ppapi/proxy/video_encoder_resource.cc - chromium/src - Git at Google

 // Copyright 2015 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/proxy/video_encoder_resource.h"

 #include <memory>
 #include <utility>

 #include "base/memory/shared_memory.h"
 #include "base/numerics/safe_conversions.h"
 #include "ppapi/c/pp_array_output.h"
 #include "ppapi/proxy/ppapi_messages.h"
 #include "ppapi/proxy/video_frame_resource.h"
 #include "ppapi/shared_impl/array_writer.h"
 #include "ppapi/shared_impl/media_stream_buffer.h"
 #include "ppapi/shared_impl/media_stream_buffer_manager.h"
 #include "ppapi/thunk/enter.h"

 using ppapi::proxy::SerializedHandle;
 using ppapi::thunk::EnterResourceNoLock;
 using ppapi::thunk::PPB_VideoEncoder_API;

 namespace ppapi {
 namespace proxy {

 namespace {

 std::vector<PP_VideoProfileDescription_0_1> PP_VideoProfileDescriptionTo_0_1(
     std::vector<PP_VideoProfileDescription> profiles) {
   std::vector<PP_VideoProfileDescription_0_1> profiles_0_1;

   for (uint32_t i = 0; i < profiles.size(); ++i) {
     const PP_VideoProfileDescription& profile = profiles[i];
     PP_VideoProfileDescription_0_1 profile_0_1;

     profile_0_1.profile = profile.profile;
     profile_0_1.max_resolution = profile.max_resolution;
     profile_0_1.max_framerate_numerator = profile.max_framerate_numerator;
     profile_0_1.max_framerate_denominator = profile.max_framerate_denominator;
     profile_0_1.acceleration = profile.hardware_accelerated == PP_TRUE
                                    ? PP_HARDWAREACCELERATION_ONLY
                                    : PP_HARDWAREACCELERATION_NONE;

     profiles_0_1.push_back(profile_0_1);
   }

   return profiles_0_1;
 }

 }  // namespace

 VideoEncoderResource::ShmBuffer::ShmBuffer(
     uint32_t id,
     std::unique_ptr<base::SharedMemory> shm)
     : id(id), shm(std::move(shm)) {}

 VideoEncoderResource::ShmBuffer::~ShmBuffer() {
 }

 VideoEncoderResource::BitstreamBuffer::BitstreamBuffer(uint32_t id,
                                                        uint32_t size,
                                                        bool key_frame)
     : id(id), size(size), key_frame(key_frame) {
 }

 VideoEncoderResource::BitstreamBuffer::~BitstreamBuffer() {
 }

 VideoEncoderResource::VideoEncoderResource(Connection connection,
                                            PP_Instance instance)
     : PluginResource(connection, instance),
       initialized_(false),
       closed_(false),
       // Set |encoder_last_error_| to PP_OK after successful initialization.
       // This makes error checking a little more concise, since we can check
       // that the encoder has been initialized and hasn't returned an error by
       // just testing |encoder_last_error_|.
       encoder_last_error_(PP_ERROR_FAILED),
       input_frame_count_(0),
       input_coded_size_(PP_MakeSize(0, 0)),
       buffer_manager_(this),
       get_video_frame_data_(nullptr),
       get_bitstream_buffer_data_(nullptr) {
   SendCreate(RENDERER, PpapiHostMsg_VideoEncoder_Create());
 }

 VideoEncoderResource::~VideoEncoderResource() {
   Close();
 }

 PPB_VideoEncoder_API* VideoEncoderResource::AsPPB_VideoEncoder_API() {
   return this;
 }

 int32_t VideoEncoderResource::GetSupportedProfiles(
     const PP_ArrayOutput& output,
     const scoped_refptr<TrackedCallback>& callback) {
   if (TrackedCallback::IsPending(get_supported_profiles_callback_))
     return PP_ERROR_INPROGRESS;

   get_supported_profiles_callback_ = callback;
   Call<PpapiPluginMsg_VideoEncoder_GetSupportedProfilesReply>(
       RENDERER, PpapiHostMsg_VideoEncoder_GetSupportedProfiles(),
       base::Bind(&VideoEncoderResource::OnPluginMsgGetSupportedProfilesReply,
                  this, output, false));
   return PP_OK_COMPLETIONPENDING;
 }

 int32_t VideoEncoderResource::GetSupportedProfiles0_1(
     const PP_ArrayOutput& output,
     const scoped_refptr<TrackedCallback>& callback) {
   if (TrackedCallback::IsPending(get_supported_profiles_callback_))
     return PP_ERROR_INPROGRESS;

