modules/video_coding/codecs/h264/h264_decoder_impl.cc - src - Git at Google

 /*
  *  Copyright (c) 2015 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 "modules/video_coding/codecs/h264/h264_decoder_impl.h"

 #include <algorithm>
 #include <limits>

 extern "C" {
 #include "third_party/ffmpeg/libavcodec/avcodec.h"
 #include "third_party/ffmpeg/libavformat/avformat.h"
 #include "third_party/ffmpeg/libavutil/imgutils.h"
 }  // extern "C"

 #include "absl/memory/memory.h"
 #include "api/video/color_space.h"
 #include "api/video/i420_buffer.h"
 #include "common_video/include/video_frame_buffer.h"
 #include "modules/video_coding/codecs/h264/h264_color_space.h"
 #include "rtc_base/checks.h"
 #include "rtc_base/critical_section.h"
 #include "rtc_base/keep_ref_until_done.h"
 #include "rtc_base/logging.h"
 #include "system_wrappers/include/metrics.h"

 namespace webrtc {

 namespace {

 const AVPixelFormat kPixelFormatDefault = AV_PIX_FMT_YUV420P;
 const AVPixelFormat kPixelFormatFullRange = AV_PIX_FMT_YUVJ420P;
 const size_t kYPlaneIndex = 0;
 const size_t kUPlaneIndex = 1;
 const size_t kVPlaneIndex = 2;

 // Used by histograms. Values of entries should not be changed.
 enum H264DecoderImplEvent {
   kH264DecoderEventInit = 0,
   kH264DecoderEventError = 1,
   kH264DecoderEventMax = 16,
 };

 }  // namespace

 int H264DecoderImpl::AVGetBuffer2(
     AVCodecContext* context, AVFrame* av_frame, int flags) {
   // Set in |InitDecode|.
   H264DecoderImpl* decoder = static_cast<H264DecoderImpl*>(context->opaque);
   // DCHECK values set in |InitDecode|.
   RTC_DCHECK(decoder);
   // Necessary capability to be allowed to provide our own buffers.
   RTC_DCHECK(context->codec->capabilities | AV_CODEC_CAP_DR1);

   // Limited or full range YUV420 is expected.
   RTC_CHECK(context->pix_fmt == kPixelFormatDefault ||
             context->pix_fmt == kPixelFormatFullRange);

   // |av_frame->width| and |av_frame->height| are set by FFmpeg. These are the
   // actual image's dimensions and may be different from |context->width| and
   // |context->coded_width| due to reordering.
   int width = av_frame->width;
   int height = av_frame->height;
   // See |lowres|, if used the decoder scales the image by 1/2^(lowres). This
   // has implications on which resolutions are valid, but we don't use it.
   RTC_CHECK_EQ(context->lowres, 0);
   // Adjust the |width| and |height| to values acceptable by the decoder.
   // Without this, FFmpeg may overflow the buffer. If modified, |width| and/or
   // |height| are larger than the actual image and the image has to be cropped
   // (top-left corner) after decoding to avoid visible borders to the right and
   // bottom of the actual image.
   avcodec_align_dimensions(context, &width, &height);

   RTC_CHECK_GE(width, 0);
   RTC_CHECK_GE(height, 0);
   int ret = av_image_check_size(static_cast<unsigned int>(width),
                                 static_cast<unsigned int>(height), 0, nullptr);
   if (ret < 0) {
     RTC_LOG(LS_ERROR) << "Invalid picture size " << width << "x" << height;
     decoder->ReportError();
     return ret;
   }

   // The video frame is stored in |frame_buffer|. |av_frame| is FFmpeg's version
   // of a video frame and will be set up to reference |frame_buffer|'s data.

