webrtc/video/send_statistics_proxy_unittest.cc - src - Git at Google

 /*
  *  Copyright (c) 2013 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.
  */

 // This file includes unit tests for SendStatisticsProxy.
 #include "webrtc/video/send_statistics_proxy.h"

 #include <map>
 #include <string>
 #include <vector>

 #include "testing/gtest/include/gtest/gtest.h"

 namespace webrtc {

 class SendStatisticsProxyTest : public ::testing::Test {
  public:
   SendStatisticsProxyTest()
       : fake_clock_(1234), avg_delay_ms_(0), max_delay_ms_(0) {}
   virtual ~SendStatisticsProxyTest() {}

  protected:
   virtual void SetUp() {
     statistics_proxy_.reset(
         new SendStatisticsProxy(&fake_clock_, GetTestConfig()));
     config_ = GetTestConfig();
     expected_ = VideoSendStream::Stats();
   }

   VideoSendStream::Config GetTestConfig() {
     VideoSendStream::Config config;
     config.rtp.ssrcs.push_back(17);
     config.rtp.ssrcs.push_back(42);
     config.rtp.rtx.ssrcs.push_back(18);
     config.rtp.rtx.ssrcs.push_back(43);
     return config;
   }

   void ExpectEqual(VideoSendStream::Stats one, VideoSendStream::Stats other) {
     EXPECT_EQ(one.input_frame_rate, other.input_frame_rate);
     EXPECT_EQ(one.encode_frame_rate, other.encode_frame_rate);
     EXPECT_EQ(one.media_bitrate_bps, other.media_bitrate_bps);
     EXPECT_EQ(one.suspended, other.suspended);

     EXPECT_EQ(one.substreams.size(), other.substreams.size());
     for (std::map<uint32_t, VideoSendStream::StreamStats>::const_iterator it =
              one.substreams.begin();
          it != one.substreams.end(); ++it) {
       std::map<uint32_t, VideoSendStream::StreamStats>::const_iterator
           corresponding_it = other.substreams.find(it->first);
       ASSERT_TRUE(corresponding_it != other.substreams.end());
       const VideoSendStream::StreamStats& a = it->second;
       const VideoSendStream::StreamStats& b = corresponding_it->second;

       EXPECT_EQ(a.frame_counts.key_frames, b.frame_counts.key_frames);
       EXPECT_EQ(a.frame_counts.delta_frames, b.frame_counts.delta_frames);
       EXPECT_EQ(a.total_bitrate_bps, b.total_bitrate_bps);
       EXPECT_EQ(a.avg_delay_ms, b.avg_delay_ms);
       EXPECT_EQ(a.max_delay_ms, b.max_delay_ms);

       EXPECT_EQ(a.rtp_stats.transmitted.payload_bytes,
                 b.rtp_stats.transmitted.payload_bytes);
       EXPECT_EQ(a.rtp_stats.transmitted.header_bytes,
                 b.rtp_stats.transmitted.header_bytes);
       EXPECT_EQ(a.rtp_stats.transmitted.padding_bytes,
                 b.rtp_stats.transmitted.padding_bytes);
       EXPECT_EQ(a.rtp_stats.transmitted.packets,
                 b.rtp_stats.transmitted.packets);
       EXPECT_EQ(a.rtp_stats.retransmitted.packets,
                 b.rtp_stats.retransmitted.packets);
       EXPECT_EQ(a.rtp_stats.fec.packets, b.rtp_stats.fec.packets);

       EXPECT_EQ(a.rtcp_stats.fraction_lost, b.rtcp_stats.fraction_lost);
       EXPECT_EQ(a.rtcp_stats.cumulative_lost, b.rtcp_stats.cumulative_lost);
       EXPECT_EQ(a.rtcp_stats.extended_max_sequence_number,
                 b.rtcp_stats.extended_max_sequence_number);
       EXPECT_EQ(a.rtcp_stats.jitter, b.rtcp_stats.jitter);
     }
   }

   rtc::scoped_ptr<SendStatisticsProxy> statistics_proxy_;
   SimulatedClock fake_clock_;
   VideoSendStream::Config config_;
   int avg_delay_ms_;
   int max_delay_ms_;
   VideoSendStream::Stats expected_;
   typedef std::map<uint32_t, VideoSendStream::StreamStats>::const_iterator
       StreamIterator;
 };

