test/scenario/stats_collection.cc - src - Git at Google

 /*
  *  Copyright 2019 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 "test/scenario/stats_collection.h"

 #include "common_video/libyuv/include/webrtc_libyuv.h"
 #include "rtc_base/memory_usage.h"
 #include "rtc_base/thread.h"

 namespace webrtc {
 namespace test {

 VideoQualityAnalyzer::VideoQualityAnalyzer(
     VideoQualityAnalyzerConfig config,
     std::unique_ptr<RtcEventLogOutput> writer)
     : config_(config), writer_(std::move(writer)) {
   if (writer_) {
     PrintHeaders();
   }
 }

 VideoQualityAnalyzer::~VideoQualityAnalyzer() = default;

 void VideoQualityAnalyzer::PrintHeaders() {
   writer_->Write(
       "capture_time render_time capture_width capture_height render_width "
       "render_height psnr\n");
 }

 std::function<void(const VideoFramePair&)> VideoQualityAnalyzer::Handler() {
   return [this](VideoFramePair pair) { HandleFramePair(pair); };
 }

 void VideoQualityAnalyzer::HandleFramePair(VideoFramePair sample, double psnr) {
   layer_analyzers_[sample.layer_id].HandleFramePair(sample, psnr,
                                                     writer_.get());
   cached_.reset();
 }

 void VideoQualityAnalyzer::HandleFramePair(VideoFramePair sample) {
   double psnr = NAN;
   if (sample.decoded)
     psnr = I420PSNR(*sample.captured->ToI420(), *sample.decoded->ToI420());

   if (config_.thread) {
     config_.thread->PostTask(RTC_FROM_HERE, [this, sample, psnr] {
       HandleFramePair(std::move(sample), psnr);
     });
   } else {
     HandleFramePair(std::move(sample), psnr);
   }
 }

 std::vector<VideoQualityStats> VideoQualityAnalyzer::layer_stats() const {
   std::vector<VideoQualityStats> res;
   for (auto& layer : layer_analyzers_)
     res.push_back(layer.second.stats_);
   return res;
 }

 VideoQualityStats& VideoQualityAnalyzer::stats() {
   if (!cached_) {
     cached_ = VideoQualityStats();
     for (auto& layer : layer_analyzers_)
       cached_->AddStats(layer.second.stats_);
   }
   return *cached_;
 }

 void VideoLayerAnalyzer::HandleFramePair(VideoFramePair sample,
                                          double psnr,
                                          RtcEventLogOutput* writer) {
   RTC_CHECK(sample.captured);
   HandleCapturedFrame(sample);
   if (!sample.decoded) {
     // Can only happen in the beginning of a call or if the resolution is
     // reduced. Otherwise we will detect a freeze.
     ++stats_.lost_count;
     ++skip_count_;
   } else {
     stats_.psnr_with_freeze.AddSample(psnr);
     if (sample.repeated) {
       ++stats_.freeze_count;
       ++skip_count_;
     } else {
       stats_.psnr.AddSample(psnr);
       HandleRenderedFrame(sample);
     }
   }
   if (writer) {
     LogWriteFormat(writer, "%.3f %.3f %.3f %i %i %i %i %.3f\n",
                    sample.capture_time.seconds<double>(),
                    sample.render_time.seconds<double>(),
                    sample.captured->width(), sample.captured->height(),
                    sample.decoded ? sample.decoded->width() : 0,
                    sample.decoded ? sample.decoded->height() : 0, psnr);
   }
 }

 void VideoLayerAnalyzer::HandleCapturedFrame(const VideoFramePair& sample) {
   stats_.capture.AddFrameInfo(*sample.captured, sample.capture_time);
   if (last_freeze_time_.IsInfinite())
     last_freeze_time_ = sample.capture_time;
 }

 void VideoLayerAnalyzer::HandleRenderedFrame(const VideoFramePair& sample) {
   stats_.capture_to_decoded_delay.AddSample(sample.decoded_time -
                                             sample.capture_time);
   stats_.end_to_end_delay.AddSample(sample.render_time - sample.capture_time);
   stats_.render.AddFrameInfo(*sample.decoded, sample.render_time);
   stats_.skipped_between_rendered.AddSample(skip_count_);
   skip_count_ = 0;

   if (last_render_time_.IsFinite()) {
     RTC_DCHECK(sample.render_time.IsFinite());
     TimeDelta render_interval = sample.render_time - last_render_time_;
     TimeDelta mean_interval = stats_.render.frames.interval().Mean();
     if (render_interval > TimeDelta::Millis(150) + mean_interval ||
         render_interval > 3 * mean_interval) {
       stats_.freeze_duration.AddSample(render_interval);
       stats_.time_between_freezes.AddSample(last_render_time_ -
                                             last_freeze_time_);
       last_freeze_time_ = sample.render_time;
     }
   }
   last_render_time_ = sample.render_time;
 }

