume| is also updated each time SetVolume() is called
   // through IPC by the render-side AGC.
   // We disregard the |normalized_volume| from GetAgcVolume()
   // and use the value calculated by |volume_|.
   double normalized_volume = 0.0;
   GetAgcVolume(&normalized_volume);
   normalized_volume = volume_ / GetMaxVolume();

   do {
     size_t length = 0;
     const void* data = NULL;
     pa_stream_peek(handle_, &data, &length);
     if (!data || length == 0)
       break;

     buffer_->Append(reinterpret_cast<const uint8*>(data), length);

     // Checks if we still have data.
     pa_stream_drop(handle_);
   } while (pa_stream_readable_size(handle_) > 0);

   int packet_size = params_.GetBytesPerBuffer();
   while (buffer_->forward_bytes() >= packet_size) {
     buffer_->Read(audio_data_buffer_.get(), packet_size);
     callback_->OnData(this, audio_data_buffer_.get(), packet_size,
                       hardware_delay, normalized_volume);

     if (buffer_->forward_bytes() < packet_size)
       break;

     // TODO(xians): Remove once PPAPI is using circular buffers.
     DVLOG(1) << "OnData is being called consecutively, sleep 5ms to "
              << "wait until render consumes the data";
     base::PlatformThread::Sleep(base::TimeDelta::FromMilliseconds(5));
   }

   pa_threaded_mainloop_signal(pa_mainloop_, 0);
 }

 }  // 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/pulse/pulse_input.h"

	#include <pulse/pulseaudio.h>

	#include "base/logging.h"
	#include "media/audio/pulse/audio_manager_pulse.h"
	#include "media/audio/pulse/pulse_util.h"
	#include "media/base/seekable_buffer.h"

	namespace media {

	using pulse::AutoPulseLock;
	using pulse::WaitForOperationCompletion;

	PulseAudioInputStream::PulseAudioInputStream(AudioManagerPulse* audio_manager,
	const std::string& device_name,
	const AudioParameters& params,
	pa_threaded_mainloop* mainloop,
	pa_context* context)
	: audio_manager_(audio_manager),
	callback_(NULL),
	device_name_(device_name),
	params_(params),
	channels_(0),
	volume_(0.0),
	stream_started_(false),
	pa_mainloop_(mainloop),
	pa_context_(context),
	handle_(NULL),
	context_state_changed_(false) {
	DCHECK(mainloop);
	DCHECK(context);
	}

	PulseAudioInputStream::~PulseAudioInputStream() {
	// All internal structures should already have been freed in Close(),
	// which calls AudioManagerPulse::Release which deletes this object.
	DCHECK(!handle_);
	}

	bool PulseAudioInputStream::Open() {
	DCHECK(thread_checker_.CalledOnValidThread());
	AutoPulseLock auto_lock(pa_mainloop_);
	if (!pulse::CreateInputStream(pa_mainloop_, pa_context_, &handle_, params_,
	device_name_, &StreamNotifyCallback, this)) {
	return false;
	}

	DCHECK(handle_);

	buffer_.reset(new media::SeekableBuffer(0, 2 * params_.GetBytesPerBuffer()));
	audio_data_buffer_.reset(new uint8[params_.GetBytesPerBuffer()]);
	return true;
	}

	void PulseAudioInputStream::Start(AudioInputCallback* callback) {
	DCHECK(thread_checker_.CalledOnValidThread());
	DCHECK(callback);
	DCHECK(handle_);

	// AGC needs to be started out of the lock.
	StartAgc();

	AutoPulseLock auto_lock(pa_mainloop_);

	if (stream_started_)
	return;

	// Clean up the old buffer.
	pa_stream_drop(handle_);
	buffer_->Clear();

	// Start the streaming.
	callback_ = callback;
	pa_stream_set_read_callback(handle_, &ReadCallback, this);
	pa_stream_readable_size(handle_);
	stream_started_ = true;

	pa_operation* operation = pa_stream_cork(handle_, 0, NULL, NULL);
	WaitForOperationCompletion(pa_mainloop_, operation);
	}

	void PulseAudioInputStream::Stop() {
	DCHECK(thread_checker_.CalledOnValidThread());
	AutoPulseLock auto_lock(pa_mainloop_);
	if (!stream_started_)
	return;

	StopAgc();

	// Set the flag to false to stop filling new data to soundcard.
	stream_started_ = false;

	pa_operation* operation = pa_stream_flush(handle_,
	&pulse::StreamSuccessCallback,
	pa_mainloop_);
	WaitForOperationCompletion(pa_mainloop_, operation);

	// Stop the stream.
	pa_stream_set_read_callback(handle_, NULL, NULL);
	operation = pa_stream_cork(handle_, 1, &pulse::StreamSuccessCallback,
	pa_mainloop_);
	WaitForOperationCompletion(pa_mainloop_, operation);
	}

	void PulseAudioInputStream::Close() {
	DCHECK(thread_checker_.CalledOnValidThread());
	{
	AutoPulseLock auto_lock(pa_mainloop_);
	if (handle_) {
	// Disable all the callbacks before disconnecting.
	pa_stream_set_state_callback(handle_, NULL, NULL);
	pa_stream_flush(handle_, NULL, NULL);

	if (pa_stream_get_state(handle_) != PA_STREAM_UNCONNECTED)
	pa_stream_disconnect(handle_);

	// Release PulseAudio structures.
	pa_stream_unref(handle_);
	handle_ = NULL;
	}
	}

	if (callback_)
	callback_->OnClose(this);

