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297 lines
11 KiB
C++
297 lines
11 KiB
C++
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/*
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* Copyright (c) 2019 The WebRTC project authors. All Rights Reserved.
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*
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* Use of this source code is governed by a BSD-style license
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* that can be found in the LICENSE file in the root of the source
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* tree. An additional intellectual property rights grant can be found
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* in the file PATENTS. All contributing project authors may
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* be found in the AUTHORS file in the root of the source tree.
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*/
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#include "video/frame_encode_metadata_writer.h"
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#include <algorithm>
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#include <utility>
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#include "common_video/h264/sps_vui_rewriter.h"
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#include "modules/include/module_common_types_public.h"
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#include "modules/video_coding/include/video_coding_defines.h"
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#include "rtc_base/logging.h"
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#include "rtc_base/ref_counted_object.h"
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#include "rtc_base/time_utils.h"
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namespace webrtc {
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namespace {
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const int kMessagesThrottlingThreshold = 2;
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const int kThrottleRatio = 100000;
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class EncodedImageBufferWrapper : public EncodedImageBufferInterface {
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public:
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explicit EncodedImageBufferWrapper(rtc::Buffer&& buffer)
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: buffer_(std::move(buffer)) {}
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const uint8_t* data() const override { return buffer_.data(); }
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uint8_t* data() override { return buffer_.data(); }
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size_t size() const override { return buffer_.size(); }
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private:
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rtc::Buffer buffer_;
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};
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} // namespace
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FrameEncodeMetadataWriter::TimingFramesLayerInfo::TimingFramesLayerInfo() =
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default;
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FrameEncodeMetadataWriter::TimingFramesLayerInfo::~TimingFramesLayerInfo() =
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default;
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FrameEncodeMetadataWriter::FrameEncodeMetadataWriter(
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EncodedImageCallback* frame_drop_callback)
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: frame_drop_callback_(frame_drop_callback),
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internal_source_(false),
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framerate_fps_(0),
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last_timing_frame_time_ms_(-1),
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reordered_frames_logged_messages_(0),
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stalled_encoder_logged_messages_(0) {
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codec_settings_.timing_frame_thresholds = {-1, 0};
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}
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FrameEncodeMetadataWriter::~FrameEncodeMetadataWriter() {}
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void FrameEncodeMetadataWriter::OnEncoderInit(const VideoCodec& codec,
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bool internal_source) {
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MutexLock lock(&lock_);
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codec_settings_ = codec;
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internal_source_ = internal_source;
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}
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void FrameEncodeMetadataWriter::OnSetRates(
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const VideoBitrateAllocation& bitrate_allocation,
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uint32_t framerate_fps) {
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MutexLock lock(&lock_);
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framerate_fps_ = framerate_fps;
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const size_t num_spatial_layers = NumSpatialLayers();
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if (timing_frames_info_.size() < num_spatial_layers) {
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timing_frames_info_.resize(num_spatial_layers);
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}
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for (size_t i = 0; i < num_spatial_layers; ++i) {
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timing_frames_info_[i].target_bitrate_bytes_per_sec =
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bitrate_allocation.GetSpatialLayerSum(i) / 8;
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}
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}
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void FrameEncodeMetadataWriter::OnEncodeStarted(const VideoFrame& frame) {
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MutexLock lock(&lock_);
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if (internal_source_) {
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return;
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}
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const size_t num_spatial_layers = NumSpatialLayers();
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timing_frames_info_.resize(num_spatial_layers);
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FrameMetadata metadata;
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metadata.rtp_timestamp = frame.timestamp();
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metadata.encode_start_time_ms = rtc::TimeMillis();
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metadata.ntp_time_ms = frame.ntp_time_ms();
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metadata.timestamp_us = frame.timestamp_us();
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metadata.rotation = frame.rotation();
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metadata.color_space = frame.color_space();
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metadata.packet_infos = frame.packet_infos();
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for (size_t si = 0; si < num_spatial_layers; ++si) {
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RTC_DCHECK(timing_frames_info_[si].frames.empty() ||
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rtc::TimeDiff(
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frame.render_time_ms(),
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timing_frames_info_[si].frames.back().timestamp_us / 1000) >=
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0);
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// If stream is disabled due to low bandwidth OnEncodeStarted still will be
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// called and have to be ignored.
