webrtc/modules/video_coding/frame_object.cc

/*
 *  Copyright (c) 2016 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/common_video/h264/h264_common.h"
#include "webrtc/modules/video_coding/frame_object.h"
#include "webrtc/modules/video_coding/packet_buffer.h"

namespace webrtc {
namespace video_coding {

FrameObject::FrameObject()
    : picture_id(0),
      spatial_layer(0),
      timestamp(0),
      num_references(0),
      inter_layer_predicted(false) {}

RtpFrameObject::RtpFrameObject(PacketBuffer* packet_buffer,
                               uint16_t first_seq_num,
                               uint16_t last_seq_num,
                               size_t frame_size,
                               int times_nacked,
                               int64_t received_time)
    : packet_buffer_(packet_buffer),
      first_seq_num_(first_seq_num),
      last_seq_num_(last_seq_num),
      received_time_(received_time),
      times_nacked_(times_nacked) {
  VCMPacket* first_packet = packet_buffer_->GetPacket(first_seq_num);
  RTC_DCHECK(first_packet);

  // RtpFrameObject members
  frame_type_ = first_packet->frameType;
  codec_type_ = first_packet->codec;

  // TODO(philipel): Remove when encoded image is replaced by FrameObject.
  // VCMEncodedFrame members
  CopyCodecSpecific(&first_packet->video_header);
  _completeFrame = true;
  _payloadType = first_packet->payloadType;
  _timeStamp = first_packet->timestamp;
  ntp_time_ms_ = first_packet->ntp_time_ms_;

  // Setting frame's playout delays to the same values
  // as of the first packet's.
  SetPlayoutDelay(first_packet->video_header.playout_delay);

  // Since FFmpeg use an optimized bitstream reader that reads in chunks of
  // 32/64 bits we have to add at least that much padding to the buffer
  // to make sure the decoder doesn't read out of bounds.
  // NOTE! EncodedImage::_size is the size of the buffer (think capacity of
  //       an std::vector) and EncodedImage::_length is the actual size of
  //       the bitstream (think size of an std::vector).
  if (codec_type_ == kVideoCodecH264)
    _size = frame_size + EncodedImage::kBufferPaddingBytesH264;
  else
    _size = frame_size;

  _buffer = new uint8_t[_size];
  _length = frame_size;

  // For H264 frames we can't determine the frame type by just looking at the
  // first packet. Instead we consider the frame to be a keyframe if it
  // contains an IDR NALU.
  if (codec_type_ == kVideoCodecH264) {
    _frameType = kVideoFrameDelta;
    frame_type_ = kVideoFrameDelta;
    for (uint16_t seq_num = first_seq_num;
         seq_num != last_seq_num + 1 && _frameType == kVideoFrameDelta;
         ++seq_num) {
      VCMPacket* packet = packet_buffer_->GetPacket(seq_num);
      RTC_DCHECK(packet);
      const RTPVideoHeaderH264& header = packet->video_header.codecHeader.H264;
      for (size_t i = 0; i < header.nalus_length; ++i) {
        if (header.nalus[i].type == H264::NaluType::kIdr) {
          _frameType = kVideoFrameKey;
          frame_type_ = kVideoFrameKey;
          break;
        }
      }
    }
  } else {
    _frameType = first_packet->frameType;
    frame_type_ = first_packet->frameType;
  }

  GetBitstream(_buffer);
  _encodedWidth = first_packet->width;
  _encodedHeight = first_packet->height;

  // FrameObject members
  timestamp = first_packet->timestamp;

  VCMPacket* last_packet = packet_buffer_->GetPacket(last_seq_num);
  RTC_DCHECK(last_packet && last_packet->markerBit);
  // http://www.etsi.org/deliver/etsi_ts/126100_126199/126114/12.07.00_60/
  // ts_126114v120700p.pdf Section 7.4.5.
  // The MTSI client shall add the payload bytes as defined in this clause
  // onto the last RTP packet in each group of packets which make up a key
  // frame (I-frame or IDR frame in H.264 (AVC), or an IRAP picture in H.265
  // (HEVC)).
  rotation_ = last_packet->video_header.rotation;
  _rotation_set = true;
  content_type_ = last_packet->video_header.content_type;
}

RtpFrameObject::~RtpFrameObject() {
  packet_buffer_->ReturnFrame(this);
}

uint16_t RtpFrameObject::first_seq_num() const {
  return first_seq_num_;
}

uint16_t RtpFrameObject::last_seq_num() const {
  return last_seq_num_;
}

int RtpFrameObject::times_nacked() const {
  return times_nacked_;
}

FrameType RtpFrameObject::frame_type() const {
  return frame_type_;
}

VideoCodecType RtpFrameObject::codec_type() const {
  return codec_type_;
}

bool RtpFrameObject::GetBitstream(uint8_t* destination) const {
  return packet_buffer_->GetBitstream(*this, destination);
}

uint32_t RtpFrameObject::Timestamp() const {
  return timestamp_;
}

int64_t RtpFrameObject::ReceivedTime() const {
  return received_time_;
}

int64_t RtpFrameObject::RenderTime() const {
  return _renderTimeMs;
}

bool RtpFrameObject::delayed_by_retransmission() const {
  return times_nacked() > 0;
}

rtc::Optional<RTPVideoTypeHeader> RtpFrameObject::GetCodecHeader() const {
  rtc::CritScope lock(&packet_buffer_->crit_);
  VCMPacket* packet = packet_buffer_->GetPacket(first_seq_num_);
  if (!packet)
    return rtc::Optional<RTPVideoTypeHeader>();
  return rtc::Optional<RTPVideoTypeHeader>(packet->video_header.codecHeader);
}

}  // namespace video_coding
}  // namespace webrtc