webrtc/modules/video_coding/main/source/generic_encoder.cc - platform/external/webrtc - Git at Google

 /*
  *  Copyright (c) 2012 The WebRTC project authors. All Rights Reserved.
  *
  *  Use of this source code is governed by a BSD-style license
  *  that can be found in the LICENSE file in the root of the source
  *  tree. An additional intellectual property rights grant can be found
  *  in the file PATENTS.  All contributing project authors may
  *  be found in the AUTHORS file in the root of the source tree.
  */

 #include "webrtc/base/checks.h"
 #include "webrtc/engine_configurations.h"
 #include "webrtc/modules/video_coding/main/source/encoded_frame.h"
 #include "webrtc/modules/video_coding/main/source/generic_encoder.h"
 #include "webrtc/modules/video_coding/main/source/media_optimization.h"
 #include "webrtc/system_wrappers/interface/critical_section_wrapper.h"
 #include "webrtc/system_wrappers/interface/logging.h"

 namespace webrtc {
 namespace {
 // Map information from info into rtp. If no relevant information is found
 // in info, rtp is set to NULL.
 void CopyCodecSpecific(const CodecSpecificInfo* info, RTPVideoHeader* rtp) {
   DCHECK(info);
   switch (info->codecType) {
     case kVideoCodecVP8: {
       rtp->codec = kRtpVideoVp8;
       rtp->codecHeader.VP8.InitRTPVideoHeaderVP8();
       rtp->codecHeader.VP8.pictureId = info->codecSpecific.VP8.pictureId;
       rtp->codecHeader.VP8.nonReference =
           info->codecSpecific.VP8.nonReference;
       rtp->codecHeader.VP8.temporalIdx = info->codecSpecific.VP8.temporalIdx;
       rtp->codecHeader.VP8.layerSync = info->codecSpecific.VP8.layerSync;
       rtp->codecHeader.VP8.tl0PicIdx = info->codecSpecific.VP8.tl0PicIdx;
       rtp->codecHeader.VP8.keyIdx = info->codecSpecific.VP8.keyIdx;
       rtp->simulcastIdx = info->codecSpecific.VP8.simulcastIdx;
       return;
     }
     case kVideoCodecH264:
       rtp->codec = kRtpVideoH264;
       return;
     case kVideoCodecGeneric:
       rtp->codec = kRtpVideoGeneric;
       rtp->simulcastIdx = info->codecSpecific.generic.simulcast_idx;
       return;
     default:
       return;
   }
 }
 }  // namespace

 //#define DEBUG_ENCODER_BIT_STREAM

 VCMGenericEncoder::VCMGenericEncoder(VideoEncoder* encoder,
                                      VideoEncoderRateObserver* rate_observer,
                                      bool internalSource)
     : encoder_(encoder),
       rate_observer_(rate_observer),
       vcm_encoded_frame_callback_(nullptr),
       bit_rate_(0),
       frame_rate_(0),
       internal_source_(internalSource),
       rotation_(kVideoRotation_0) {
 }

 VCMGenericEncoder::~VCMGenericEncoder()
 {
 }

 int32_t VCMGenericEncoder::Release()
 {
     {
       rtc::CritScope lock(&rates_lock_);
       bit_rate_ = 0;
       frame_rate_ = 0;
       vcm_encoded_frame_callback_ = nullptr;
     }

     return encoder_->Release();
 }

 int32_t
 VCMGenericEncoder::InitEncode(const VideoCodec* settings,
                               int32_t numberOfCores,
                               size_t maxPayloadSize)
 {
     {
       rtc::CritScope lock(&rates_lock_);
       bit_rate_ = settings->startBitrate * 1000;
       frame_rate_ = settings->maxFramerate;
     }

     if (encoder_->InitEncode(settings, numberOfCores, maxPayloadSize) != 0) {
       LOG(LS_ERROR) << "Failed to initialize the encoder associated with "
                        "payload name: " << settings->plName;
       return -1;
     }
     return 0;
 }

