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294 lines
11 KiB
C++
294 lines
11 KiB
C++
/*
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* Copyright (c) 2020 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/video_quality_observer2.h"
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#include <algorithm>
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#include <cmath>
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#include <cstdint>
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#include <string>
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#include "rtc_base/logging.h"
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#include "rtc_base/strings/string_builder.h"
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#include "system_wrappers/include/metrics.h"
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#include "video/video_receive_stream2.h"
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namespace webrtc {
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namespace internal {
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const uint32_t VideoQualityObserver::kMinFrameSamplesToDetectFreeze = 5;
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const uint32_t VideoQualityObserver::kMinIncreaseForFreezeMs = 150;
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const uint32_t VideoQualityObserver::kAvgInterframeDelaysWindowSizeFrames = 30;
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namespace {
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constexpr int kMinVideoDurationMs = 3000;
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constexpr int kMinRequiredSamples = 1;
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constexpr int kPixelsInHighResolution =
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960 * 540; // CPU-adapted HD still counts.
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constexpr int kPixelsInMediumResolution = 640 * 360;
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constexpr int kBlockyQpThresholdVp8 = 70;
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constexpr int kBlockyQpThresholdVp9 = 180;
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constexpr int kMaxNumCachedBlockyFrames = 100;
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// TODO(ilnik): Add H264/HEVC thresholds.
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} // namespace
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VideoQualityObserver::VideoQualityObserver()
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: last_frame_rendered_ms_(-1),
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num_frames_rendered_(0),
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first_frame_rendered_ms_(-1),
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last_frame_pixels_(0),
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is_last_frame_blocky_(false),
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last_unfreeze_time_ms_(0),
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render_interframe_delays_(kAvgInterframeDelaysWindowSizeFrames),
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sum_squared_interframe_delays_secs_(0.0),
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time_in_resolution_ms_(3, 0),
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current_resolution_(Resolution::Low),
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num_resolution_downgrades_(0),
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time_in_blocky_video_ms_(0),
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is_paused_(false) {}
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void VideoQualityObserver::UpdateHistograms(bool screenshare) {
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// TODO(bugs.webrtc.org/11489): Called on the decoder thread - which _might_
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// be the same as the construction thread.
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// Don't report anything on an empty video stream.
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if (num_frames_rendered_ == 0) {
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return;
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}
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char log_stream_buf[2 * 1024];
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rtc::SimpleStringBuilder log_stream(log_stream_buf);
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if (last_frame_rendered_ms_ > last_unfreeze_time_ms_) {
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smooth_playback_durations_.Add(last_frame_rendered_ms_ -
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last_unfreeze_time_ms_);
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}
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std::string uma_prefix =
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screenshare ? "WebRTC.Video.Screenshare" : "WebRTC.Video";
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auto mean_time_between_freezes =
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smooth_playback_durations_.Avg(kMinRequiredSamples);
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if (mean_time_between_freezes) {
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RTC_HISTOGRAM_COUNTS_SPARSE_100000(uma_prefix + ".MeanTimeBetweenFreezesMs",
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*mean_time_between_freezes);
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log_stream << uma_prefix << ".MeanTimeBetweenFreezesMs "
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<< *mean_time_between_freezes << "\n";
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}
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auto avg_freeze_length = freezes_durations_.Avg(kMinRequiredSamples);
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if (avg_freeze_length) {
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RTC_HISTOGRAM_COUNTS_SPARSE_100000(uma_prefix + ".MeanFreezeDurationMs",
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*avg_freeze_length);
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log_stream << uma_prefix << ".MeanFreezeDurationMs " << *avg_freeze_length
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<< "\n";
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}
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int64_t video_duration_ms =
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last_frame_rendered_ms_ - first_frame_rendered_ms_;
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if (video_duration_ms >= kMinVideoDurationMs) {
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int time_spent_in_hd_percentage = static_cast<int>(
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time_in_resolution_ms_[Resolution::High] * 100 / video_duration_ms);