   // FFmpeg expects the initial allocation to be zero-initialized according to
   // http://crbug.com/390941. Our pool is set up to zero-initialize new buffers.
   // TODO(nisse): Delete that feature from the video pool, instead add
   // an explicit call to InitializeData here.
   rtc::scoped_refptr<I420Buffer> frame_buffer =
       decoder->pool_.CreateBuffer(width, height);

   int y_size = width * height;
   int uv_size = frame_buffer->ChromaWidth() * frame_buffer->ChromaHeight();
   // DCHECK that we have a continuous buffer as is required.
   RTC_DCHECK_EQ(frame_buffer->DataU(), frame_buffer->DataY() + y_size);
   RTC_DCHECK_EQ(frame_buffer->DataV(), frame_buffer->DataU() + uv_size);
   int total_size = y_size + 2 * uv_size;

   av_frame->format = context->pix_fmt;
   av_frame->reordered_opaque = context->reordered_opaque;

   // Set |av_frame| members as required by FFmpeg.
   av_frame->data[kYPlaneIndex] = frame_buffer->MutableDataY();
   av_frame->linesize[kYPlaneIndex] = frame_buffer->StrideY();
   av_frame->data[kUPlaneIndex] = frame_buffer->MutableDataU();
   av_frame->linesize[kUPlaneIndex] = frame_buffer->StrideU();
   av_frame->data[kVPlaneIndex] = frame_buffer->MutableDataV();
   av_frame->linesize[kVPlaneIndex] = frame_buffer->StrideV();
   RTC_DCHECK_EQ(av_frame->extended_data, av_frame->data);

   // Create a VideoFrame object, to keep a reference to the buffer.
   // TODO(nisse): The VideoFrame's timestamp and rotation info is not used.
   // Refactor to do not use a VideoFrame object at all.
   av_frame->buf[0] = av_buffer_create(
       av_frame->data[kYPlaneIndex], total_size, AVFreeBuffer2,
       static_cast<void*>(absl::make_unique<VideoFrame>(
                              VideoFrame::Builder()
                                  .set_video_frame_buffer(frame_buffer)
                                  .set_rotation(kVideoRotation_0)
                                  .set_timestamp_us(0)
                                  .build())
                              .release()),
       0);
   RTC_CHECK(av_frame->buf[0]);
   return 0;
 }

 void H264DecoderImpl::AVFreeBuffer2(void* opaque, uint8_t* data) {
   // The buffer pool recycles the buffer used by |video_frame| when there are no
   // more references to it. |video_frame| is a thin buffer holder and is not
   // recycled.
   VideoFrame* video_frame = static_cast<VideoFrame*>(opaque);
   delete video_frame;
 }

 H264DecoderImpl::H264DecoderImpl() : pool_(true),
                                      decoded_image_callback_(nullptr),
                                      has_reported_init_(false),
                                      has_reported_error_(false) {
 }

 H264DecoderImpl::~H264DecoderImpl() {
   Release();
 }

 int32_t H264DecoderImpl::InitDecode(const VideoCodec* codec_settings,
                                     int32_t number_of_cores) {
   ReportInit();
   if (codec_settings &&
       codec_settings->codecType != kVideoCodecH264) {
     ReportError();
     return WEBRTC_VIDEO_CODEC_ERR_PARAMETER;
   }

   // Release necessary in case of re-initializing.
   int32_t ret = Release();
   if (ret != WEBRTC_VIDEO_CODEC_OK) {
     ReportError();
     return ret;
   }
   RTC_DCHECK(!av_context_);

   // Initialize AVCodecContext.
   av_context_.reset(avcodec_alloc_context3(nullptr));

   av_context_->codec_type = AVMEDIA_TYPE_VIDEO;
   av_context_->codec_id = AV_CODEC_ID_H264;
   if (codec_settings) {
     av_context_->coded_width = codec_settings->width;
     av_context_->coded_height = codec_settings->height;
   }
   av_context_->pix_fmt = kPixelFormatDefault;
   av_context_->extradata = nullptr;
   av_context_->extradata_size = 0;

   // If this is ever increased, look at |av_context_->thread_safe_callbacks| and
   // make it possible to disable the thread checker in the frame buffer pool.
   av_context_->thread_count = 1;
   av_context_->thread_type = FF_THREAD_SLICE;

   // Function used by FFmpeg to get buffers to store decoded frames in.
   av_context_->get_buffer2 = AVGetBuffer2;
   // |get_buffer2| is called with the context, there |opaque| can be used to get
   // a pointer |this|.
   av_context_->opaque = this;