 int32_t VCMGenericEncoder::Encode(const VideoFrame& inputFrame,
                                   const CodecSpecificInfo* codecSpecificInfo,
                                   const std::vector<FrameType>& frameTypes) {
   std::vector<VideoFrameType> video_frame_types(frameTypes.size(),
                                                 kDeltaFrame);
   VCMEncodedFrame::ConvertFrameTypes(frameTypes, &video_frame_types);

   rotation_ = inputFrame.rotation();

   if (vcm_encoded_frame_callback_) {
     // Keep track of the current frame rotation and apply to the output of the
     // encoder. There might not be exact as the encoder could have one frame
     // delay but it should be close enough.
     vcm_encoded_frame_callback_->SetRotation(rotation_);
   }

   return encoder_->Encode(inputFrame, codecSpecificInfo, &video_frame_types);
 }

 int32_t
 VCMGenericEncoder::SetChannelParameters(int32_t packetLoss, int64_t rtt)
 {
     return encoder_->SetChannelParameters(packetLoss, rtt);
 }

 int32_t
 VCMGenericEncoder::SetRates(uint32_t newBitRate, uint32_t frameRate)
 {
     uint32_t target_bitrate_kbps = (newBitRate + 500) / 1000;
     int32_t ret = encoder_->SetRates(target_bitrate_kbps, frameRate);
     if (ret < 0)
     {
         return ret;
     }

     {
       rtc::CritScope lock(&rates_lock_);
       bit_rate_ = newBitRate;
       frame_rate_ = frameRate;
     }

     if (rate_observer_ != nullptr)
       rate_observer_->OnSetRates(newBitRate, frameRate);
     return VCM_OK;
 }

 int32_t
 VCMGenericEncoder::CodecConfigParameters(uint8_t* buffer, int32_t size)
 {
     int32_t ret = encoder_->CodecConfigParameters(buffer, size);
     if (ret < 0)
     {
         return ret;
     }
     return ret;
 }

 uint32_t VCMGenericEncoder::BitRate() const
 {
     rtc::CritScope lock(&rates_lock_);
     return bit_rate_;
 }

 uint32_t VCMGenericEncoder::FrameRate() const
 {
     rtc::CritScope lock(&rates_lock_);
     return frame_rate_;
 }

 int32_t
 VCMGenericEncoder::SetPeriodicKeyFrames(bool enable)
 {
     return encoder_->SetPeriodicKeyFrames(enable);
 }

 int32_t VCMGenericEncoder::RequestFrame(
     const std::vector<FrameType>& frame_types) {
   VideoFrame image;
   std::vector<VideoFrameType> video_frame_types(frame_types.size(),
                                                 kDeltaFrame);
   VCMEncodedFrame::ConvertFrameTypes(frame_types, &video_frame_types);
   return encoder_->Encode(image, NULL, &video_frame_types);
 }

 int32_t
 VCMGenericEncoder::RegisterEncodeCallback(VCMEncodedFrameCallback* VCMencodedFrameCallback)
 {
     VCMencodedFrameCallback->SetInternalSource(internal_source_);
     vcm_encoded_frame_callback_ = VCMencodedFrameCallback;
     return encoder_->RegisterEncodeCompleteCallback(VCMencodedFrameCallback);
 }

 bool
 VCMGenericEncoder::InternalSource() const
 {
     return internal_source_;
 }

 void VCMGenericEncoder::OnDroppedFrame() {
   encoder_->OnDroppedFrame();
 }

 bool VCMGenericEncoder::SupportsNativeHandle() const {
   return encoder_->SupportsNativeHandle();
 }

  /***************************
   * Callback Implementation
   ***************************/
 VCMEncodedFrameCallback::VCMEncodedFrameCallback(
     EncodedImageCallback* post_encode_callback)
     : _sendCallback(),
       _mediaOpt(NULL),
       _payloadType(0),
       _internalSource(false),
       _rotation(kVideoRotation_0),
       post_encode_callback_(post_encode_callback)
 #ifdef DEBUG_ENCODER_BIT_STREAM
       ,
       _bitStreamAfterEncoder(NULL)
 #endif
 {
 #ifdef DEBUG_ENCODER_BIT_STREAM
     _bitStreamAfterEncoder = fopen("encoderBitStream.bit", "wb");
 #endif
 }