   get_supported_profiles_callback_ = callback;
   Call<PpapiPluginMsg_VideoEncoder_GetSupportedProfilesReply>(
       RENDERER, PpapiHostMsg_VideoEncoder_GetSupportedProfiles(),
       base::Bind(&VideoEncoderResource::OnPluginMsgGetSupportedProfilesReply,
                  this, output, true));
   return PP_OK_COMPLETIONPENDING;
 }

 int32_t VideoEncoderResource::GetFramesRequired() {
   if (encoder_last_error_)
     return encoder_last_error_;
   return input_frame_count_;
 }

 int32_t VideoEncoderResource::GetFrameCodedSize(PP_Size* size) {
   if (encoder_last_error_)
     return encoder_last_error_;
   *size = input_coded_size_;
   return PP_OK;
 }

 int32_t VideoEncoderResource::Initialize(
     PP_VideoFrame_Format input_format,
     const PP_Size* input_visible_size,
     PP_VideoProfile output_profile,
     uint32_t initial_bitrate,
     PP_HardwareAcceleration acceleration,
     const scoped_refptr<TrackedCallback>& callback) {
   if (initialized_)
     return PP_ERROR_FAILED;
   if (TrackedCallback::IsPending(initialize_callback_))
     return PP_ERROR_INPROGRESS;

   initialize_callback_ = callback;
   Call<PpapiPluginMsg_VideoEncoder_InitializeReply>(
       RENDERER, PpapiHostMsg_VideoEncoder_Initialize(
                     input_format, *input_visible_size, output_profile,
                     initial_bitrate, acceleration),
       base::Bind(&VideoEncoderResource::OnPluginMsgInitializeReply, this));
   return PP_OK_COMPLETIONPENDING;
 }

 int32_t VideoEncoderResource::GetVideoFrame(
     PP_Resource* video_frame,
     const scoped_refptr<TrackedCallback>& callback) {
   if (encoder_last_error_)
     return encoder_last_error_;

   if (TrackedCallback::IsPending(get_video_frame_callback_))
     return PP_ERROR_INPROGRESS;

   get_video_frame_data_ = video_frame;
   get_video_frame_callback_ = callback;

   // Lazily ask for a shared memory buffer in which video frames are allocated.
   if (buffer_manager_.number_of_buffers() == 0) {
     Call<PpapiPluginMsg_VideoEncoder_GetVideoFramesReply>(
         RENDERER, PpapiHostMsg_VideoEncoder_GetVideoFrames(),
         base::Bind(&VideoEncoderResource::OnPluginMsgGetVideoFramesReply,
                    this));
   } else {
     TryWriteVideoFrame();
   }

   return PP_OK_COMPLETIONPENDING;
 }

 int32_t VideoEncoderResource::Encode(
     PP_Resource video_frame,
     PP_Bool force_keyframe,
     const scoped_refptr<TrackedCallback>& callback) {
   if (encoder_last_error_)
     return encoder_last_error_;

   VideoFrameMap::iterator it = video_frames_.find(video_frame);
   if (it == video_frames_.end())
     // TODO(llandwerlin): accept MediaStreamVideoTrack's video frames.
     return PP_ERROR_BADRESOURCE;

   scoped_refptr<VideoFrameResource> frame_resource = it->second;

   encode_callbacks_.insert(std::make_pair(video_frame, callback));

   Call<PpapiPluginMsg_VideoEncoder_EncodeReply>(
       RENDERER,
       PpapiHostMsg_VideoEncoder_Encode(frame_resource->GetBufferIndex(),
                                        PP_ToBool(force_keyframe)),
       base::Bind(&VideoEncoderResource::OnPluginMsgEncodeReply, this,
                  video_frame));

   // Invalidate the frame to prevent the plugin from modifying it.
   it->second->Invalidate();
   video_frames_.erase(it);

   return PP_OK_COMPLETIONPENDING;
 }

 int32_t VideoEncoderResource::GetBitstreamBuffer(
     PP_BitstreamBuffer* bitstream_buffer,
     const scoped_refptr<TrackedCallback>& callback) {
   if (encoder_last_error_)
     return encoder_last_error_;
   if (TrackedCallback::IsPending(get_bitstream_buffer_callback_))
     return PP_ERROR_INPROGRESS;

   get_bitstream_buffer_callback_ = callback;
   get_bitstream_buffer_data_ = bitstream_buffer;

   if (!available_bitstream_buffers_.empty()) {
     BitstreamBuffer buffer(available_bitstream_buffers_.front());
     available_bitstream_buffers_.pop_front();
     WriteBitstreamBuffer(buffer);
   }