   AVCodec* codec = avcodec_find_decoder(av_context_->codec_id);
   if (!codec) {
     // This is an indication that FFmpeg has not been initialized or it has not
     // been compiled/initialized with the correct set of codecs.
     RTC_LOG(LS_ERROR) << "FFmpeg H.264 decoder not found.";
     Release();
     ReportError();
     return WEBRTC_VIDEO_CODEC_ERROR;
   }
   int res = avcodec_open2(av_context_.get(), codec, nullptr);
   if (res < 0) {
     RTC_LOG(LS_ERROR) << "avcodec_open2 error: " << res;
     Release();
     ReportError();
     return WEBRTC_VIDEO_CODEC_ERROR;
   }

   av_frame_.reset(av_frame_alloc());
   return WEBRTC_VIDEO_CODEC_OK;
 }

 int32_t H264DecoderImpl::Release() {
   av_context_.reset();
   av_frame_.reset();
   return WEBRTC_VIDEO_CODEC_OK;
 }

 int32_t H264DecoderImpl::RegisterDecodeCompleteCallback(
     DecodedImageCallback* callback) {
   decoded_image_callback_ = callback;
   return WEBRTC_VIDEO_CODEC_OK;
 }

 int32_t H264DecoderImpl::Decode(const EncodedImage& input_image,
                                 bool /*missing_frames*/,
                                 const CodecSpecificInfo* codec_specific_info,
                                 int64_t /*render_time_ms*/) {
   if (!IsInitialized()) {
     ReportError();
     return WEBRTC_VIDEO_CODEC_UNINITIALIZED;
   }
   if (!decoded_image_callback_) {
     RTC_LOG(LS_WARNING)
         << "InitDecode() has been called, but a callback function "
            "has not been set with RegisterDecodeCompleteCallback()";
     ReportError();
     return WEBRTC_VIDEO_CODEC_UNINITIALIZED;
   }
   if (!input_image.data() || !input_image.size()) {
     ReportError();
     return WEBRTC_VIDEO_CODEC_ERR_PARAMETER;
   }
   if (codec_specific_info &&
       codec_specific_info->codecType != kVideoCodecH264) {
     ReportError();
     return WEBRTC_VIDEO_CODEC_ERR_PARAMETER;
   }

   // FFmpeg requires padding due to some optimized bitstream readers reading 32
   // or 64 bits at once and could read over the end. See avcodec_decode_video2.
   RTC_CHECK_GE(input_image.capacity(),
                input_image.size() +
                    EncodedImage::GetBufferPaddingBytes(kVideoCodecH264));
   // "If the first 23 bits of the additional bytes are not 0, then damaged MPEG
   // bitstreams could cause overread and segfault." See
   // AV_INPUT_BUFFER_PADDING_SIZE. We'll zero the entire padding just in case.
   memset(input_image.data() + input_image.size(), 0,
          EncodedImage::GetBufferPaddingBytes(kVideoCodecH264));

   AVPacket packet;
   av_init_packet(&packet);
   packet.data = input_image.data();
   if (input_image.size() >
       static_cast<size_t>(std::numeric_limits<int>::max())) {
     ReportError();
     return WEBRTC_VIDEO_CODEC_ERROR;
   }
   packet.size = static_cast<int>(input_image.size());
   int64_t frame_timestamp_us = input_image.ntp_time_ms_ * 1000;  // ms -> μs
   av_context_->reordered_opaque = frame_timestamp_us;

   int result = avcodec_send_packet(av_context_.get(), &packet);
   if (result < 0) {
     RTC_LOG(LS_ERROR) << "avcodec_send_packet error: " << result;
     ReportError();
     return WEBRTC_VIDEO_CODEC_ERROR;
   }

   result = avcodec_receive_frame(av_context_.get(), av_frame_.get());
   if (result < 0) {
     RTC_LOG(LS_ERROR) << "avcodec_receive_frame error: " << result;
     ReportError();
     return WEBRTC_VIDEO_CODEC_ERROR;
   }

   // We don't expect reordering. Decoded frame tamestamp should match
   // the input one.
   RTC_DCHECK_EQ(av_frame_->reordered_opaque, frame_timestamp_us);