 TEST_F(SendStatisticsProxyTest, RtcpStatistics) {
   RtcpStatisticsCallback* callback = statistics_proxy_.get();
   for (std::vector<uint32_t>::const_iterator it = config_.rtp.ssrcs.begin();
        it != config_.rtp.ssrcs.end();
        ++it) {
     const uint32_t ssrc = *it;
     VideoSendStream::StreamStats& ssrc_stats = expected_.substreams[ssrc];

     // Add statistics with some arbitrary, but unique, numbers.
     uint32_t offset = ssrc * sizeof(RtcpStatistics);
     ssrc_stats.rtcp_stats.cumulative_lost = offset;
     ssrc_stats.rtcp_stats.extended_max_sequence_number = offset + 1;
     ssrc_stats.rtcp_stats.fraction_lost = offset + 2;
     ssrc_stats.rtcp_stats.jitter = offset + 3;
     callback->StatisticsUpdated(ssrc_stats.rtcp_stats, ssrc);
   }
   for (std::vector<uint32_t>::const_iterator it = config_.rtp.rtx.ssrcs.begin();
        it != config_.rtp.rtx.ssrcs.end();
        ++it) {
     const uint32_t ssrc = *it;
     VideoSendStream::StreamStats& ssrc_stats = expected_.substreams[ssrc];

     // Add statistics with some arbitrary, but unique, numbers.
     uint32_t offset = ssrc * sizeof(RtcpStatistics);
     ssrc_stats.rtcp_stats.cumulative_lost = offset;
     ssrc_stats.rtcp_stats.extended_max_sequence_number = offset + 1;
     ssrc_stats.rtcp_stats.fraction_lost = offset + 2;
     ssrc_stats.rtcp_stats.jitter = offset + 3;
     callback->StatisticsUpdated(ssrc_stats.rtcp_stats, ssrc);
   }
   VideoSendStream::Stats stats = statistics_proxy_->GetStats();
   ExpectEqual(expected_, stats);
 }

 TEST_F(SendStatisticsProxyTest, CaptureFramerate) {
   const int capture_fps = 31;

   ViECaptureObserver* capture_observer = statistics_proxy_.get();
   capture_observer->CapturedFrameRate(0, capture_fps);

   VideoSendStream::Stats stats = statistics_proxy_->GetStats();
   EXPECT_EQ(capture_fps, stats.input_frame_rate);
 }

 TEST_F(SendStatisticsProxyTest, EncodedBitrateAndFramerate) {
   const int media_bitrate_bps = 500;
   const int encode_fps = 29;

   ViEEncoderObserver* encoder_observer = statistics_proxy_.get();
   encoder_observer->OutgoingRate(0, encode_fps, media_bitrate_bps);

   VideoSendStream::Stats stats = statistics_proxy_->GetStats();
   EXPECT_EQ(media_bitrate_bps, stats.media_bitrate_bps);
   EXPECT_EQ(encode_fps, stats.encode_frame_rate);
 }

 TEST_F(SendStatisticsProxyTest, Suspended) {
   // Verify that the value is false by default.
   EXPECT_FALSE(statistics_proxy_->GetStats().suspended);

   // Verify that we can set it to true.
   ViEEncoderObserver* encoder_observer = statistics_proxy_.get();
   encoder_observer->SuspendChange(0, true);
   EXPECT_TRUE(statistics_proxy_->GetStats().suspended);

   // Verify that we can set it back to false again.
   encoder_observer->SuspendChange(0, false);
   EXPECT_FALSE(statistics_proxy_->GetStats().suspended);
 }