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RTC_HISTOGRAM_COUNTS_SPARSE_100(uma_prefix + ".TimeInHdPercentage",
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time_spent_in_hd_percentage);
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log_stream << uma_prefix << ".TimeInHdPercentage "
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<< time_spent_in_hd_percentage << "\n";
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int time_with_blocky_video_percentage =
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static_cast<int>(time_in_blocky_video_ms_ * 100 / video_duration_ms);
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RTC_HISTOGRAM_COUNTS_SPARSE_100(uma_prefix + ".TimeInBlockyVideoPercentage",
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time_with_blocky_video_percentage);
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log_stream << uma_prefix << ".TimeInBlockyVideoPercentage "
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<< time_with_blocky_video_percentage << "\n";
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int num_resolution_downgrades_per_minute =
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num_resolution_downgrades_ * 60000 / video_duration_ms;
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RTC_HISTOGRAM_COUNTS_SPARSE_100(
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uma_prefix + ".NumberResolutionDownswitchesPerMinute",
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num_resolution_downgrades_per_minute);
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log_stream << uma_prefix << ".NumberResolutionDownswitchesPerMinute "
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<< num_resolution_downgrades_per_minute << "\n";
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int num_freezes_per_minute =
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freezes_durations_.NumSamples() * 60000 / video_duration_ms;
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RTC_HISTOGRAM_COUNTS_SPARSE_100(uma_prefix + ".NumberFreezesPerMinute",
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num_freezes_per_minute);
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log_stream << uma_prefix << ".NumberFreezesPerMinute "
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<< num_freezes_per_minute << "\n";
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if (sum_squared_interframe_delays_secs_ > 0.0) {
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int harmonic_framerate_fps = std::round(
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video_duration_ms / (1000 * sum_squared_interframe_delays_secs_));
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RTC_HISTOGRAM_COUNTS_SPARSE_100(uma_prefix + ".HarmonicFrameRate",
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harmonic_framerate_fps);
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log_stream << uma_prefix << ".HarmonicFrameRate "
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<< harmonic_framerate_fps << "\n";
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}
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}
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RTC_LOG(LS_INFO) << log_stream.str();
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}
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void VideoQualityObserver::OnRenderedFrame(
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const VideoFrameMetaData& frame_meta) {
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RTC_DCHECK_LE(last_frame_rendered_ms_, frame_meta.decode_timestamp.ms());
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RTC_DCHECK_LE(last_unfreeze_time_ms_, frame_meta.decode_timestamp.ms());
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if (num_frames_rendered_ == 0) {
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first_frame_rendered_ms_ = last_unfreeze_time_ms_ =
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frame_meta.decode_timestamp.ms();
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}
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auto blocky_frame_it = blocky_frames_.find(frame_meta.rtp_timestamp);
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if (num_frames_rendered_ > 0) {
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// Process inter-frame delay.
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const int64_t interframe_delay_ms =
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frame_meta.decode_timestamp.ms() - last_frame_rendered_ms_;
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const double interframe_delays_secs = interframe_delay_ms / 1000.0;
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// Sum of squared inter frame intervals is used to calculate the harmonic
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// frame rate metric. The metric aims to reflect overall experience related
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// to smoothness of video playback and includes both freezes and pauses.
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sum_squared_interframe_delays_secs_ +=
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interframe_delays_secs * interframe_delays_secs;
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if (!is_paused_) {
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render_interframe_delays_.AddSample(interframe_delay_ms);
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bool was_freeze = false;
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if (render_interframe_delays_.Size() >= kMinFrameSamplesToDetectFreeze) {
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const absl::optional<int64_t> avg_interframe_delay =
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render_interframe_delays_.GetAverageRoundedDown();
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RTC_DCHECK(avg_interframe_delay);
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was_freeze = interframe_delay_ms >=
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std::max(3 * *avg_interframe_delay,
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*avg_interframe_delay + kMinIncreaseForFreezeMs);
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}
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if (was_freeze) {
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freezes_durations_.Add(interframe_delay_ms);
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smooth_playback_durations_.Add(last_frame_rendered_ms_ -
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last_unfreeze_time_ms_);
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last_unfreeze_time_ms_ = frame_meta.decode_timestamp.ms();
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} else {
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// Count spatial metrics if there were no freeze.