   // Obtain the |video_frame| containing the decoded image.
   VideoFrame* input_frame =
       static_cast<VideoFrame*>(av_buffer_get_opaque(av_frame_->buf[0]));
   RTC_DCHECK(input_frame);
   rtc::scoped_refptr<webrtc::I420BufferInterface> i420_buffer =
       input_frame->video_frame_buffer()->GetI420();
   RTC_CHECK_EQ(av_frame_->data[kYPlaneIndex], i420_buffer->DataY());
   RTC_CHECK_EQ(av_frame_->data[kUPlaneIndex], i420_buffer->DataU());
   RTC_CHECK_EQ(av_frame_->data[kVPlaneIndex], i420_buffer->DataV());

   // Pass on color space from input frame if explicitly specified.
   const ColorSpace& color_space =
       input_frame->color_space() ? *input_frame->color_space()
                                  : ExtractH264ColorSpace(av_context_.get());
   VideoFrame decoded_frame =
       VideoFrame::Builder()
           .set_video_frame_buffer(input_frame->video_frame_buffer())
           .set_timestamp_us(input_frame->timestamp_us())
           .set_timestamp_rtp(input_image.Timestamp())
           .set_rotation(input_frame->rotation())
           .set_color_space(color_space)
           .build();

   absl::optional<uint8_t> qp;
   // TODO(sakal): Maybe it is possible to get QP directly from FFmpeg.
   h264_bitstream_parser_.ParseBitstream(input_image.data(), input_image.size());
   int qp_int;
   if (h264_bitstream_parser_.GetLastSliceQp(&qp_int)) {
     qp.emplace(qp_int);
   }

   // The decoded image may be larger than what is supposed to be visible, see
   // |AVGetBuffer2|'s use of |avcodec_align_dimensions|. This crops the image
   // without copying the underlying buffer.
   if (av_frame_->width != i420_buffer->width() ||
       av_frame_->height != i420_buffer->height()) {
     rtc::scoped_refptr<VideoFrameBuffer> cropped_buf = WrapI420Buffer(
         av_frame_->width, av_frame_->height, i420_buffer->DataY(),
         i420_buffer->StrideY(), i420_buffer->DataU(), i420_buffer->StrideU(),
         i420_buffer->DataV(), i420_buffer->StrideV(),
         rtc::KeepRefUntilDone(i420_buffer));
     VideoFrame cropped_frame =
         VideoFrame::Builder()
             .set_video_frame_buffer(cropped_buf)
             .set_timestamp_ms(decoded_frame.render_time_ms())
             .set_timestamp_rtp(decoded_frame.timestamp())
             .set_rotation(decoded_frame.rotation())
             .set_color_space(color_space)
             .build();
     // TODO(nisse): Timestamp and rotation are all zero here. Change decoder
     // interface to pass a VideoFrameBuffer instead of a VideoFrame?
     decoded_image_callback_->Decoded(cropped_frame, absl::nullopt, qp);
   } else {
     // Return decoded frame.
     decoded_image_callback_->Decoded(decoded_frame, absl::nullopt, qp);
   }
   // Stop referencing it, possibly freeing |input_frame|.
   av_frame_unref(av_frame_.get());
   input_frame = nullptr;

   return WEBRTC_VIDEO_CODEC_OK;
 }

 const char* H264DecoderImpl::ImplementationName() const {
   return "FFmpeg";
 }

 bool H264DecoderImpl::IsInitialized() const {
   return av_context_ != nullptr;
 }

 void H264DecoderImpl::ReportInit() {
   if (has_reported_init_)
     return;
   RTC_HISTOGRAM_ENUMERATION("WebRTC.Video.H264DecoderImpl.Event",
                             kH264DecoderEventInit,
                             kH264DecoderEventMax);
   has_reported_init_ = true;
 }

 void H264DecoderImpl::ReportError() {
   if (has_reported_error_)
     return;
   RTC_HISTOGRAM_ENUMERATION("WebRTC.Video.H264DecoderImpl.Event",
                             kH264DecoderEventError,
                             kH264DecoderEventMax);
   has_reported_error_ = true;
 }