 TEST_F(SendStatisticsProxyTest, FrameCounts) {
   FrameCountObserver* observer = statistics_proxy_.get();
   for (std::vector<uint32_t>::const_iterator it = config_.rtp.ssrcs.begin();
        it != config_.rtp.ssrcs.end();
        ++it) {
     const uint32_t ssrc = *it;
     // Add statistics with some arbitrary, but unique, numbers.
     VideoSendStream::StreamStats& stats = expected_.substreams[ssrc];
     uint32_t offset = ssrc * sizeof(VideoSendStream::StreamStats);
     FrameCounts frame_counts;
     frame_counts.key_frames = offset;
     frame_counts.delta_frames = offset + 1;
     stats.frame_counts = frame_counts;
     observer->FrameCountUpdated(frame_counts, ssrc);
   }
   for (std::vector<uint32_t>::const_iterator it = config_.rtp.rtx.ssrcs.begin();
        it != config_.rtp.rtx.ssrcs.end();
        ++it) {
     const uint32_t ssrc = *it;
     // Add statistics with some arbitrary, but unique, numbers.
     VideoSendStream::StreamStats& stats = expected_.substreams[ssrc];
     uint32_t offset = ssrc * sizeof(VideoSendStream::StreamStats);
     FrameCounts frame_counts;
     frame_counts.key_frames = offset;
     frame_counts.delta_frames = offset + 1;
     stats.frame_counts = frame_counts;
     observer->FrameCountUpdated(frame_counts, ssrc);
   }

   VideoSendStream::Stats stats = statistics_proxy_->GetStats();
   ExpectEqual(expected_, stats);
 }

 TEST_F(SendStatisticsProxyTest, DataCounters) {
   StreamDataCountersCallback* callback = statistics_proxy_.get();
   for (std::vector<uint32_t>::const_iterator it = config_.rtp.ssrcs.begin();
        it != config_.rtp.ssrcs.end();
        ++it) {
     const uint32_t ssrc = *it;
     StreamDataCounters& counters = expected_.substreams[ssrc].rtp_stats;
     // Add statistics with some arbitrary, but unique, numbers.
     size_t offset = ssrc * sizeof(StreamDataCounters);
     uint32_t offset_uint32 = static_cast<uint32_t>(offset);
     counters.transmitted.payload_bytes = offset;
     counters.transmitted.header_bytes = offset + 1;
     counters.fec.packets = offset_uint32 + 2;
     counters.transmitted.padding_bytes = offset + 3;
     counters.retransmitted.packets = offset_uint32 + 4;
     counters.transmitted.packets = offset_uint32 + 5;
     callback->DataCountersUpdated(counters, ssrc);
   }
   for (std::vector<uint32_t>::const_iterator it = config_.rtp.rtx.ssrcs.begin();
        it != config_.rtp.rtx.ssrcs.end();
        ++it) {
     const uint32_t ssrc = *it;
     StreamDataCounters& counters = expected_.substreams[ssrc].rtp_stats;
     // Add statistics with some arbitrary, but unique, numbers.
     size_t offset = ssrc * sizeof(StreamDataCounters);
     uint32_t offset_uint32 = static_cast<uint32_t>(offset);
     counters.transmitted.payload_bytes = offset;
     counters.transmitted.header_bytes = offset + 1;
     counters.fec.packets = offset_uint32 + 2;
     counters.transmitted.padding_bytes = offset + 3;
     counters.retransmitted.packets = offset_uint32 + 4;
     counters.transmitted.packets = offset_uint32 + 5;
     callback->DataCountersUpdated(counters, ssrc);
   }

   VideoSendStream::Stats stats = statistics_proxy_->GetStats();
   ExpectEqual(expected_, stats);
 }

 TEST_F(SendStatisticsProxyTest, Bitrate) {
   BitrateStatisticsObserver* observer = statistics_proxy_.get();
   for (std::vector<uint32_t>::const_iterator it = config_.rtp.ssrcs.begin();
        it != config_.rtp.ssrcs.end();
        ++it) {
     const uint32_t ssrc = *it;
     BitrateStatistics total;
     BitrateStatistics retransmit;
     // Use ssrc as bitrate_bps to get a unique value for each stream.
     total.bitrate_bps = ssrc;
     retransmit.bitrate_bps = ssrc + 1;
     observer->Notify(total, retransmit, ssrc);
     expected_.substreams[ssrc].total_bitrate_bps = total.bitrate_bps;
     expected_.substreams[ssrc].retransmit_bitrate_bps = retransmit.bitrate_bps;
   }
   for (std::vector<uint32_t>::const_iterator it = config_.rtp.rtx.ssrcs.begin();
        it != config_.rtp.rtx.ssrcs.end();
        ++it) {
     const uint32_t ssrc = *it;
     BitrateStatistics total;
     BitrateStatistics retransmit;
     // Use ssrc as bitrate_bps to get a unique value for each stream.
     total.bitrate_bps = ssrc;
     retransmit.bitrate_bps = ssrc + 1;
     observer->Notify(total, retransmit, ssrc);
     expected_.substreams[ssrc].total_bitrate_bps = total.bitrate_bps;
     expected_.substreams[ssrc].retransmit_bitrate_bps = retransmit.bitrate_bps;
   }