 VCMEncodedFrameCallback::~VCMEncodedFrameCallback()
 {
 #ifdef DEBUG_ENCODER_BIT_STREAM
     fclose(_bitStreamAfterEncoder);
 #endif
 }

 int32_t
 VCMEncodedFrameCallback::SetTransportCallback(VCMPacketizationCallback* transport)
 {
     _sendCallback = transport;
     return VCM_OK;
 }

 int32_t VCMEncodedFrameCallback::Encoded(
     const EncodedImage& encodedImage,
     const CodecSpecificInfo* codecSpecificInfo,
     const RTPFragmentationHeader* fragmentationHeader) {
   post_encode_callback_->Encoded(encodedImage, NULL, NULL);

   if (_sendCallback == NULL) {
     return VCM_UNINITIALIZED;
   }

 #ifdef DEBUG_ENCODER_BIT_STREAM
   if (_bitStreamAfterEncoder != NULL) {
     fwrite(encodedImage._buffer, 1, encodedImage._length,
            _bitStreamAfterEncoder);
   }
 #endif

   RTPVideoHeader rtpVideoHeader;
   memset(&rtpVideoHeader, 0, sizeof(RTPVideoHeader));
   RTPVideoHeader* rtpVideoHeaderPtr = &rtpVideoHeader;
   if (codecSpecificInfo) {
     CopyCodecSpecific(codecSpecificInfo, rtpVideoHeaderPtr);
   }
   rtpVideoHeader.rotation = _rotation;

   int32_t callbackReturn = _sendCallback->SendData(
       _payloadType, encodedImage, *fragmentationHeader, rtpVideoHeaderPtr);
   if (callbackReturn < 0) {
     return callbackReturn;
   }

   if (_mediaOpt != NULL) {
     _mediaOpt->UpdateWithEncodedData(encodedImage);
     if (_internalSource)
       return _mediaOpt->DropFrame();  // Signal to encoder to drop next frame.
   }
   return VCM_OK;
 }

 void
 VCMEncodedFrameCallback::SetMediaOpt(
     media_optimization::MediaOptimization *mediaOpt)
 {
     _mediaOpt = mediaOpt;
 }

 }  // namespace webrtc
	/*
	* Copyright (c) 2012 The WebRTC project authors. All Rights Reserved.
	*
	* Use of this source code is governed by a BSD-style license
	* that can be found in the LICENSE file in the root of the source
	* tree. An additional intellectual property rights grant can be found
	* in the file PATENTS. All contributing project authors may
	* be found in the AUTHORS file in the root of the source tree.
	*/

	#include "webrtc/base/checks.h"
	#include "webrtc/engine_configurations.h"
	#include "webrtc/modules/video_coding/main/source/encoded_frame.h"
	#include "webrtc/modules/video_coding/main/source/generic_encoder.h"
	#include "webrtc/modules/video_coding/main/source/media_optimization.h"
	#include "webrtc/system_wrappers/interface/critical_section_wrapper.h"
	#include "webrtc/system_wrappers/interface/logging.h"

	namespace webrtc {
	namespace {
	// Map information from info into rtp. If no relevant information is found
	// in info, rtp is set to NULL.
	void CopyCodecSpecific(const CodecSpecificInfo* info, RTPVideoHeader* rtp) {
	DCHECK(info);
	switch (info->codecType) {
	case kVideoCodecVP8: {
	rtp->codec = kRtpVideoVp8;
	rtp->codecHeader.VP8.InitRTPVideoHeaderVP8();
	rtp->codecHeader.VP8.pictureId = info->codecSpecific.VP8.pictureId;
	rtp->codecHeader.VP8.nonReference =
	info->codecSpecific.VP8.nonReference;
	rtp->codecHeader.VP8.temporalIdx = info->codecSpecific.VP8.temporalIdx;
	rtp->codecHeader.VP8.layerSync = info->codecSpecific.VP8.layerSync;
	rtp->codecHeader.VP8.tl0PicIdx = info->codecSpecific.VP8.tl0PicIdx;
	rtp->codecHeader.VP8.keyIdx = info->codecSpecific.VP8.keyIdx;
	rtp->simulcastIdx = info->codecSpecific.VP8.simulcastIdx;
	return;
	}
	case kVideoCodecH264:
	rtp->codec = kRtpVideoH264;
	return;
	case kVideoCodecGeneric:
	rtp->codec = kRtpVideoGeneric;
	rtp->simulcastIdx = info->codecSpecific.generic.simulcast_idx;
	return;
	default:
	return;
	}
	}
	} // namespace