   return PP_OK_COMPLETIONPENDING;
 }

 void VideoEncoderResource::RecycleBitstreamBuffer(
     const PP_BitstreamBuffer* bitstream_buffer) {
   if (encoder_last_error_)
     return;
   BitstreamBufferMap::const_iterator iter =
       bitstream_buffer_map_.find(bitstream_buffer->buffer);
   if (iter != bitstream_buffer_map_.end()) {
     Post(RENDERER,
          PpapiHostMsg_VideoEncoder_RecycleBitstreamBuffer(iter->second));
   }
 }

 void VideoEncoderResource::RequestEncodingParametersChange(uint32_t bitrate,
                                                            uint32_t framerate) {
   if (encoder_last_error_)
     return;
   Post(RENDERER, PpapiHostMsg_VideoEncoder_RequestEncodingParametersChange(
                      bitrate, framerate));
 }

 void VideoEncoderResource::Close() {
   if (closed_)
     return;
   Post(RENDERER, PpapiHostMsg_VideoEncoder_Close());
   closed_ = true;
   if (!encoder_last_error_ || !initialized_)
     NotifyError(PP_ERROR_ABORTED);
   ReleaseFrames();
 }

 void VideoEncoderResource::OnReplyReceived(
     const ResourceMessageReplyParams& params,
     const IPC::Message& msg) {
   PPAPI_BEGIN_MESSAGE_MAP(VideoEncoderResource, msg)
     PPAPI_DISPATCH_PLUGIN_RESOURCE_CALL(
         PpapiPluginMsg_VideoEncoder_BitstreamBuffers,
         OnPluginMsgBitstreamBuffers)
     PPAPI_DISPATCH_PLUGIN_RESOURCE_CALL(
         PpapiPluginMsg_VideoEncoder_BitstreamBufferReady,
         OnPluginMsgBitstreamBufferReady)
     PPAPI_DISPATCH_PLUGIN_RESOURCE_CALL(PpapiPluginMsg_VideoEncoder_NotifyError,
                                         OnPluginMsgNotifyError)
     PPAPI_DISPATCH_PLUGIN_RESOURCE_CALL_UNHANDLED(
         PluginResource::OnReplyReceived(params, msg))
   PPAPI_END_MESSAGE_MAP()
 }

 void VideoEncoderResource::OnPluginMsgGetSupportedProfilesReply(
     const PP_ArrayOutput& output,
     bool version0_1,
     const ResourceMessageReplyParams& params,
     const std::vector<PP_VideoProfileDescription>& profiles) {
   int32_t error = params.result();
   if (error) {
     NotifyError(error);
     return;
   }

   ArrayWriter writer(output);
   if (!writer.is_valid()) {
     SafeRunCallback(&get_supported_profiles_callback_, PP_ERROR_BADARGUMENT);
     return;
   }

   bool write_result;
   if (version0_1)
     write_result =
         writer.StoreVector(PP_VideoProfileDescriptionTo_0_1(profiles));
   else
     write_result = writer.StoreVector(profiles);

   if (!write_result) {
     SafeRunCallback(&get_supported_profiles_callback_, PP_ERROR_FAILED);
     return;
   }

   SafeRunCallback(&get_supported_profiles_callback_,
                   base::checked_cast<int32_t>(profiles.size()));
 }

 void VideoEncoderResource::OnPluginMsgInitializeReply(
     const ResourceMessageReplyParams& params,
     uint32_t input_frame_count,
     const PP_Size& input_coded_size) {
   DCHECK(!initialized_);

   encoder_last_error_ = params.result();
   if (!encoder_last_error_)
     initialized_ = true;

   input_frame_count_ = input_frame_count;
   input_coded_size_ = input_coded_size;

   SafeRunCallback(&initialize_callback_, encoder_last_error_);
 }

 void VideoEncoderResource::OnPluginMsgGetVideoFramesReply(
     const ResourceMessageReplyParams& params,
     uint32_t frame_count,
     uint32_t frame_length,
     const PP_Size& frame_size) {
   int32_t error = params.result();
   if (error) {
     NotifyError(error);
     return;
   }

   base::SharedMemoryHandle buffer_handle;
   params.TakeSharedMemoryHandleAtIndex(0, &buffer_handle);

   if (!buffer_manager_.SetBuffers(
           frame_count, frame_length,
           std::make_unique<base::SharedMemory>(buffer_handle, false), true)) {
     NotifyError(PP_ERROR_FAILED);
     return;
   }

   if (TrackedCallback::IsPending(get_video_frame_callback_))
     TryWriteVideoFrame();
 }

 void VideoEncoderResource::OnPluginMsgEncodeReply(
     PP_Resource video_frame,
     const ResourceMessageReplyParams& params,
     uint32_t frame_id) {
   // We need to ensure there are still callbacks to be called before
   // processing this message. We might receive a EncodeReply message
   // after having sent a Close message to the renderer. In this case,
   // we don't have any callback left to call.
   if (encode_callbacks_.empty())
     return;
   encoder_last_error_ = params.result();