 }  // namespace webrtc
	/*
	* Copyright (c) 2015 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 "modules/video_coding/codecs/h264/h264_decoder_impl.h"

	#include <algorithm>
	#include <limits>

	extern "C" {
	#include "third_party/ffmpeg/libavcodec/avcodec.h"
	#include "third_party/ffmpeg/libavformat/avformat.h"
	#include "third_party/ffmpeg/libavutil/imgutils.h"
	} // extern "C"

	#include "absl/memory/memory.h"
	#include "api/video/color_space.h"
	#include "api/video/i420_buffer.h"
	#include "common_video/include/video_frame_buffer.h"
	#include "modules/video_coding/codecs/h264/h264_color_space.h"
	#include "rtc_base/checks.h"
	#include "rtc_base/critical_section.h"
	#include "rtc_base/keep_ref_until_done.h"
	#include "rtc_base/logging.h"
	#include "system_wrappers/include/metrics.h"

	namespace webrtc {

	namespace {

	const AVPixelFormat kPixelFormatDefault = AV_PIX_FMT_YUV420P;
	const AVPixelFormat kPixelFormatFullRange = AV_PIX_FMT_YUVJ420P;
	const size_t kYPlaneIndex = 0;
	const size_t kUPlaneIndex = 1;
	const size_t kVPlaneIndex = 2;

	// Used by histograms. Values of entries should not be changed.
	enum H264DecoderImplEvent {
	kH264DecoderEventInit = 0,
	kH264DecoderEventError = 1,
	kH264DecoderEventMax = 16,
	};

	} // namespace

	int H264DecoderImpl::AVGetBuffer2(
	AVCodecContext* context, AVFrame* av_frame, int flags) {
	// Set in \|InitDecode\|.
	H264DecoderImpl* decoder = static_cast<H264DecoderImpl*>(context->opaque);
	// DCHECK values set in \|InitDecode\|.
	RTC_DCHECK(decoder);
	// Necessary capability to be allowed to provide our own buffers.
	RTC_DCHECK(context->codec->capabilities \| AV_CODEC_CAP_DR1);

	// Limited or full range YUV420 is expected.
	RTC_CHECK(context->pix_fmt == kPixelFormatDefault \|\|
	context->pix_fmt == kPixelFormatFullRange);

	// \|av_frame->width\| and \|av_frame->height\| are set by FFmpeg. These are the
	// actual image's dimensions and may be different from \|context->width\| and
	// \|context->coded_width\| due to reordering.
	int width = av_frame->width;
	int height = av_frame->height;
	// See \|lowres\|, if used the decoder scales the image by 1/2^(lowres). This
	// has implications on which resolutions are valid, but we don't use it.
	RTC_CHECK_EQ(context->lowres, 0);
	// Adjust the \|width\| and \|height\| to values acceptable by the decoder.
	// Without this, FFmpeg may overflow the buffer. If modified, \|width\| and/or
	// \|height\| are larger than the actual image and the image has to be cropped
	// (top-left corner) after decoding to avoid visible borders to the right and
	// bottom of the actual image.
	avcodec_align_dimensions(context, &width, &height);

	RTC_CHECK_GE(width, 0);
	RTC_CHECK_GE(height, 0);
	int ret = av_image_check_size(static_cast<unsigned int>(width),
	static_cast<unsigned int>(height), 0, nullptr);
	if (ret < 0) {
	RTC_LOG(LS_ERROR) << "Invalid picture size " << width << "x" << height;
	decoder->ReportError();
	return ret;
	}

	// The video frame is stored in \|frame_buffer\|. \|av_frame\| is FFmpeg's version
	// of a video frame and will be set up to reference \|frame_buffer\|'s data.

