/* * 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 "modules/video_coding/frame_buffer.h" #include #include #include "api/video/encoded_image.h" #include "api/video/video_timing.h" #include "modules/video_coding/include/video_codec_interface.h" #include "modules/video_coding/packet.h" #include "rtc_base/checks.h" #include "rtc_base/logging.h" #include "rtc_base/trace_event.h" namespace webrtc { VCMFrameBuffer::VCMFrameBuffer() : _state(kStateEmpty), _nackCount(0), _latestPacketTimeMs(-1) {} VCMFrameBuffer::~VCMFrameBuffer() {} webrtc::VideoFrameType VCMFrameBuffer::FrameType() const { return _sessionInfo.FrameType(); } int32_t VCMFrameBuffer::GetLowSeqNum() const { return _sessionInfo.LowSequenceNumber(); } int32_t VCMFrameBuffer::GetHighSeqNum() const { return _sessionInfo.HighSequenceNumber(); } int VCMFrameBuffer::PictureId() const { return _sessionInfo.PictureId(); } int VCMFrameBuffer::TemporalId() const { return _sessionInfo.TemporalId(); } bool VCMFrameBuffer::LayerSync() const { return _sessionInfo.LayerSync(); } int VCMFrameBuffer::Tl0PicId() const { return _sessionInfo.Tl0PicId(); } std::vector VCMFrameBuffer::GetNaluInfos() const { return _sessionInfo.GetNaluInfos(); } void VCMFrameBuffer::SetGofInfo(const GofInfoVP9& gof_info, size_t idx) { TRACE_EVENT0("webrtc", "VCMFrameBuffer::SetGofInfo"); _sessionInfo.SetGofInfo(gof_info, idx); // TODO(asapersson): Consider adding hdr->VP9.ref_picture_id for testing. _codecSpecificInfo.codecSpecific.VP9.temporal_idx = gof_info.temporal_idx[idx]; _codecSpecificInfo.codecSpecific.VP9.temporal_up_switch = gof_info.temporal_up_switch[idx]; } bool VCMFrameBuffer::IsSessionComplete() const { TRACE_EVENT0("webrtc", "VCMFrameBuffer::IsSessionComplete"); return _sessionInfo.complete(); } // Insert packet VCMFrameBufferEnum VCMFrameBuffer::InsertPacket(const VCMPacket& packet, int64_t timeInMs, const FrameData& frame_data) { TRACE_EVENT0("webrtc", "VCMFrameBuffer::InsertPacket"); assert(!(NULL == packet.dataPtr && packet.sizeBytes > 0)); if (packet.dataPtr != NULL) { _payloadType = packet.payloadType; } if (kStateEmpty == _state) { // First packet (empty and/or media) inserted into this frame. // store some info and set some initial values. SetTimestamp(packet.timestamp); // We only take the ntp timestamp of the first packet of a frame. ntp_time_ms_ = packet.ntp_time_ms_; _codec = packet.codec(); if (packet.video_header.frame_type != VideoFrameType::kEmptyFrame) { // first media packet SetState(kStateIncomplete); } } uint32_t requiredSizeBytes = size() + packet.sizeBytes + (packet.insertStartCode ? kH264StartCodeLengthBytes : 0); if (requiredSizeBytes > capacity()) { const uint8_t* prevBuffer = data(); const uint32_t increments = requiredSizeBytes / kBufferIncStepSizeBytes + (requiredSizeBytes % kBufferIncStepSizeBytes > 0); const uint32_t newSize = capacity() + increments * kBufferIncStepSizeBytes; if (newSize > kMaxJBFrameSizeBytes) { RTC_LOG(LS_ERROR) << "Failed to insert packet due to frame being too " "big."; return kSizeError; } if (data() == nullptr) { encoded_image_buffer_ = EncodedImageBuffer::Create(newSize); SetEncodedData(encoded_image_buffer_); set_size(0); } else { RTC_CHECK(encoded_image_buffer_ != nullptr); RTC_DCHECK_EQ(encoded_image_buffer_->data(), data()); encoded_image_buffer_->Realloc(newSize); } _sessionInfo.UpdateDataPointers(prevBuffer, data()); } if (packet.width() > 0 && packet.height() > 0) { _encodedWidth = packet.width(); _encodedHeight = packet.height(); } // Don't copy payload