	//#define DEBUG_ENCODER_BIT_STREAM

	VCMGenericEncoder::VCMGenericEncoder(VideoEncoder* encoder,
	VideoEncoderRateObserver* rate_observer,
	bool internalSource)
	: encoder_(encoder),
	rate_observer_(rate_observer),
	vcm_encoded_frame_callback_(nullptr),
	bit_rate_(0),
	frame_rate_(0),
	internal_source_(internalSource),
	rotation_(kVideoRotation_0) {
	}

	VCMGenericEncoder::~VCMGenericEncoder()
	{
	}

	int32_t VCMGenericEncoder::Release()
	{
	{
	rtc::CritScope lock(&rates_lock_);
	bit_rate_ = 0;
	frame_rate_ = 0;
	vcm_encoded_frame_callback_ = nullptr;
	}

	return encoder_->Release();
	}

	int32_t
	VCMGenericEncoder::InitEncode(const VideoCodec* settings,
	int32_t numberOfCores,
	size_t maxPayloadSize)
	{
	{
	rtc::CritScope lock(&rates_lock_);
	bit_rate_ = settings->startBitrate * 1000;
	frame_rate_ = settings->maxFramerate;
	}

	if (encoder_->InitEncode(settings, numberOfCores, maxPayloadSize) != 0) {
	LOG(LS_ERROR) << "Failed to initialize the encoder associated with "
	"payload name: " << settings->plName;
	return -1;
	}
	return 0;
	}

	int32_t VCMGenericEncoder::Encode(const VideoFrame& inputFrame,
	const CodecSpecificInfo* codecSpecificInfo,
	const std::vector<FrameType>& frameTypes) {
	std::vector<VideoFrameType> video_frame_types(frameTypes.size(),
	kDeltaFrame);
	VCMEncodedFrame::ConvertFrameTypes(frameTypes, &video_frame_types);

	rotation_ = inputFrame.rotation();

	if (vcm_encoded_frame_callback_) {
	// Keep track of the current frame rotation and apply to the output of the
	// encoder. There might not be exact as the encoder could have one frame
	// delay but it should be close enough.
	vcm_encoded_frame_callback_->SetRotation(rotation_);
	}

	return encoder_->Encode(inputFrame, codecSpecificInfo, &video_frame_types);
	}

	int32_t
	VCMGenericEncoder::SetChannelParameters(int32_t packetLoss, int64_t rtt)
	{
	return encoder_->SetChannelParameters(packetLoss, rtt);
	}

	int32_t
	VCMGenericEncoder::SetRates(uint32_t newBitRate, uint32_t frameRate)
	{
	uint32_t target_bitrate_kbps = (newBitRate + 500) / 1000;
	int32_t ret = encoder_->SetRates(target_bitrate_kbps, frameRate);
	if (ret < 0)
	{
	return ret;
	}

	{
	rtc::CritScope lock(&rates_lock_);
	bit_rate_ = newBitRate;
	frame_rate_ = frameRate;
	}

	if (rate_observer_ != nullptr)
	rate_observer_->OnSetRates(newBitRate, frameRate);
	return VCM_OK;
	}

	int32_t
	VCMGenericEncoder::CodecConfigParameters(uint8_t* buffer, int32_t size)
	{
	int32_t ret = encoder_->CodecConfigParameters(buffer, size);
	if (ret < 0)
	{
	return ret;
	}
	return ret;
	}

	uint32_t VCMGenericEncoder::BitRate() const
	{
	rtc::CritScope lock(&rates_lock_);
	return bit_rate_;
	}

	uint32_t VCMGenericEncoder::FrameRate() const
	{
	rtc::CritScope lock(&rates_lock_);
	return frame_rate_;
	}