	// FFmpeg expects the initial allocation to be zero-initialized according to
	// http://crbug.com/390941. Our pool is set up to zero-initialize new buffers.
	// TODO(nisse): Delete that feature from the video pool, instead add
	// an explicit call to InitializeData here.
	rtc::scoped_refptr<I420Buffer> frame_buffer =
	decoder->pool_.CreateBuffer(width, height);

	int y_size = width * height;
	int uv_size = frame_buffer->ChromaWidth() * frame_buffer->ChromaHeight();
	// DCHECK that we have a continuous buffer as is required.
	RTC_DCHECK_EQ(frame_buffer->DataU(), frame_buffer->DataY() + y_size);
	RTC_DCHECK_EQ(frame_buffer->DataV(), frame_buffer->DataU() + uv_size);
	int total_size = y_size + 2 * uv_size;

	av_frame->format = context->pix_fmt;
	av_frame->reordered_opaque = context->reordered_opaque;

	// Set \|av_frame\| members as required by FFmpeg.
	av_frame->data[kYPlaneIndex] = frame_buffer->MutableDataY();
	av_frame->linesize[kYPlaneIndex] = frame_buffer->StrideY();
	av_frame->data[kUPlaneIndex] = frame_buffer->MutableDataU();
	av_frame->linesize[kUPlaneIndex] = frame_buffer->StrideU();
	av_frame->data[kVPlaneIndex] = frame_buffer->MutableDataV();
	av_frame->linesize[kVPlaneIndex] = frame_buffer->StrideV();
	RTC_DCHECK_EQ(av_frame->extended_data, av_frame->data);

	// Create a VideoFrame object, to keep a reference to the buffer.
	// TODO(nisse): The VideoFrame's timestamp and rotation info is not used.
	// Refactor to do not use a VideoFrame object at all.
	av_frame->buf[0] = av_buffer_create(
	av_frame->data[kYPlaneIndex], total_size, AVFreeBuffer2,
	static_cast<void*>(absl::make_unique<VideoFrame>(
	VideoFrame::Builder()
	.set_video_frame_buffer(frame_buffer)
	.set_rotation(kVideoRotation_0)
	.set_timestamp_us(0)
	.build())
	.release()),
	0);
	RTC_CHECK(av_frame->buf[0]);
	return 0;
	}

	void H264DecoderImpl::AVFreeBuffer2(void* opaque, uint8_t* data) {
	// The buffer pool recycles the buffer used by \|video_frame\| when there are no
	// more references to it. \|video_frame\| is a thin buffer holder and is not
	// recycled.
	VideoFrame* video_frame = static_cast<VideoFrame*>(opaque);
	delete video_frame;
	}

	H264DecoderImpl::H264DecoderImpl() : pool_(true),
	decoded_image_callback_(nullptr),
	has_reported_init_(false),
	has_reported_error_(false) {
	}

	H264DecoderImpl::~H264DecoderImpl() {
	Release();
	}

	int32_t H264DecoderImpl::InitDecode(const VideoCodec* codec_settings,
	int32_t number_of_cores) {
	ReportInit();
	if (codec_settings &&
	codec_settings->codecType != kVideoCodecH264) {
	ReportError();
	return WEBRTC_VIDEO_CODEC_ERR_PARAMETER;
	}

	// Release necessary in case of re-initializing.
	int32_t ret = Release();
	if (ret != WEBRTC_VIDEO_CODEC_OK) {
	ReportError();
	return ret;
	}
	RTC_DCHECK(!av_context_);

	// Initialize AVCodecContext.
	av_context_.reset(avcodec_alloc_context3(nullptr));

	av_context_->codec_type = AVMEDIA_TYPE_VIDEO;
	av_context_->codec_id = AV_CODEC_ID_H264;
	if (codec_settings) {
	av_context_->coded_width = codec_settings->width;
	av_context_->coded_height = codec_settings->height;
	}
	av_context_->pix_fmt = kPixelFormatDefault;
	av_context_->extradata = nullptr;
	av_context_->extradata_size = 0;

	// If this is ever increased, look at \|av_context_->thread_safe_callbacks\| and
	// make it possible to disable the thread checker in the frame buffer pool.
	av_context_->thread_count = 1;
	av_context_->thread_type = FF_THREAD_SLICE;

	// Function used by FFmpeg to get buffers to store decoded frames in.
	av_context_->get_buffer2 = AVGetBuffer2;
	// \|get_buffer2\| is called with the context, there \|opaque\| can be used to get
	// a pointer \|this\|.
	av_context_->opaque = this;

