/* * 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 "modules/video_coding/frame_object.h" #include #include "api/video/encoded_image.h" #include "api/video/video_timing.h" #include "modules/video_coding/packet.h" #include "modules/video_coding/packet_buffer.h" #include "rtc_base/checks.h" #include "rtc_base/critical_section.h" namespace webrtc { namespace video_coding { RtpFrameObject::RtpFrameObject(PacketBuffer* packet_buffer, uint16_t first_seq_num, uint16_t last_seq_num, size_t frame_size, int times_nacked, int64_t first_packet_received_time, int64_t last_packet_received_time) : packet_buffer_(packet_buffer), first_seq_num_(first_seq_num), last_seq_num_(last_seq_num), last_packet_received_time_(last_packet_received_time), times_nacked_(times_nacked) { VCMPacket* first_packet = packet_buffer_->GetPacket(first_seq_num); RTC_CHECK(first_packet); // EncodedFrame members frame_type_ = first_packet->video_header.frame_type; codec_type_ = first_packet->codec(); // TODO(philipel): Remove when encoded image is replaced by EncodedFrame. // VCMEncodedFrame members CopyCodecSpecific(&first_packet->video_header); _completeFrame = true; _payloadType = first_packet->payloadType; SetTimestamp(first_packet->timestamp); ntp_time_ms_ = first_packet->ntp_time_ms_; _frameType = first_packet->video_header.frame_type; // Setting frame's playout delays to the same values // as of the first packet's. SetPlayoutDelay(first_packet->video_header.playout_delay); // TODO(nisse): Change GetBitstream to return the buffer? SetEncodedData(EncodedImageBuffer::Create(frame_size)); bool bitstream_copied = packet_buffer_->GetBitstream(*this, data()); RTC_DCHECK(bitstream_copied); _encodedWidth = first_packet->width(); _encodedHeight = first_packet->height(); // EncodedFrame members SetTimestamp(first_packet->timestamp); VCMPacket* last_packet = packet_buffer_->GetPacket(last_seq_num); RTC_CHECK(last_packet); RTC_CHECK(last_packet->is_last_packet_in_frame()); // 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; SetColorSpace(last_packet->video_header.color_space); _rotation_set = true; content_type_ = last_packet->video_header.content_type; if (last_packet->video_header.video_timing.flags != VideoSendTiming::kInvalid) { // ntp_time_ms_ may be -1 if not estimated yet. This is not a problem, // as this will be dealt with at the time of reporting. timing_.encode_start_ms = ntp_time_ms_ + last_packet->video_header.video_timing.encode_start_delta_ms; timing_.encode_finish_ms = ntp_time_ms_ + last_packet->video_header.video_timing.encode_finish_delta_ms; timing_.packetization_finish_ms = ntp_time_ms_ + last_packet->video_header.video_timing.packetization_finish_delta_ms; timing_.pacer_exit_ms = ntp_time_ms_ + last_packet->video_header.video_timing.pacer_exit_delta_ms; timing_.network_timestamp_ms = ntp_time_ms_ + last_packet->video_header.video_timing.network_timestamp_delta_ms; timing_.network2_timestamp_ms = ntp_time_ms_ + last_packet->video_header.video_timing.network2_timestamp_delta_ms; } timing_.receive_start_ms = first_packet_received_time; timing_.receive_finish_ms = last_packet_received_time; timing_.flags = last_packet->video_header.video_timing.flags; is_last_spatial_layer = last_packet->markerBit; } 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_; } VideoFrameType RtpFrameObject::frame_type() const { return frame_type_; } VideoCodecType RtpFrameObject::codec_type() const { return codec_type_; } int64_t RtpFrameObject::ReceivedTime() const { return last_packet_received_time_; } int64_t RtpFrameObject::RenderTime() const { return _renderTimeMs; } bool RtpFrameObject::delayed_by_retransmission() const { return times_nacked() > 0; } absl::optional RtpFrameObject::GetRtpVideoHeader() const { rtc::CritScope lock(&packet_buffer_->crit_); VCMPacket* packet = packet_buffer_->GetPacket(first_seq_num_); if (!packet) return absl::nullopt; return packet->video_header; } absl::optional RtpFrameObject::GetGenericFrameDescriptor() const { rtc::CritScope lock(&packet_buffer_->crit_); VCMPacket* packet = packet_buffer_->GetPacket(first_seq_num_); if (!packet) return absl::nullopt; return packet->generic_descriptor; } absl::optional RtpFrameObject::GetFrameMarking() const { rtc::CritScope lock(&packet_buffer_->crit_); VCMPacket* packet = packet_buffer_->GetPacket(first_seq_num_); if (!packet) return absl::nullopt; return packet->video_header.frame_marking; } } // namespace video_coding } // namespace webrtc