   EncodeMap::iterator it = encode_callbacks_.find(video_frame);
   DCHECK(encode_callbacks_.end() != it);

   scoped_refptr<TrackedCallback> callback = it->second;
   encode_callbacks_.erase(it);
   SafeRunCallback(&callback, encoder_last_error_);

   buffer_manager_.EnqueueBuffer(frame_id);
   // If the plugin is waiting for a video frame, we can give the one
   // that just became available again.
   if (TrackedCallback::IsPending(get_video_frame_callback_))
     TryWriteVideoFrame();
 }

 void VideoEncoderResource::OnPluginMsgBitstreamBuffers(
     const ResourceMessageReplyParams& params,
     uint32_t buffer_length) {
   std::vector<base::SharedMemoryHandle> shm_handles;
   params.TakeAllSharedMemoryHandles(&shm_handles);
   if (shm_handles.size() == 0) {
     NotifyError(PP_ERROR_FAILED);
     return;
   }

   for (uint32_t i = 0; i < shm_handles.size(); ++i) {
     std::unique_ptr<base::SharedMemory> shm(
         new base::SharedMemory(shm_handles[i], true));
     CHECK(shm->Map(buffer_length));

     auto buffer = std::make_unique<ShmBuffer>(i, std::move(shm));
     bitstream_buffer_map_.insert(
         std::make_pair(buffer->shm->memory(), buffer->id));
     shm_buffers_.push_back(std::move(buffer));
   }
 }

 void VideoEncoderResource::OnPluginMsgBitstreamBufferReady(
     const ResourceMessageReplyParams& params,
     uint32_t buffer_id,
     uint32_t buffer_size,
     bool key_frame) {
   available_bitstream_buffers_.push_back(
       BitstreamBuffer(buffer_id, buffer_size, key_frame));

   if (TrackedCallback::IsPending(get_bitstream_buffer_callback_)) {
     BitstreamBuffer buffer(available_bitstream_buffers_.front());
     available_bitstream_buffers_.pop_front();
     WriteBitstreamBuffer(buffer);
   }
 }

 void VideoEncoderResource::OnPluginMsgNotifyError(
     const ResourceMessageReplyParams& params,
     int32_t error) {
   NotifyError(error);
 }

 void VideoEncoderResource::NotifyError(int32_t error) {
   encoder_last_error_ = error;
   SafeRunCallback(&get_supported_profiles_callback_, error);
   SafeRunCallback(&initialize_callback_, error);
   SafeRunCallback(&get_video_frame_callback_, error);
   get_video_frame_data_ = nullptr;
   SafeRunCallback(&get_bitstream_buffer_callback_, error);
   get_bitstream_buffer_data_ = nullptr;
   for (EncodeMap::iterator it = encode_callbacks_.begin();
        it != encode_callbacks_.end(); ++it) {
     scoped_refptr<TrackedCallback> callback = it->second;
     SafeRunCallback(&callback, error);
   }
   encode_callbacks_.clear();
 }

 void VideoEncoderResource::TryWriteVideoFrame() {
   DCHECK(TrackedCallback::IsPending(get_video_frame_callback_));

   int32_t frame_id = buffer_manager_.DequeueBuffer();
   if (frame_id < 0)
     return;

   scoped_refptr<VideoFrameResource> resource = new VideoFrameResource(
       pp_instance(), frame_id, buffer_manager_.GetBufferPointer(frame_id));
   video_frames_.insert(
       VideoFrameMap::value_type(resource->pp_resource(), resource));

   *get_video_frame_data_ = resource->GetReference();
   get_video_frame_data_ = nullptr;
   SafeRunCallback(&get_video_frame_callback_, PP_OK);
 }

 void VideoEncoderResource::WriteBitstreamBuffer(const BitstreamBuffer& buffer) {
   DCHECK_LT(buffer.id, shm_buffers_.size());

   get_bitstream_buffer_data_->size = buffer.size;
   get_bitstream_buffer_data_->buffer = shm_buffers_[buffer.id]->shm->memory();
   get_bitstream_buffer_data_->key_frame = PP_FromBool(buffer.key_frame);
   get_bitstream_buffer_data_ = nullptr;
   SafeRunCallback(&get_bitstream_buffer_callback_, PP_OK);
 }

 void VideoEncoderResource::ReleaseFrames() {
   for (VideoFrameMap::iterator it = video_frames_.begin();
        it != video_frames_.end(); ++it) {
     it->second->Invalidate();
     it->second = nullptr;
   }
   video_frames_.clear();
 }