	int32_t
	VCMGenericEncoder::SetPeriodicKeyFrames(bool enable)
	{
	return encoder_->SetPeriodicKeyFrames(enable);
	}

	int32_t VCMGenericEncoder::RequestFrame(
	const std::vector<FrameType>& frame_types) {
	VideoFrame image;
	std::vector<VideoFrameType> video_frame_types(frame_types.size(),
	kDeltaFrame);
	VCMEncodedFrame::ConvertFrameTypes(frame_types, &video_frame_types);
	return encoder_->Encode(image, NULL, &video_frame_types);
	}

	int32_t
	VCMGenericEncoder::RegisterEncodeCallback(VCMEncodedFrameCallback* VCMencodedFrameCallback)
	{
	VCMencodedFrameCallback->SetInternalSource(internal_source_);
	vcm_encoded_frame_callback_ = VCMencodedFrameCallback;
	return encoder_->RegisterEncodeCompleteCallback(VCMencodedFrameCallback);
	}

	bool
	VCMGenericEncoder::InternalSource() const
	{
	return internal_source_;
	}

	void VCMGenericEncoder::OnDroppedFrame() {
	encoder_->OnDroppedFrame();
	}

	bool VCMGenericEncoder::SupportsNativeHandle() const {
	return encoder_->SupportsNativeHandle();
	}

	/***************************
	* Callback Implementation
	***************************/
	VCMEncodedFrameCallback::VCMEncodedFrameCallback(
	EncodedImageCallback* post_encode_callback)
	: _sendCallback(),
	_mediaOpt(NULL),
	_payloadType(0),
	_internalSource(false),
	_rotation(kVideoRotation_0),
	post_encode_callback_(post_encode_callback)
	#ifdef DEBUG_ENCODER_BIT_STREAM
	,
	_bitStreamAfterEncoder(NULL)
	#endif
	{
	#ifdef DEBUG_ENCODER_BIT_STREAM
	_bitStreamAfterEncoder = fopen("encoderBitStream.bit", "wb");
	#endif
	}

	VCMEncodedFrameCallback::~VCMEncodedFrameCallback()
	{
	#ifdef DEBUG_ENCODER_BIT_STREAM
	fclose(_bitStreamAfterEncoder);
	#endif
	}

	int32_t
	VCMEncodedFrameCallback::SetTransportCallback(VCMPacketizationCallback* transport)
	{
	_sendCallback = transport;
	return VCM_OK;
	}

	int32_t VCMEncodedFrameCallback::Encoded(
	const EncodedImage& encodedImage,
	const CodecSpecificInfo* codecSpecificInfo,
	const RTPFragmentationHeader* fragmentationHeader) {
	post_encode_callback_->Encoded(encodedImage, NULL, NULL);

	if (_sendCallback == NULL) {
	return VCM_UNINITIALIZED;
	}

	#ifdef DEBUG_ENCODER_BIT_STREAM
	if (_bitStreamAfterEncoder != NULL) {
	fwrite(encodedImage._buffer, 1, encodedImage._length,
	_bitStreamAfterEncoder);
	}
	#endif

	RTPVideoHeader rtpVideoHeader;
	memset(&rtpVideoHeader, 0, sizeof(RTPVideoHeader));
	RTPVideoHeader* rtpVideoHeaderPtr = &rtpVideoHeader;
	if (codecSpecificInfo) {
	CopyCodecSpecific(codecSpecificInfo, rtpVideoHeaderPtr);
	}
	rtpVideoHeader.rotation = _rotation;

	int32_t callbackReturn = _sendCallback->SendData(
	_payloadType, encodedImage, *fragmentationHeader, rtpVideoHeaderPtr);
	if (callbackReturn < 0) {
	return callbackReturn;
	}

	if (_mediaOpt != NULL) {
	_mediaOpt->UpdateWithEncodedData(encodedImage);
	if (_internalSource)
	return _mediaOpt->DropFrame(); // Signal to encoder to drop next frame.
	}
	return VCM_OK;
	}

	void
	VCMEncodedFrameCallback::SetMediaOpt(
	media_optimization::MediaOptimization *mediaOpt)
	{
	_mediaOpt = mediaOpt;
	}

	} // namespace webrtc