   VideoSendStream::Stats stats = statistics_proxy_->GetStats();
   ExpectEqual(expected_, stats);
 }

 TEST_F(SendStatisticsProxyTest, SendSideDelay) {
   SendSideDelayObserver* observer = statistics_proxy_.get();
   for (std::vector<uint32_t>::const_iterator it = config_.rtp.ssrcs.begin();
        it != config_.rtp.ssrcs.end();
        ++it) {
     const uint32_t ssrc = *it;
     // Use ssrc as avg_delay_ms and max_delay_ms to get a unique value for each
     // stream.
     int avg_delay_ms = ssrc;
     int max_delay_ms = ssrc + 1;
     observer->SendSideDelayUpdated(avg_delay_ms, max_delay_ms, ssrc);
     expected_.substreams[ssrc].avg_delay_ms = avg_delay_ms;
     expected_.substreams[ssrc].max_delay_ms = max_delay_ms;
   }
   for (std::vector<uint32_t>::const_iterator it = config_.rtp.rtx.ssrcs.begin();
        it != config_.rtp.rtx.ssrcs.end();
        ++it) {
     const uint32_t ssrc = *it;
     // Use ssrc as avg_delay_ms and max_delay_ms to get a unique value for each
     // stream.
     int avg_delay_ms = ssrc;
     int max_delay_ms = ssrc + 1;
     observer->SendSideDelayUpdated(avg_delay_ms, max_delay_ms, ssrc);
     expected_.substreams[ssrc].avg_delay_ms = avg_delay_ms;
     expected_.substreams[ssrc].max_delay_ms = max_delay_ms;
   }
   VideoSendStream::Stats stats = statistics_proxy_->GetStats();
   ExpectEqual(expected_, stats);
 }

 TEST_F(SendStatisticsProxyTest, NoSubstreams) {
   uint32_t excluded_ssrc =
       std::max(
           *std::max_element(config_.rtp.ssrcs.begin(), config_.rtp.ssrcs.end()),
           *std::max_element(config_.rtp.rtx.ssrcs.begin(),
                             config_.rtp.rtx.ssrcs.end())) +
       1;
   // From RtcpStatisticsCallback.
   RtcpStatistics rtcp_stats;
   RtcpStatisticsCallback* rtcp_callback = statistics_proxy_.get();
   rtcp_callback->StatisticsUpdated(rtcp_stats, excluded_ssrc);

   // From BitrateStatisticsObserver.
   BitrateStatistics total;
   BitrateStatistics retransmit;
   BitrateStatisticsObserver* bitrate_observer = statistics_proxy_.get();
   bitrate_observer->Notify(total, retransmit, excluded_ssrc);

   // From FrameCountObserver.
   FrameCountObserver* fps_observer = statistics_proxy_.get();
   FrameCounts frame_counts;
   frame_counts.key_frames = 1;
   fps_observer->FrameCountUpdated(frame_counts, excluded_ssrc);

   VideoSendStream::Stats stats = statistics_proxy_->GetStats();
   EXPECT_TRUE(stats.substreams.empty());
 }

 TEST_F(SendStatisticsProxyTest, EncodedResolutionTimesOut) {
   static const int kEncodedWidth = 123;
   static const int kEncodedHeight = 81;
   EncodedImage encoded_image;
   encoded_image._encodedWidth = kEncodedWidth;
   encoded_image._encodedHeight = kEncodedHeight;

   RTPVideoHeader rtp_video_header;

   rtp_video_header.simulcastIdx = 0;
   statistics_proxy_->OnSendEncodedImage(encoded_image, &rtp_video_header);
   rtp_video_header.simulcastIdx = 1;
   statistics_proxy_->OnSendEncodedImage(encoded_image, &rtp_video_header);