 }  // namespace proxy
 }  // namespace ppapi
	// Copyright 2015 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/proxy/video_encoder_resource.h"

	#include <memory>
	#include <utility>

	#include "base/memory/shared_memory.h"
	#include "base/numerics/safe_conversions.h"
	#include "ppapi/c/pp_array_output.h"
	#include "ppapi/proxy/ppapi_messages.h"
	#include "ppapi/proxy/video_frame_resource.h"
	#include "ppapi/shared_impl/array_writer.h"
	#include "ppapi/shared_impl/media_stream_buffer.h"
	#include "ppapi/shared_impl/media_stream_buffer_manager.h"
	#include "ppapi/thunk/enter.h"

	using ppapi::proxy::SerializedHandle;
	using ppapi::thunk::EnterResourceNoLock;
	using ppapi::thunk::PPB_VideoEncoder_API;

	namespace ppapi {
	namespace proxy {

	namespace {

	std::vector<PP_VideoProfileDescription_0_1> PP_VideoProfileDescriptionTo_0_1(
	std::vector<PP_VideoProfileDescription> profiles) {
	std::vector<PP_VideoProfileDescription_0_1> profiles_0_1;

	for (uint32_t i = 0; i < profiles.size(); ++i) {
	const PP_VideoProfileDescription& profile = profiles[i];
	PP_VideoProfileDescription_0_1 profile_0_1;

	profile_0_1.profile = profile.profile;
	profile_0_1.max_resolution = profile.max_resolution;
	profile_0_1.max_framerate_numerator = profile.max_framerate_numerator;
	profile_0_1.max_framerate_denominator = profile.max_framerate_denominator;
	profile_0_1.acceleration = profile.hardware_accelerated == PP_TRUE
	? PP_HARDWAREACCELERATION_ONLY
	: PP_HARDWAREACCELERATION_NONE;

	profiles_0_1.push_back(profile_0_1);
	}

	return profiles_0_1;
	}

	} // namespace

	VideoEncoderResource::ShmBuffer::ShmBuffer(
	uint32_t id,
	std::unique_ptr<base::SharedMemory> shm)
	: id(id), shm(std::move(shm)) {}

	VideoEncoderResource::ShmBuffer::~ShmBuffer() {
	}

	VideoEncoderResource::BitstreamBuffer::BitstreamBuffer(uint32_t id,
	uint32_t size,
	bool key_frame)
	: id(id), size(size), key_frame(key_frame) {
	}

	VideoEncoderResource::BitstreamBuffer::~BitstreamBuffer() {
	}

	VideoEncoderResource::VideoEncoderResource(Connection connection,
	PP_Instance instance)
	: PluginResource(connection, instance),
	initialized_(false),
	closed_(false),
	// Set \|encoder_last_error_\| to PP_OK after successful initialization.
	// This makes error checking a little more concise, since we can check
	// that the encoder has been initialized and hasn't returned an error by
	// just testing \|encoder_last_error_\|.
	encoder_last_error_(PP_ERROR_FAILED),
	input_frame_count_(0),
	input_coded_size_(PP_MakeSize(0, 0)),
	buffer_manager_(this),
	get_video_frame_data_(nullptr),
	get_bitstream_buffer_data_(nullptr) {
	SendCreate(RENDERER, PpapiHostMsg_VideoEncoder_Create());
	}

	VideoEncoderResource::~VideoEncoderResource() {
	Close();
	}

	PPB_VideoEncoder_API* VideoEncoderResource::AsPPB_VideoEncoder_API() {
	return this;
	}

	int32_t VideoEncoderResource::GetSupportedProfiles(
	const PP_ArrayOutput& output,
	const scoped_refptr<TrackedCallback>& callback) {
	if (TrackedCallback::IsPending(get_supported_profiles_callback_))
	return PP_ERROR_INPROGRESS;

	get_supported_profiles_callback_ = callback;
	Call<PpapiPluginMsg_VideoEncoder_GetSupportedProfilesReply>(
	RENDERER, PpapiHostMsg_VideoEncoder_GetSupportedProfiles(),
	base::Bind(&VideoEncoderResource::OnPluginMsgGetSupportedProfilesReply,
	this, output, false));
	return PP_OK_COMPLETIONPENDING;
	}

	int32_t VideoEncoderResource::GetSupportedProfiles0_1(
	const PP_ArrayOutput& output,
	const scoped_refptr<TrackedCallback>& callback) {
	if (TrackedCallback::IsPending(get_supported_profiles_callback_))
	return PP_ERROR_INPROGRESS;