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time_in_resolution_ms_[current_resolution_] += interframe_delay_ms;
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if (is_last_frame_blocky_) {
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time_in_blocky_video_ms_ += interframe_delay_ms;
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}
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}
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}
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}
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if (is_paused_) {
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// If the stream was paused since the previous frame, do not count the
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// pause toward smooth playback. Explicitly count the part before it and
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// start the new smooth playback interval from this frame.
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is_paused_ = false;
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if (last_frame_rendered_ms_ > last_unfreeze_time_ms_) {
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smooth_playback_durations_.Add(last_frame_rendered_ms_ -
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last_unfreeze_time_ms_);
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}
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last_unfreeze_time_ms_ = frame_meta.decode_timestamp.ms();
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if (num_frames_rendered_ > 0) {
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pauses_durations_.Add(frame_meta.decode_timestamp.ms() -
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last_frame_rendered_ms_);
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}
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}
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int64_t pixels = frame_meta.width * frame_meta.height;
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if (pixels >= kPixelsInHighResolution) {
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current_resolution_ = Resolution::High;
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} else if (pixels >= kPixelsInMediumResolution) {
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current_resolution_ = Resolution::Medium;
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} else {
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current_resolution_ = Resolution::Low;
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}
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if (pixels < last_frame_pixels_) {
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++num_resolution_downgrades_;
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}
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last_frame_pixels_ = pixels;
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last_frame_rendered_ms_ = frame_meta.decode_timestamp.ms();
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is_last_frame_blocky_ = blocky_frame_it != blocky_frames_.end();
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if (is_last_frame_blocky_) {
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blocky_frames_.erase(blocky_frames_.begin(), ++blocky_frame_it);
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}
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++num_frames_rendered_;
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}
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void VideoQualityObserver::OnDecodedFrame(uint32_t rtp_frame_timestamp,
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absl::optional<uint8_t> qp,
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VideoCodecType codec) {
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if (!qp)
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return;
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absl::optional<int> qp_blocky_threshold;
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// TODO(ilnik): add other codec types when we have QP for them.
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switch (codec) {
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case kVideoCodecVP8:
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qp_blocky_threshold = kBlockyQpThresholdVp8;
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break;
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case kVideoCodecVP9:
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qp_blocky_threshold = kBlockyQpThresholdVp9;
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break;
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default:
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qp_blocky_threshold = absl::nullopt;
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}
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RTC_DCHECK(blocky_frames_.find(rtp_frame_timestamp) == blocky_frames_.end());
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if (qp_blocky_threshold && *qp > *qp_blocky_threshold) {
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// Cache blocky frame. Its duration will be calculated in render callback.
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if (blocky_frames_.size() > kMaxNumCachedBlockyFrames) {
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RTC_LOG(LS_WARNING) << "Overflow of blocky frames cache.";
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blocky_frames_.erase(
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blocky_frames_.begin(),
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std::next(blocky_frames_.begin(), kMaxNumCachedBlockyFrames / 2));
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}
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blocky_frames_.insert(rtp_frame_timestamp);
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}
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}
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void VideoQualityObserver::OnStreamInactive() {
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is_paused_ = true;
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}
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uint32_t VideoQualityObserver::NumFreezes() const {
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return freezes_durations_.NumSamples();
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}
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uint32_t VideoQualityObserver::NumPauses() const {
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return pauses_durations_.NumSamples();
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}
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uint32_t VideoQualityObserver::TotalFreezesDurationMs() const {
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return freezes_durations_.Sum(kMinRequiredSamples).value_or(0);
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}
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uint32_t VideoQualityObserver::TotalPausesDurationMs() const {
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return pauses_durations_.Sum(kMinRequiredSamples).value_or(0);
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}
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uint32_t VideoQualityObserver::TotalFramesDurationMs() const {
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return last_frame_rendered_ms_ - first_frame_rendered_ms_;
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}
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double VideoQualityObserver::SumSquaredFrameDurationsSec() const {
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return sum_squared_interframe_delays_secs_;
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}
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} // namespace internal
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} // namespace webrtc
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