   VideoSendStream::Stats stats = statistics_proxy_->GetStats();
   EXPECT_EQ(kEncodedWidth, stats.substreams[config_.rtp.ssrcs[0]].width);
   EXPECT_EQ(kEncodedHeight, stats.substreams[config_.rtp.ssrcs[0]].height);
   EXPECT_EQ(kEncodedWidth, stats.substreams[config_.rtp.ssrcs[1]].width);
   EXPECT_EQ(kEncodedHeight, stats.substreams[config_.rtp.ssrcs[1]].height);

   // Forward almost to timeout, this should not have removed stats.
   fake_clock_.AdvanceTimeMilliseconds(SendStatisticsProxy::kStatsTimeoutMs - 1);
   stats = statistics_proxy_->GetStats();
   EXPECT_EQ(kEncodedWidth, stats.substreams[config_.rtp.ssrcs[0]].width);
   EXPECT_EQ(kEncodedHeight, stats.substreams[config_.rtp.ssrcs[0]].height);

   // Update the first SSRC with bogus RTCP stats to make sure that encoded
   // resolution still times out (no global timeout for all stats).
   RtcpStatistics rtcp_statistics;
   RtcpStatisticsCallback* rtcp_stats = statistics_proxy_.get();
   rtcp_stats->StatisticsUpdated(rtcp_statistics, config_.rtp.ssrcs[0]);

   // Report stats for second SSRC to make sure it's not outdated along with the
   // first SSRC.
   rtp_video_header.simulcastIdx = 1;
   statistics_proxy_->OnSendEncodedImage(encoded_image, &rtp_video_header);

   // Forward 1 ms, reach timeout, substream 0 should have no resolution
   // reported, but substream 1 should.
   fake_clock_.AdvanceTimeMilliseconds(1);
   stats = statistics_proxy_->GetStats();
   EXPECT_EQ(0, stats.substreams[config_.rtp.ssrcs[0]].width);
   EXPECT_EQ(0, stats.substreams[config_.rtp.ssrcs[0]].height);
   EXPECT_EQ(kEncodedWidth, stats.substreams[config_.rtp.ssrcs[1]].width);
   EXPECT_EQ(kEncodedHeight, stats.substreams[config_.rtp.ssrcs[1]].height);
 }

 }  // namespace webrtc
	/*
	* Copyright (c) 2013 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.
	*/

	// This file includes unit tests for SendStatisticsProxy.
	#include "webrtc/video/send_statistics_proxy.h"

	#include <map>
	#include <string>
	#include <vector>

	#include "testing/gtest/include/gtest/gtest.h"

	namespace webrtc {

	class SendStatisticsProxyTest : public ::testing::Test {
	public:
	SendStatisticsProxyTest()
	: fake_clock_(1234), avg_delay_ms_(0), max_delay_ms_(0) {}
	virtual ~SendStatisticsProxyTest() {}

	protected:
	virtual void SetUp() {
	statistics_proxy_.reset(
	new SendStatisticsProxy(&fake_clock_, GetTestConfig()));
	config_ = GetTestConfig();
	expected_ = VideoSendStream::Stats();
	}

	VideoSendStream::Config GetTestConfig() {
	VideoSendStream::Config config;
	config.rtp.ssrcs.push_back(17);
	config.rtp.ssrcs.push_back(42);
	config.rtp.rtx.ssrcs.push_back(18);
	config.rtp.rtx.ssrcs.push_back(43);
	return config;
	}

	void ExpectEqual(VideoSendStream::Stats one, VideoSendStream::Stats other) {
	EXPECT_EQ(one.input_frame_rate, other.input_frame_rate);
	EXPECT_EQ(one.encode_frame_rate, other.encode_frame_rate);
	EXPECT_EQ(one.media_bitrate_bps, other.media_bitrate_bps);
	EXPECT_EQ(one.suspended, other.suspended);

	EXPECT_EQ(one.substreams.size(), other.substreams.size());
	for (std::map<uint32_t, VideoSendStream::StreamStats>::const_iterator it =
	one.substreams.begin();
	it != one.substreams.end(); ++it) {
	std::map<uint32_t, VideoSendStream::StreamStats>::const_iterator
	corresponding_it = other.substreams.find(it->first);
	ASSERT_TRUE(corresponding_it != other.substreams.end());
	const VideoSendStream::StreamStats& a = it->second;
	const VideoSendStream::StreamStats& b = corresponding_it->second;