	get_supported_profiles_callback_ = callback;
	Call<PpapiPluginMsg_VideoEncoder_GetSupportedProfilesReply>(
	RENDERER, PpapiHostMsg_VideoEncoder_GetSupportedProfiles(),
	base::Bind(&VideoEncoderResource::OnPluginMsgGetSupportedProfilesReply,
	this, output, true));
	return PP_OK_COMPLETIONPENDING;
	}

	int32_t VideoEncoderResource::GetFramesRequired() {
	if (encoder_last_error_)
	return encoder_last_error_;
	return input_frame_count_;
	}

	int32_t VideoEncoderResource::GetFrameCodedSize(PP_Size* size) {
	if (encoder_last_error_)
	return encoder_last_error_;
	*size = input_coded_size_;
	return PP_OK;
	}

	int32_t VideoEncoderResource::Initialize(
	PP_VideoFrame_Format input_format,
	const PP_Size* input_visible_size,
	PP_VideoProfile output_profile,
	uint32_t initial_bitrate,
	PP_HardwareAcceleration acceleration,
	const scoped_refptr<TrackedCallback>& callback) {
	if (initialized_)
	return PP_ERROR_FAILED;
	if (TrackedCallback::IsPending(initialize_callback_))
	return PP_ERROR_INPROGRESS;

	initialize_callback_ = callback;
	Call<PpapiPluginMsg_VideoEncoder_InitializeReply>(
	RENDERER, PpapiHostMsg_VideoEncoder_Initialize(
	input_format, *input_visible_size, output_profile,
	initial_bitrate, acceleration),
	base::Bind(&VideoEncoderResource::OnPluginMsgInitializeReply, this));
	return PP_OK_COMPLETIONPENDING;
	}

	int32_t VideoEncoderResource::GetVideoFrame(
	PP_Resource* video_frame,
	const scoped_refptr<TrackedCallback>& callback) {
	if (encoder_last_error_)
	return encoder_last_error_;

	if (TrackedCallback::IsPending(get_video_frame_callback_))
	return PP_ERROR_INPROGRESS;

	get_video_frame_data_ = video_frame;
	get_video_frame_callback_ = callback;

	// Lazily ask for a shared memory buffer in which video frames are allocated.
	if (buffer_manager_.number_of_buffers() == 0) {
	Call<PpapiPluginMsg_VideoEncoder_GetVideoFramesReply>(
	RENDERER, PpapiHostMsg_VideoEncoder_GetVideoFrames(),
	base::Bind(&VideoEncoderResource::OnPluginMsgGetVideoFramesReply,
	this));
	} else {
	TryWriteVideoFrame();
	}

	return PP_OK_COMPLETIONPENDING;
	}

	int32_t VideoEncoderResource::Encode(
	PP_Resource video_frame,
	PP_Bool force_keyframe,
	const scoped_refptr<TrackedCallback>& callback) {
	if (encoder_last_error_)
	return encoder_last_error_;

	VideoFrameMap::iterator it = video_frames_.find(video_frame);
	if (it == video_frames_.end())
	// TODO(llandwerlin): accept MediaStreamVideoTrack's video frames.
	return PP_ERROR_BADRESOURCE;

	scoped_refptr<VideoFrameResource> frame_resource = it->second;

	encode_callbacks_.insert(std::make_pair(video_frame, callback));

	Call<PpapiPluginMsg_VideoEncoder_EncodeReply>(
	RENDERER,
	PpapiHostMsg_VideoEncoder_Encode(frame_resource->GetBufferIndex(),
	PP_ToBool(force_keyframe)),
	base::Bind(&VideoEncoderResource::OnPluginMsgEncodeReply, this,
	video_frame));

	// Invalidate the frame to prevent the plugin from modifying it.
	it->second->Invalidate();
	video_frames_.erase(it);

	return PP_OK_COMPLETIONPENDING;
	}

	int32_t VideoEncoderResource::GetBitstreamBuffer(
	PP_BitstreamBuffer* bitstream_buffer,
	const scoped_refptr<TrackedCallback>& callback) {
	if (encoder_last_error_)
	return encoder_last_error_;
	if (TrackedCallback::IsPending(get_bitstream_buffer_callback_))
	return PP_ERROR_INPROGRESS;

	get_bitstream_buffer_callback_ = callback;
	get_bitstream_buffer_data_ = bitstream_buffer;

	if (!available_bitstream_buffers_.empty()) {
	BitstreamBuffer buffer(available_bitstream_buffers_.front());
	available_bitstream_buffers_.pop_front();
	WriteBitstreamBuffer(buffer);
	}