 void CallStatsCollector::AddStats(Call::Stats sample) {
   if (sample.send_bandwidth_bps > 0)
     stats_.target_rate.AddSampleBps(sample.send_bandwidth_bps);
   if (sample.pacer_delay_ms > 0)
     stats_.pacer_delay.AddSample(TimeDelta::Millis(sample.pacer_delay_ms));
   if (sample.rtt_ms > 0)
     stats_.round_trip_time.AddSample(TimeDelta::Millis(sample.rtt_ms));
   stats_.memory_usage.AddSample(rtc::GetProcessResidentSizeBytes());
 }

 void AudioReceiveStatsCollector::AddStats(AudioReceiveStream::Stats sample) {
   stats_.expand_rate.AddSample(sample.expand_rate);
   stats_.accelerate_rate.AddSample(sample.accelerate_rate);
   stats_.jitter_buffer.AddSampleMs(sample.jitter_buffer_ms);
 }

 void VideoSendStatsCollector::AddStats(VideoSendStream::Stats sample,
                                        Timestamp at_time) {
   // It's not certain that we yet have estimates for any of these stats.
   // Check that they are positive before mixing them in.
   if (sample.encode_frame_rate <= 0)
     return;

   stats_.encode_frame_rate.AddSample(sample.encode_frame_rate);
   stats_.encode_time.AddSampleMs(sample.avg_encode_time_ms);
   stats_.encode_usage.AddSample(sample.encode_usage_percent / 100.0);
   stats_.media_bitrate.AddSampleBps(sample.media_bitrate_bps);

   size_t fec_bytes = 0;
   for (const auto& kv : sample.substreams) {
     fec_bytes += kv.second.rtp_stats.fec.payload_bytes +
                  kv.second.rtp_stats.fec.padding_bytes;
   }
   if (last_update_.IsFinite()) {
     auto fec_delta = DataSize::Bytes(fec_bytes - last_fec_bytes_);
     auto time_delta = at_time - last_update_;
     stats_.fec_bitrate.AddSample(fec_delta / time_delta);
   }
   last_fec_bytes_ = fec_bytes;
   last_update_ = at_time;
 }

 void VideoReceiveStatsCollector::AddStats(VideoReceiveStream::Stats sample) {
   if (sample.decode_ms > 0)
     stats_.decode_time.AddSampleMs(sample.decode_ms);
   if (sample.max_decode_ms > 0)
     stats_.decode_time_max.AddSampleMs(sample.max_decode_ms);
   if (sample.width > 0 && sample.height > 0) {
     stats_.decode_pixels.AddSample(sample.width * sample.height);
     stats_.resolution.AddSample(sample.height);
   }
 }
 }  // namespace test
 }  // namespace webrtc
	/*
	* Copyright 2019 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 "test/scenario/stats_collection.h"

	#include "common_video/libyuv/include/webrtc_libyuv.h"
	#include "rtc_base/memory_usage.h"
	#include "rtc_base/thread.h"

	namespace webrtc {
	namespace test {

	VideoQualityAnalyzer::VideoQualityAnalyzer(
	VideoQualityAnalyzerConfig config,
	std::unique_ptr<RtcEventLogOutput> writer)
	: config_(config), writer_(std::move(writer)) {
	if (writer_) {
	PrintHeaders();
	}
	}

	VideoQualityAnalyzer::~VideoQualityAnalyzer() = default;

	void VideoQualityAnalyzer::PrintHeaders() {
	writer_->Write(
	"capture_time render_time capture_width capture_height render_width "
	"render_height psnr\n");
	}

	std::function<void(const VideoFramePair&)> VideoQualityAnalyzer::Handler() {
	return [this](VideoFramePair pair) { HandleFramePair(pair); };
	}

	void VideoQualityAnalyzer::HandleFramePair(VideoFramePair sample, double psnr) {
	layer_analyzers_[sample.layer_id].HandleFramePair(sample, psnr,
	writer_.get());
	cached_.reset();
	}

	void VideoQualityAnalyzer::HandleFramePair(VideoFramePair sample) {
	double psnr = NAN;
	if (sample.decoded)
	psnr = I420PSNR(sample.captured->ToI420(), sample.decoded->ToI420());

	if (config_.thread) {
	config_.thread->PostTask(RTC_FROM_HERE, [this, sample, psnr] {
	HandleFramePair(std::move(sample), psnr);
	});
	} else {
	HandleFramePair(std::move(sample), psnr);
	}
	}

	std::vector<VideoQualityStats> VideoQualityAnalyzer::layer_stats() const {
	std::vector<VideoQualityStats> res;
	for (auto& layer : layer_analyzers_)
	res.push_back(layer.second.stats_);
	return res;
	}