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if (timing_frames_info_[si].target_bitrate_bytes_per_sec == 0)
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continue;
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if (timing_frames_info_[si].frames.size() == kMaxEncodeStartTimeListSize) {
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++stalled_encoder_logged_messages_;
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if (stalled_encoder_logged_messages_ <= kMessagesThrottlingThreshold ||
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stalled_encoder_logged_messages_ % kThrottleRatio == 0) {
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RTC_LOG(LS_WARNING) << "Too many frames in the encode_start_list."
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" Did encoder stall?";
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if (stalled_encoder_logged_messages_ == kMessagesThrottlingThreshold) {
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RTC_LOG(LS_WARNING)
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<< "Too many log messages. Further stalled encoder"
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"warnings will be throttled.";
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}
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}
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frame_drop_callback_->OnDroppedFrame(
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EncodedImageCallback::DropReason::kDroppedByEncoder);
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timing_frames_info_[si].frames.pop_front();
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}
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timing_frames_info_[si].frames.emplace_back(metadata);
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}
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}
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void FrameEncodeMetadataWriter::FillTimingInfo(size_t simulcast_svc_idx,
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EncodedImage* encoded_image) {
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MutexLock lock(&lock_);
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absl::optional<size_t> outlier_frame_size;
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absl::optional<int64_t> encode_start_ms;
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uint8_t timing_flags = VideoSendTiming::kNotTriggered;
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int64_t encode_done_ms = rtc::TimeMillis();
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// Encoders with internal sources do not call OnEncodeStarted
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// |timing_frames_info_| may be not filled here.
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if (!internal_source_) {
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encode_start_ms =
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ExtractEncodeStartTimeAndFillMetadata(simulcast_svc_idx, encoded_image);
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}
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if (timing_frames_info_.size() > simulcast_svc_idx) {
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size_t target_bitrate =
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timing_frames_info_[simulcast_svc_idx].target_bitrate_bytes_per_sec;
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if (framerate_fps_ > 0 && target_bitrate > 0) {
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// framerate and target bitrate were reported by encoder.
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size_t average_frame_size = target_bitrate / framerate_fps_;
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outlier_frame_size.emplace(
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average_frame_size *
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codec_settings_.timing_frame_thresholds.outlier_ratio_percent / 100);
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}
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}
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// Outliers trigger timing frames, but do not affect scheduled timing
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// frames.
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if (outlier_frame_size && encoded_image->size() >= *outlier_frame_size) {
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timing_flags |= VideoSendTiming::kTriggeredBySize;
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}
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// Check if it's time to send a timing frame.
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int64_t timing_frame_delay_ms =
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encoded_image->capture_time_ms_ - last_timing_frame_time_ms_;
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// Trigger threshold if it's a first frame, too long passed since the last
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// timing frame, or we already sent timing frame on a different simulcast
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// stream with the same capture time.
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if (last_timing_frame_time_ms_ == -1 ||
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timing_frame_delay_ms >=
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codec_settings_.timing_frame_thresholds.delay_ms ||
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timing_frame_delay_ms == 0) {
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timing_flags |= VideoSendTiming::kTriggeredByTimer;
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last_timing_frame_time_ms_ = encoded_image->capture_time_ms_;
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}
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// Workaround for chromoting encoder: it passes encode start and finished
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// timestamps in |timing_| field, but they (together with capture timestamp)
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// are not in the WebRTC clock.
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if (internal_source_ && encoded_image->timing_.encode_finish_ms > 0 &&
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encoded_image->timing_.encode_start_ms > 0) {
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int64_t clock_offset_ms =
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encode_done_ms - encoded_image->timing_.encode_finish_ms;
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// Translate capture timestamp to local WebRTC clock.
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encoded_image->capture_time_ms_ += clock_offset_ms;
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encoded_image->SetTimestamp(
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static_cast<uint32_t>(encoded_image->capture_time_ms_ * 90));
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encode_start_ms.emplace(encoded_image->timing_.encode_start_ms +
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clock_offset_ms);
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}
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// If encode start is not available that means that encoder uses internal
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// source. In that case capture timestamp may be from a different clock with a
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// drift relative to rtc::TimeMillis(). We can't use it for Timing frames,
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// because to being sent in the network capture time required to be less than
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// all the other timestamps.