	return PP_OK_COMPLETIONPENDING;
	}

	void VideoEncoderResource::RecycleBitstreamBuffer(
	const PP_BitstreamBuffer* bitstream_buffer) {
	if (encoder_last_error_)
	return;
	BitstreamBufferMap::const_iterator iter =
	bitstream_buffer_map_.find(bitstream_buffer->buffer);
	if (iter != bitstream_buffer_map_.end()) {
	Post(RENDERER,
	PpapiHostMsg_VideoEncoder_RecycleBitstreamBuffer(iter->second));
	}
	}

	void VideoEncoderResource::RequestEncodingParametersChange(uint32_t bitrate,
	uint32_t framerate) {
	if (encoder_last_error_)
	return;
	Post(RENDERER, PpapiHostMsg_VideoEncoder_RequestEncodingParametersChange(
	bitrate, framerate));
	}

	void VideoEncoderResource::Close() {
	if (closed_)
	return;
	Post(RENDERER, PpapiHostMsg_VideoEncoder_Close());
	closed_ = true;
	if (!encoder_last_error_ \|\| !initialized_)
	NotifyError(PP_ERROR_ABORTED);
	ReleaseFrames();
	}

	void VideoEncoderResource::OnReplyReceived(
	const ResourceMessageReplyParams& params,
	const IPC::Message& msg) {
	PPAPI_BEGIN_MESSAGE_MAP(VideoEncoderResource, msg)
	PPAPI_DISPATCH_PLUGIN_RESOURCE_CALL(
	PpapiPluginMsg_VideoEncoder_BitstreamBuffers,
	OnPluginMsgBitstreamBuffers)
	PPAPI_DISPATCH_PLUGIN_RESOURCE_CALL(
	PpapiPluginMsg_VideoEncoder_BitstreamBufferReady,
	OnPluginMsgBitstreamBufferReady)
	PPAPI_DISPATCH_PLUGIN_RESOURCE_CALL(PpapiPluginMsg_VideoEncoder_NotifyError,
	OnPluginMsgNotifyError)
	PPAPI_DISPATCH_PLUGIN_RESOURCE_CALL_UNHANDLED(
	PluginResource::OnReplyReceived(params, msg))
	PPAPI_END_MESSAGE_MAP()
	}

	void VideoEncoderResource::OnPluginMsgGetSupportedProfilesReply(
	const PP_ArrayOutput& output,
	bool version0_1,
	const ResourceMessageReplyParams& params,
	const std::vector<PP_VideoProfileDescription>& profiles) {
	int32_t error = params.result();
	if (error) {
	NotifyError(error);
	return;
	}

	ArrayWriter writer(output);
	if (!writer.is_valid()) {
	SafeRunCallback(&get_supported_profiles_callback_, PP_ERROR_BADARGUMENT);
	return;
	}

	bool write_result;
	if (version0_1)
	write_result =
	writer.StoreVector(PP_VideoProfileDescriptionTo_0_1(profiles));
	else
	write_result = writer.StoreVector(profiles);

	if (!write_result) {
	SafeRunCallback(&get_supported_profiles_callback_, PP_ERROR_FAILED);
	return;
	}

	SafeRunCallback(&get_supported_profiles_callback_,
	base::checked_cast<int32_t>(profiles.size()));
	}

	void VideoEncoderResource::OnPluginMsgInitializeReply(
	const ResourceMessageReplyParams& params,
	uint32_t input_frame_count,
	const PP_Size& input_coded_size) {
	DCHECK(!initialized_);

	encoder_last_error_ = params.result();
	if (!encoder_last_error_)
	initialized_ = true;

	input_frame_count_ = input_frame_count;
	input_coded_size_ = input_coded_size;

	SafeRunCallback(&initialize_callback_, encoder_last_error_);
	}

	void VideoEncoderResource::OnPluginMsgGetVideoFramesReply(
	const ResourceMessageReplyParams& params,
	uint32_t frame_count,
	uint32_t frame_length,
	const PP_Size& frame_size) {
	int32_t error = params.result();
	if (error) {
	NotifyError(error);
	return;
	}

	base::SharedMemoryHandle buffer_handle;
	params.TakeSharedMemoryHandleAtIndex(0, &buffer_handle);

	if (!buffer_manager_.SetBuffers(
	frame_count, frame_length,
	std::make_unique<base::SharedMemory>(buffer_handle, false), true)) {
	NotifyError(PP_ERROR_FAILED);
	return;
	}

	if (TrackedCallback::IsPending(get_video_frame_callback_))
	TryWriteVideoFrame();
	}

	void VideoEncoderResource::OnPluginMsgEncodeReply(
	PP_Resource video_frame,
	const ResourceMessageReplyParams& params,
	uint32_t frame_id) {
	// We need to ensure there are still callbacks to be called before
	// processing this message. We might receive a EncodeReply message
	// after having sent a Close message to the renderer. In this case,
	// we don't have any callback left to call.
	if (encode_callbacks_.empty())
	return;
	encoder_last_error_ = params.result();