	EXPECT_EQ(a.frame_counts.key_frames, b.frame_counts.key_frames);
	EXPECT_EQ(a.frame_counts.delta_frames, b.frame_counts.delta_frames);
	EXPECT_EQ(a.total_bitrate_bps, b.total_bitrate_bps);
	EXPECT_EQ(a.avg_delay_ms, b.avg_delay_ms);
	EXPECT_EQ(a.max_delay_ms, b.max_delay_ms);

	EXPECT_EQ(a.rtp_stats.transmitted.payload_bytes,
	b.rtp_stats.transmitted.payload_bytes);
	EXPECT_EQ(a.rtp_stats.transmitted.header_bytes,
	b.rtp_stats.transmitted.header_bytes);
	EXPECT_EQ(a.rtp_stats.transmitted.padding_bytes,
	b.rtp_stats.transmitted.padding_bytes);
	EXPECT_EQ(a.rtp_stats.transmitted.packets,
	b.rtp_stats.transmitted.packets);
	EXPECT_EQ(a.rtp_stats.retransmitted.packets,
	b.rtp_stats.retransmitted.packets);
	EXPECT_EQ(a.rtp_stats.fec.packets, b.rtp_stats.fec.packets);

	EXPECT_EQ(a.rtcp_stats.fraction_lost, b.rtcp_stats.fraction_lost);
	EXPECT_EQ(a.rtcp_stats.cumulative_lost, b.rtcp_stats.cumulative_lost);
	EXPECT_EQ(a.rtcp_stats.extended_max_sequence_number,
	b.rtcp_stats.extended_max_sequence_number);
	EXPECT_EQ(a.rtcp_stats.jitter, b.rtcp_stats.jitter);
	}
	}

	rtc::scoped_ptr<SendStatisticsProxy> statistics_proxy_;
	SimulatedClock fake_clock_;
	VideoSendStream::Config config_;
	int avg_delay_ms_;
	int max_delay_ms_;
	VideoSendStream::Stats expected_;
	typedef std::map<uint32_t, VideoSendStream::StreamStats>::const_iterator
	StreamIterator;
	};

	TEST_F(SendStatisticsProxyTest, RtcpStatistics) {
	RtcpStatisticsCallback* callback = statistics_proxy_.get();
	for (std::vector<uint32_t>::const_iterator it = config_.rtp.ssrcs.begin();
	it != config_.rtp.ssrcs.end();
	++it) {
	const uint32_t ssrc = *it;
	VideoSendStream::StreamStats& ssrc_stats = expected_.substreams[ssrc];

	// Add statistics with some arbitrary, but unique, numbers.
	uint32_t offset = ssrc * sizeof(RtcpStatistics);
	ssrc_stats.rtcp_stats.cumulative_lost = offset;
	ssrc_stats.rtcp_stats.extended_max_sequence_number = offset + 1;
	ssrc_stats.rtcp_stats.fraction_lost = offset + 2;
	ssrc_stats.rtcp_stats.jitter = offset + 3;
	callback->StatisticsUpdated(ssrc_stats.rtcp_stats, ssrc);
	}
	for (std::vector<uint32_t>::const_iterator it = config_.rtp.rtx.ssrcs.begin();
	it != config_.rtp.rtx.ssrcs.end();
	++it) {
	const uint32_t ssrc = *it;
	VideoSendStream::StreamStats& ssrc_stats = expected_.substreams[ssrc];

	// Add statistics with some arbitrary, but unique, numbers.
	uint32_t offset = ssrc * sizeof(RtcpStatistics);
	ssrc_stats.rtcp_stats.cumulative_lost = offset;
	ssrc_stats.rtcp_stats.extended_max_sequence_number = offset + 1;
	ssrc_stats.rtcp_stats.fraction_lost = offset + 2;
	ssrc_stats.rtcp_stats.jitter = offset + 3;
	callback->StatisticsUpdated(ssrc_stats.rtcp_stats, ssrc);
	}
	VideoSendStream::Stats stats = statistics_proxy_->GetStats();
	ExpectEqual(expected_, stats);
	}

	TEST_F(SendStatisticsProxyTest, CaptureFramerate) {
	const int capture_fps = 31;

	ViECaptureObserver* capture_observer = statistics_proxy_.get();
	capture_observer->CapturedFrameRate(0, capture_fps);