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if (encode_start_ms) {
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encoded_image->SetEncodeTime(*encode_start_ms, encode_done_ms);
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encoded_image->timing_.flags = timing_flags;
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} else {
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encoded_image->timing_.flags = VideoSendTiming::kInvalid;
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}
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}
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void FrameEncodeMetadataWriter::UpdateBitstream(
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const CodecSpecificInfo* codec_specific_info,
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EncodedImage* encoded_image) {
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if (!codec_specific_info ||
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codec_specific_info->codecType != kVideoCodecH264 ||
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encoded_image->_frameType != VideoFrameType::kVideoFrameKey) {
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return;
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}
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// Make sure that the data is not copied if owned by EncodedImage.
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const EncodedImage& buffer = *encoded_image;
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rtc::Buffer modified_buffer =
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SpsVuiRewriter::ParseOutgoingBitstreamAndRewriteSps(
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buffer, encoded_image->ColorSpace());
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encoded_image->SetEncodedData(
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new rtc::RefCountedObject<EncodedImageBufferWrapper>(
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std::move(modified_buffer)));
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}
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void FrameEncodeMetadataWriter::Reset() {
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MutexLock lock(&lock_);
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for (auto& info : timing_frames_info_) {
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info.frames.clear();
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}
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last_timing_frame_time_ms_ = -1;
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reordered_frames_logged_messages_ = 0;
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stalled_encoder_logged_messages_ = 0;
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}
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absl::optional<int64_t>
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FrameEncodeMetadataWriter::ExtractEncodeStartTimeAndFillMetadata(
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size_t simulcast_svc_idx,
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EncodedImage* encoded_image) {
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absl::optional<int64_t> result;
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size_t num_simulcast_svc_streams = timing_frames_info_.size();
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if (simulcast_svc_idx < num_simulcast_svc_streams) {
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auto metadata_list = &timing_frames_info_[simulcast_svc_idx].frames;
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// Skip frames for which there was OnEncodeStarted but no OnEncodedImage
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// call. These are dropped by encoder internally.
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// Because some hardware encoders don't preserve capture timestamp we
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// use RTP timestamps here.
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while (!metadata_list->empty() &&
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IsNewerTimestamp(encoded_image->Timestamp(),
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metadata_list->front().rtp_timestamp)) {
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frame_drop_callback_->OnDroppedFrame(
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EncodedImageCallback::DropReason::kDroppedByEncoder);
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metadata_list->pop_front();
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}
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encoded_image->content_type_ =
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(codec_settings_.mode == VideoCodecMode::kScreensharing)
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? VideoContentType::SCREENSHARE
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: VideoContentType::UNSPECIFIED;
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if (!metadata_list->empty() &&
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metadata_list->front().rtp_timestamp == encoded_image->Timestamp()) {
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result.emplace(metadata_list->front().encode_start_time_ms);
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encoded_image->capture_time_ms_ =
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metadata_list->front().timestamp_us / 1000;
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encoded_image->ntp_time_ms_ = metadata_list->front().ntp_time_ms;
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encoded_image->rotation_ = metadata_list->front().rotation;
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encoded_image->SetColorSpace(metadata_list->front().color_space);
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encoded_image->SetPacketInfos(metadata_list->front().packet_infos);
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metadata_list->pop_front();
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} else {
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++reordered_frames_logged_messages_;
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if (reordered_frames_logged_messages_ <= kMessagesThrottlingThreshold ||
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reordered_frames_logged_messages_ % kThrottleRatio == 0) {
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RTC_LOG(LS_WARNING) << "Frame with no encode started time recordings. "
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"Encoder may be reordering frames "
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"or not preserving RTP timestamps.";
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if (reordered_frames_logged_messages_ == kMessagesThrottlingThreshold) {
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RTC_LOG(LS_WARNING) << "Too many log messages. Further frames "
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"reordering warnings will be throttled.";
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}
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}
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}
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}
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return result;
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}
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size_t FrameEncodeMetadataWriter::NumSpatialLayers() const {
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size_t num_spatial_layers = codec_settings_.numberOfSimulcastStreams;
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if (codec_settings_.codecType == kVideoCodecVP9) {
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num_spatial_layers = std::max(
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num_spatial_layers,
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static_cast<size_t>(codec_settings_.VP9().numberOfSpatialLayers));
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}
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return std::max(num_spatial_layers, size_t{1});
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}
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} // namespace webrtc
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