	EncodeMap::iterator it = encode_callbacks_.find(video_frame);
	DCHECK(encode_callbacks_.end() != it);

	scoped_refptr<TrackedCallback> callback = it->second;
	encode_callbacks_.erase(it);
	SafeRunCallback(&callback, encoder_last_error_);

	buffer_manager_.EnqueueBuffer(frame_id);
	// If the plugin is waiting for a video frame, we can give the one
	// that just became available again.
	if (TrackedCallback::IsPending(get_video_frame_callback_))
	TryWriteVideoFrame();
	}

	void VideoEncoderResource::OnPluginMsgBitstreamBuffers(
	const ResourceMessageReplyParams& params,
	uint32_t buffer_length) {
	std::vector<base::SharedMemoryHandle> shm_handles;
	params.TakeAllSharedMemoryHandles(&shm_handles);
	if (shm_handles.size() == 0) {
	NotifyError(PP_ERROR_FAILED);
	return;
	}

	for (uint32_t i = 0; i < shm_handles.size(); ++i) {
	std::unique_ptr<base::SharedMemory> shm(
	new base::SharedMemory(shm_handles[i], true));
	CHECK(shm->Map(buffer_length));

	auto buffer = std::make_unique<ShmBuffer>(i, std::move(shm));
	bitstream_buffer_map_.insert(
	std::make_pair(buffer->shm->memory(), buffer->id));
	shm_buffers_.push_back(std::move(buffer));
	}
	}

	void VideoEncoderResource::OnPluginMsgBitstreamBufferReady(
	const ResourceMessageReplyParams& params,
	uint32_t buffer_id,
	uint32_t buffer_size,
	bool key_frame) {
	available_bitstream_buffers_.push_back(
	BitstreamBuffer(buffer_id, buffer_size, key_frame));

	if (TrackedCallback::IsPending(get_bitstream_buffer_callback_)) {
	BitstreamBuffer buffer(available_bitstream_buffers_.front());
	available_bitstream_buffers_.pop_front();
	WriteBitstreamBuffer(buffer);
	}
	}

	void VideoEncoderResource::OnPluginMsgNotifyError(
	const ResourceMessageReplyParams& params,
	int32_t error) {
	NotifyError(error);
	}

	void VideoEncoderResource::NotifyError(int32_t error) {
	encoder_last_error_ = error;
	SafeRunCallback(&get_supported_profiles_callback_, error);
	SafeRunCallback(&initialize_callback_, error);
	SafeRunCallback(&get_video_frame_callback_, error);
	get_video_frame_data_ = nullptr;
	SafeRunCallback(&get_bitstream_buffer_callback_, error);
	get_bitstream_buffer_data_ = nullptr;
	for (EncodeMap::iterator it = encode_callbacks_.begin();
	it != encode_callbacks_.end(); ++it) {
	scoped_refptr<TrackedCallback> callback = it->second;
	SafeRunCallback(&callback, error);
	}
	encode_callbacks_.clear();
	}

	void VideoEncoderResource::TryWriteVideoFrame() {
	DCHECK(TrackedCallback::IsPending(get_video_frame_callback_));

	int32_t frame_id = buffer_manager_.DequeueBuffer();
	if (frame_id < 0)
	return;

	scoped_refptr<VideoFrameResource> resource = new VideoFrameResource(
	pp_instance(), frame_id, buffer_manager_.GetBufferPointer(frame_id));
	video_frames_.insert(
	VideoFrameMap::value_type(resource->pp_resource(), resource));

	*get_video_frame_data_ = resource->GetReference();
	get_video_frame_data_ = nullptr;
	SafeRunCallback(&get_video_frame_callback_, PP_OK);
	}

	void VideoEncoderResource::WriteBitstreamBuffer(const BitstreamBuffer& buffer) {
	DCHECK_LT(buffer.id, shm_buffers_.size());

	get_bitstream_buffer_data_->size = buffer.size;
	get_bitstream_buffer_data_->buffer = shm_buffers_[buffer.id]->shm->memory();
	get_bitstream_buffer_data_->key_frame = PP_FromBool(buffer.key_frame);
	get_bitstream_buffer_data_ = nullptr;
	SafeRunCallback(&get_bitstream_buffer_callback_, PP_OK);
	}

	void VideoEncoderResource::ReleaseFrames() {
	for (VideoFrameMap::iterator it = video_frames_.begin();
	it != video_frames_.end(); ++it) {
	it->second->Invalidate();
	it->second = nullptr;
	}
	video_frames_.clear();
	}

	} // namespace proxy
	} // namespace ppapi