	// Signal to the manager that we're closed and can be removed.
	// This should be the last call in the function as it deletes "this".
	audio_manager_->ReleaseInputStream(this);
	}

	double PulseAudioInputStream::GetMaxVolume() {
	return static_cast<double>(PA_VOLUME_NORM);
	}

	void PulseAudioInputStream::SetVolume(double volume) {
	AutoPulseLock auto_lock(pa_mainloop_);
	if (!handle_)
	return;

	size_t index = pa_stream_get_device_index(handle_);
	pa_operation* operation = NULL;
	if (!channels_) {
	// Get the number of channels for the source only when the \|channels_\| is 0.
	// We are assuming the stream source is not changed on the fly here.
	operation = pa_context_get_source_info_by_index(
	pa_context_, index, &VolumeCallback, this);
	WaitForOperationCompletion(pa_mainloop_, operation);
	if (!channels_) {
	DLOG(WARNING) << "Failed to get the number of channels for the source";
	return;
	}
	}

	pa_cvolume pa_volume;
	pa_cvolume_set(&pa_volume, channels_, volume);
	operation = pa_context_set_source_volume_by_index(
	pa_context_, index, &pa_volume, NULL, NULL);

	// Don't need to wait for this task to complete.
	pa_operation_unref(operation);
	}

	double PulseAudioInputStream::GetVolume() {
	if (pa_threaded_mainloop_in_thread(pa_mainloop_)) {
	// When being called by the pulse thread, GetVolume() is asynchronous and
	// called under AutoPulseLock.
	if (!handle_)
	return 0.0;

	size_t index = pa_stream_get_device_index(handle_);
	pa_operation* operation = pa_context_get_source_info_by_index(
	pa_context_, index, &VolumeCallback, this);
	// Do not wait for the operation since we can't block the pulse thread.
	pa_operation_unref(operation);

	// Return zero and the callback will asynchronously update the \|volume_\|.
	return 0.0;
	} else {
	// Called by other thread, put an AutoPulseLock and wait for the operation.
	AutoPulseLock auto_lock(pa_mainloop_);
	if (!handle_)
	return 0.0;

	size_t index = pa_stream_get_device_index(handle_);
	pa_operation* operation = pa_context_get_source_info_by_index(
	pa_context_, index, &VolumeCallback, this);
	WaitForOperationCompletion(pa_mainloop_, operation);

	return volume_;
	}
	}

	// static, used by pa_stream_set_read_callback.
	void PulseAudioInputStream::ReadCallback(pa_stream* handle,
	size_t length,
	void* user_data) {
	PulseAudioInputStream* stream =
	reinterpret_cast<PulseAudioInputStream*>(user_data);

	stream->ReadData();
	}

	// static, used by pa_context_get_source_info_by_index.
	void PulseAudioInputStream::VolumeCallback(pa_context* context,
	const pa_source_info* info,
	int error, void* user_data) {
	PulseAudioInputStream* stream =
	reinterpret_cast<PulseAudioInputStream*>(user_data);

	if (error) {
	pa_threaded_mainloop_signal(stream->pa_mainloop_, 0);
	return;
	}

	if (stream->channels_ != info->channel_map.channels)
	stream->channels_ = info->channel_map.channels;

	pa_volume_t volume = PA_VOLUME_MUTED; // Minimum possible value.
	// Use the max volume of any channel as the volume.
	for (int i = 0; i < stream->channels_; ++i) {
	if (volume < info->volume.values[i])
	volume = info->volume.values[i];
	}

	// It is safe to access \|volume_\| here since VolumeCallback() is running
	// under PulseLock.
	stream->volume_ = static_cast<double>(volume);
	}

	// static, used by pa_stream_set_state_callback.
	void PulseAudioInputStream::StreamNotifyCallback(pa_stream* s,
	void* user_data) {
	PulseAudioInputStream* stream =
	reinterpret_cast<PulseAudioInputStream*>(user_data);
	if (s && stream->callback_ &&
	pa_stream_get_state(s) == PA_STREAM_FAILED) {
	stream->callback_->OnError(stream);
	}

	pa_threaded_mainloop_signal(stream->pa_mainloop_, 0);
	}

	void PulseAudioInputStream::ReadData() {
	uint32 hardware_delay = pulse::GetHardwareLatencyInBytes(
	handle_, params_.sample_rate(), params_.GetBytesPerFrame());

	// Update the AGC volume level once every second. Note that,
	// \|volume\| is also updated each time SetVolume() is called
	// through IPC by the render-side AGC.
	// We disregard the \|normalized_volume\| from GetAgcVolume()
	// and use the value calculated by \|volume_\|.
	double normalized_volume = 0.0;
	GetAgcVolume(&normalized_volume);
	normalized_volume = volume_ / GetMaxVolume();

	do {
	size_t length = 0;
	const void* data = NULL;
	pa_stream_peek(handle_, &data, &length);
	if (!data \|\| length == 0)
	break;

	buffer_->Append(reinterpret_cast<const uint8*>(data), length);

	// Checks if we still have data.
	pa_stream_drop(handle_);
	} while (pa_stream_readable_size(handle_) > 0);

	int packet_size = params_.GetBytesPerBuffer();
	while (buffer_->forward_bytes() >= packet_size) {
	buffer_->Read(audio_data_buffer_.get(), packet_size);
	callback_->OnData(this, audio_data_buffer_.get(), packet_size,
	hardware_delay, normalized_volume);

	if (buffer_->forward_bytes() < packet_size)
	break;

	// TODO(xians): Remove once PPAPI is using circular buffers.
	DVLOG(1) << "OnData is being called consecutively, sleep 5ms to "
	<< "wait until render consumes the data";
	base::PlatformThread::Sleep(base::TimeDelta::FromMilliseconds(5));
	}

	pa_threaded_mainloop_signal(pa_mainloop_, 0);
	}

	} // namespace media