	AVCodec* codec = avcodec_find_decoder(av_context_->codec_id);
	if (!codec) {
	// This is an indication that FFmpeg has not been initialized or it has not
	// been compiled/initialized with the correct set of codecs.
	RTC_LOG(LS_ERROR) << "FFmpeg H.264 decoder not found.";
	Release();
	ReportError();
	return WEBRTC_VIDEO_CODEC_ERROR;
	}
	int res = avcodec_open2(av_context_.get(), codec, nullptr);
	if (res < 0) {
	RTC_LOG(LS_ERROR) << "avcodec_open2 error: " << res;
	Release();
	ReportError();
	return WEBRTC_VIDEO_CODEC_ERROR;
	}

	av_frame_.reset(av_frame_alloc());
	return WEBRTC_VIDEO_CODEC_OK;
	}

	int32_t H264DecoderImpl::Release() {
	av_context_.reset();
	av_frame_.reset();
	return WEBRTC_VIDEO_CODEC_OK;
	}

	int32_t H264DecoderImpl::RegisterDecodeCompleteCallback(
	DecodedImageCallback* callback) {
	decoded_image_callback_ = callback;
	return WEBRTC_VIDEO_CODEC_OK;
	}

	int32_t H264DecoderImpl::Decode(const EncodedImage& input_image,
	bool /missing_frames/,
	const CodecSpecificInfo* codec_specific_info,
	int64_t /render_time_ms/) {
	if (!IsInitialized()) {
	ReportError();
	return WEBRTC_VIDEO_CODEC_UNINITIALIZED;
	}
	if (!decoded_image_callback_) {
	RTC_LOG(LS_WARNING)
	<< "InitDecode() has been called, but a callback function "
	"has not been set with RegisterDecodeCompleteCallback()";
	ReportError();
	return WEBRTC_VIDEO_CODEC_UNINITIALIZED;
	}
	if (!input_image.data() \|\| !input_image.size()) {
	ReportError();
	return WEBRTC_VIDEO_CODEC_ERR_PARAMETER;
	}
	if (codec_specific_info &&
	codec_specific_info->codecType != kVideoCodecH264) {
	ReportError();
	return WEBRTC_VIDEO_CODEC_ERR_PARAMETER;
	}

	// FFmpeg requires padding due to some optimized bitstream readers reading 32
	// or 64 bits at once and could read over the end. See avcodec_decode_video2.
	RTC_CHECK_GE(input_image.capacity(),
	input_image.size() +
	EncodedImage::GetBufferPaddingBytes(kVideoCodecH264));
	// "If the first 23 bits of the additional bytes are not 0, then damaged MPEG
	// bitstreams could cause overread and segfault." See
	// AV_INPUT_BUFFER_PADDING_SIZE. We'll zero the entire padding just in case.
	memset(input_image.data() + input_image.size(), 0,
	EncodedImage::GetBufferPaddingBytes(kVideoCodecH264));

	AVPacket packet;
	av_init_packet(&packet);
	packet.data = input_image.data();
	if (input_image.size() >
	static_cast<size_t>(std::numeric_limits<int>::max())) {
	ReportError();
	return WEBRTC_VIDEO_CODEC_ERROR;
	}
	packet.size = static_cast<int>(input_image.size());
	int64_t frame_timestamp_us = input_image.ntp_time_ms_ * 1000; // ms -> μs
	av_context_->reordered_opaque = frame_timestamp_us;

	int result = avcodec_send_packet(av_context_.get(), &packet);
	if (result < 0) {
	RTC_LOG(LS_ERROR) << "avcodec_send_packet error: " << result;
	ReportError();
	return WEBRTC_VIDEO_CODEC_ERROR;
	}

	result = avcodec_receive_frame(av_context_.get(), av_frame_.get());
	if (result < 0) {
	RTC_LOG(LS_ERROR) << "avcodec_receive_frame error: " << result;
	ReportError();
	return WEBRTC_VIDEO_CODEC_ERROR;
	}

	// We don't expect reordering. Decoded frame tamestamp should match
	// the input one.
	RTC_DCHECK_EQ(av_frame_->reordered_opaque, frame_timestamp_us);