specific data for empty packets (e.g padding packets). if (packet.sizeBytes > 0) CopyCodecSpecific(&packet.video_header); int retVal = _sessionInfo.InsertPacket(packet, data(), frame_data); if (retVal == -1) { return kSizeError; } else if (retVal == -2) { return kDuplicatePacket; } else if (retVal == -3) { return kOutOfBoundsPacket; } // update size set_size(size() + static_cast(retVal)); _latestPacketTimeMs = timeInMs; // 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)). if (packet.markerBit) { rotation_ = packet.video_header.rotation; content_type_ = packet.video_header.content_type; if (packet.video_header.video_timing.flags != VideoSendTiming::kInvalid) { timing_.encode_start_ms = ntp_time_ms_ + packet.video_header.video_timing.encode_start_delta_ms; timing_.encode_finish_ms = ntp_time_ms_ + packet.video_header.video_timing.encode_finish_delta_ms; timing_.packetization_finish_ms = ntp_time_ms_ + packet.video_header.video_timing.packetization_finish_delta_ms; timing_.pacer_exit_ms = ntp_time_ms_ + packet.video_header.video_timing.pacer_exit_delta_ms; timing_.network_timestamp_ms = ntp_time_ms_ + packet.video_header.video_timing.network_timestamp_delta_ms; timing_.network2_timestamp_ms = ntp_time_ms_ + packet.video_header.video_timing.network2_timestamp_delta_ms; } timing_.flags = packet.video_header.video_timing.flags; } if (packet.is_first_packet_in_frame()) { playout_delay_ = packet.video_header.playout_delay; } if (_sessionInfo.complete()) { SetState(kStateComplete); return kCompleteSession; } return kIncomplete; } int64_t VCMFrameBuffer::LatestPacketTimeMs() const { TRACE_EVENT0("webrtc", "VCMFrameBuffer::LatestPacketTimeMs"); return _latestPacketTimeMs; } void VCMFrameBuffer::IncrementNackCount() { TRACE_EVENT0("webrtc", "VCMFrameBuffer::IncrementNackCount"); _nackCount++; } int16_t VCMFrameBuffer::GetNackCount() const { TRACE_EVENT0("webrtc", "VCMFrameBuffer::GetNackCount"); return _nackCount; } bool VCMFrameBuffer::HaveFirstPacket() const { TRACE_EVENT0("webrtc", "VCMFrameBuffer::HaveFirstPacket"); return _sessionInfo.HaveFirstPacket(); } int VCMFrameBuffer::NumPackets() const { TRACE_EVENT0("webrtc", "VCMFrameBuffer::NumPackets"); return _sessionInfo.NumPackets(); } void VCMFrameBuffer::Reset() { TRACE_EVENT0("webrtc", "VCMFrameBuffer::Reset"); set_size(0); _sessionInfo.Reset(); _payloadType = 0; _nackCount = 0; _latestPacketTimeMs = -1; _state = kStateEmpty; VCMEncodedFrame::Reset(); } // Set state of frame void VCMFrameBuffer::SetState(VCMFrameBufferStateEnum state) { TRACE_EVENT0("webrtc", "VCMFrameBuffer::SetState"); if (_state == state) { return; } switch (state) { case kStateIncomplete: // we can go to this state from state kStateEmpty assert(_state == kStateEmpty); // Do nothing, we received a packet break; case kStateComplete: assert(_state == kStateEmpty || _state == kStateIncomplete); break; case kStateEmpty: // Should only be set to empty through Reset(). assert(false); break; } _state = state; } // Get current state of frame VCMFrameBufferStateEnum VCMFrameBuffer::GetState() const { return _state; } void VCMFrameBuffer::PrepareForDecode(bool continuous) { TRACE_EVENT0("webrtc", "VCMFrameBuffer::PrepareForDecode"); size_t bytes_removed = _sessionInfo.MakeDecodable(); set_size(size() - bytes_removed); // Transfer frame information to EncodedFrame and create any codec // specific information. _frameType = _sessionInfo.FrameType(); _completeFrame = _sessionInfo.complete(); _missingFrame = !continuous; } } // namespace webrtc