	VideoQualityStats& VideoQualityAnalyzer::stats() {
	if (!cached_) {
	cached_ = VideoQualityStats();
	for (auto& layer : layer_analyzers_)
	cached_->AddStats(layer.second.stats_);
	}
	return *cached_;
	}

	void VideoLayerAnalyzer::HandleFramePair(VideoFramePair sample,
	double psnr,
	RtcEventLogOutput* writer) {
	RTC_CHECK(sample.captured);
	HandleCapturedFrame(sample);
	if (!sample.decoded) {
	// Can only happen in the beginning of a call or if the resolution is
	// reduced. Otherwise we will detect a freeze.
	++stats_.lost_count;
	++skip_count_;
	} else {
	stats_.psnr_with_freeze.AddSample(psnr);
	if (sample.repeated) {
	++stats_.freeze_count;
	++skip_count_;
	} else {
	stats_.psnr.AddSample(psnr);
	HandleRenderedFrame(sample);
	}
	}
	if (writer) {
	LogWriteFormat(writer, "%.3f %.3f %.3f %i %i %i %i %.3f\n",
	sample.capture_time.seconds<double>(),
	sample.render_time.seconds<double>(),
	sample.captured->width(), sample.captured->height(),
	sample.decoded ? sample.decoded->width() : 0,
	sample.decoded ? sample.decoded->height() : 0, psnr);
	}
	}

	void VideoLayerAnalyzer::HandleCapturedFrame(const VideoFramePair& sample) {
	stats_.capture.AddFrameInfo(*sample.captured, sample.capture_time);
	if (last_freeze_time_.IsInfinite())
	last_freeze_time_ = sample.capture_time;
	}

	void VideoLayerAnalyzer::HandleRenderedFrame(const VideoFramePair& sample) {
	stats_.capture_to_decoded_delay.AddSample(sample.decoded_time -
	sample.capture_time);
	stats_.end_to_end_delay.AddSample(sample.render_time - sample.capture_time);
	stats_.render.AddFrameInfo(*sample.decoded, sample.render_time);
	stats_.skipped_between_rendered.AddSample(skip_count_);
	skip_count_ = 0;

	if (last_render_time_.IsFinite()) {
	RTC_DCHECK(sample.render_time.IsFinite());
	TimeDelta render_interval = sample.render_time - last_render_time_;
	TimeDelta mean_interval = stats_.render.frames.interval().Mean();
	if (render_interval > TimeDelta::Millis(150) + mean_interval \|\|
	render_interval > 3 * mean_interval) {
	stats_.freeze_duration.AddSample(render_interval);
	stats_.time_between_freezes.AddSample(last_render_time_ -
	last_freeze_time_);
	last_freeze_time_ = sample.render_time;
	}
	}
	last_render_time_ = sample.render_time;
	}

	void CallStatsCollector::AddStats(Call::Stats sample) {
	if (sample.send_bandwidth_bps > 0)
	stats_.target_rate.AddSampleBps(sample.send_bandwidth_bps);
	if (sample.pacer_delay_ms > 0)
	stats_.pacer_delay.AddSample(TimeDelta::Millis(sample.pacer_delay_ms));
	if (sample.rtt_ms > 0)
	stats_.round_trip_time.AddSample(TimeDelta::Millis(sample.rtt_ms));
	stats_.memory_usage.AddSample(rtc::GetProcessResidentSizeBytes());
	}

	void AudioReceiveStatsCollector::AddStats(AudioReceiveStream::Stats sample) {
	stats_.expand_rate.AddSample(sample.expand_rate);
	stats_.accelerate_rate.AddSample(sample.accelerate_rate);
	stats_.jitter_buffer.AddSampleMs(sample.jitter_buffer_ms);
	}

	void VideoSendStatsCollector::AddStats(VideoSendStream::Stats sample,
	Timestamp at_time) {
	// It's not certain that we yet have estimates for any of these stats.
	// Check that they are positive before mixing them in.
	if (sample.encode_frame_rate <= 0)
	return;

	stats_.encode_frame_rate.AddSample(sample.encode_frame_rate);
	stats_.encode_time.AddSampleMs(sample.avg_encode_time_ms);
	stats_.encode_usage.AddSample(sample.encode_usage_percent / 100.0);
	stats_.media_bitrate.AddSampleBps(sample.media_bitrate_bps);

	size_t fec_bytes = 0;
	for (const auto& kv : sample.substreams) {
	fec_bytes += kv.second.rtp_stats.fec.payload_bytes +
	kv.second.rtp_stats.fec.padding_bytes;
	}
	if (last_update_.IsFinite()) {
	auto fec_delta = DataSize::Bytes(fec_bytes - last_fec_bytes_);
	auto time_delta = at_time - last_update_;
	stats_.fec_bitrate.AddSample(fec_delta / time_delta);
	}
	last_fec_bytes_ = fec_bytes;
	last_update_ = at_time;
	}

	void VideoReceiveStatsCollector::AddStats(VideoReceiveStream::Stats sample) {
	if (sample.decode_ms > 0)
	stats_.decode_time.AddSampleMs(sample.decode_ms);
	if (sample.max_decode_ms > 0)
	stats_.decode_time_max.AddSampleMs(sample.max_decode_ms);
	if (sample.width > 0 && sample.height > 0) {
	stats_.decode_pixels.AddSample(sample.width * sample.height);
	stats_.resolution.AddSample(sample.height);
	}
	}
	} // namespace test
	} // namespace webrtc