	// Obtain the \|video_frame\| containing the decoded image.
	VideoFrame* input_frame =
	static_cast<VideoFrame*>(av_buffer_get_opaque(av_frame_->buf[0]));
	RTC_DCHECK(input_frame);
	rtc::scoped_refptr<webrtc::I420BufferInterface> i420_buffer =
	input_frame->video_frame_buffer()->GetI420();
	RTC_CHECK_EQ(av_frame_->data[kYPlaneIndex], i420_buffer->DataY());
	RTC_CHECK_EQ(av_frame_->data[kUPlaneIndex], i420_buffer->DataU());
	RTC_CHECK_EQ(av_frame_->data[kVPlaneIndex], i420_buffer->DataV());

	// Pass on color space from input frame if explicitly specified.
	const ColorSpace& color_space =
	input_frame->color_space() ? *input_frame->color_space()
	: ExtractH264ColorSpace(av_context_.get());
	VideoFrame decoded_frame =
	VideoFrame::Builder()
	.set_video_frame_buffer(input_frame->video_frame_buffer())
	.set_timestamp_us(input_frame->timestamp_us())
	.set_timestamp_rtp(input_image.Timestamp())
	.set_rotation(input_frame->rotation())
	.set_color_space(color_space)
	.build();

	absl::optional<uint8_t> qp;
	// TODO(sakal): Maybe it is possible to get QP directly from FFmpeg.
	h264_bitstream_parser_.ParseBitstream(input_image.data(), input_image.size());
	int qp_int;
	if (h264_bitstream_parser_.GetLastSliceQp(&qp_int)) {
	qp.emplace(qp_int);
	}

	// The decoded image may be larger than what is supposed to be visible, see
	// \|AVGetBuffer2\|'s use of \|avcodec_align_dimensions\|. This crops the image
	// without copying the underlying buffer.
	if (av_frame_->width != i420_buffer->width() \|\|
	av_frame_->height != i420_buffer->height()) {
	rtc::scoped_refptr<VideoFrameBuffer> cropped_buf = WrapI420Buffer(
	av_frame_->width, av_frame_->height, i420_buffer->DataY(),
	i420_buffer->StrideY(), i420_buffer->DataU(), i420_buffer->StrideU(),
	i420_buffer->DataV(), i420_buffer->StrideV(),
	rtc::KeepRefUntilDone(i420_buffer));
	VideoFrame cropped_frame =
	VideoFrame::Builder()
	.set_video_frame_buffer(cropped_buf)
	.set_timestamp_ms(decoded_frame.render_time_ms())
	.set_timestamp_rtp(decoded_frame.timestamp())
	.set_rotation(decoded_frame.rotation())
	.set_color_space(color_space)
	.build();
	// TODO(nisse): Timestamp and rotation are all zero here. Change decoder
	// interface to pass a VideoFrameBuffer instead of a VideoFrame?
	decoded_image_callback_->Decoded(cropped_frame, absl::nullopt, qp);
	} else {
	// Return decoded frame.
	decoded_image_callback_->Decoded(decoded_frame, absl::nullopt, qp);
	}
	// Stop referencing it, possibly freeing \|input_frame\|.
	av_frame_unref(av_frame_.get());
	input_frame = nullptr;

	return WEBRTC_VIDEO_CODEC_OK;
	}

	const char* H264DecoderImpl::ImplementationName() const {
	return "FFmpeg";
	}

	bool H264DecoderImpl::IsInitialized() const {
	return av_context_ != nullptr;
	}

	void H264DecoderImpl::ReportInit() {
	if (has_reported_init_)
	return;
	RTC_HISTOGRAM_ENUMERATION("WebRTC.Video.H264DecoderImpl.Event",
	kH264DecoderEventInit,
	kH264DecoderEventMax);
	has_reported_init_ = true;
	}

	void H264DecoderImpl::ReportError() {
	if (has_reported_error_)
	return;
	RTC_HISTOGRAM_ENUMERATION("WebRTC.Video.H264DecoderImpl.Event",
	kH264DecoderEventError,
	kH264DecoderEventMax);
	has_reported_error_ = true;
	}

	} // namespace webrtc