	VideoSendStream::Stats stats = statistics_proxy_->GetStats();
	EXPECT_EQ(capture_fps, stats.input_frame_rate);
	}

	TEST_F(SendStatisticsProxyTest, EncodedBitrateAndFramerate) {
	const int media_bitrate_bps = 500;
	const int encode_fps = 29;

	ViEEncoderObserver* encoder_observer = statistics_proxy_.get();
	encoder_observer->OutgoingRate(0, encode_fps, media_bitrate_bps);

	VideoSendStream::Stats stats = statistics_proxy_->GetStats();
	EXPECT_EQ(media_bitrate_bps, stats.media_bitrate_bps);
	EXPECT_EQ(encode_fps, stats.encode_frame_rate);
	}

	TEST_F(SendStatisticsProxyTest, Suspended) {
	// Verify that the value is false by default.
	EXPECT_FALSE(statistics_proxy_->GetStats().suspended);

	// Verify that we can set it to true.
	ViEEncoderObserver* encoder_observer = statistics_proxy_.get();
	encoder_observer->SuspendChange(0, true);
	EXPECT_TRUE(statistics_proxy_->GetStats().suspended);

	// Verify that we can set it back to false again.
	encoder_observer->SuspendChange(0, false);
	EXPECT_FALSE(statistics_proxy_->GetStats().suspended);
	}

	TEST_F(SendStatisticsProxyTest, FrameCounts) {
	FrameCountObserver* observer = statistics_proxy_.get();
	for (std::vector<uint32_t>::const_iterator it = config_.rtp.ssrcs.begin();
	it != config_.rtp.ssrcs.end();
	++it) {
	const uint32_t ssrc = *it;
	// Add statistics with some arbitrary, but unique, numbers.
	VideoSendStream::StreamStats& stats = expected_.substreams[ssrc];
	uint32_t offset = ssrc * sizeof(VideoSendStream::StreamStats);
	FrameCounts frame_counts;
	frame_counts.key_frames = offset;
	frame_counts.delta_frames = offset + 1;
	stats.frame_counts = frame_counts;
	observer->FrameCountUpdated(frame_counts, ssrc);
	}
	for (std::vector<uint32_t>::const_iterator it = config_.rtp.rtx.ssrcs.begin();
	it != config_.rtp.rtx.ssrcs.end();
	++it) {
	const uint32_t ssrc = *it;
	// Add statistics with some arbitrary, but unique, numbers.
	VideoSendStream::StreamStats& stats = expected_.substreams[ssrc];
	uint32_t offset = ssrc * sizeof(VideoSendStream::StreamStats);
	FrameCounts frame_counts;
	frame_counts.key_frames = offset;
	frame_counts.delta_frames = offset + 1;
	stats.frame_counts = frame_counts;
	observer->FrameCountUpdated(frame_counts, ssrc);
	}

	VideoSendStream::Stats stats = statistics_proxy_->GetStats();
	ExpectEqual(expected_, stats);
	}

	TEST_F(SendStatisticsProxyTest, DataCounters) {
	StreamDataCountersCallback* callback = statistics_proxy_.get();
	for (std::vector<uint32_t>::const_iterator it = config_.rtp.ssrcs.begin();
	it != config_.rtp.ssrcs.end();
	++it) {
	const uint32_t ssrc = *it;
	StreamDataCounters& counters = expected_.substreams[ssrc].rtp_stats;
	// Add statistics with some arbitrary, but unique, numbers.
	size_t offset = ssrc * sizeof(StreamDataCounters);
	uint32_t offset_uint32 = static_cast<uint32_t>(offset);
	counters.transmitted.payload_bytes = offset;
	counters.transmitted.header_bytes = offset + 1;
	counters.fec.packets = offset_uint32 + 2;
	counters.transmitted.padding_bytes = offset + 3;
	counters.retransmitted.packets = offset_uint32 + 4;
	counters.transmitted.packets = offset_uint32 + 5;
	callback->DataCountersUpdated(counters, ssrc);
	}
	for (std::vector<uint32_t>::const_iterator it = config_.rtp.rtx.ssrcs.begin();
	it != config_.rtp.rtx.ssrcs.end();
	++it) {
	const uint32_t ssrc = *it;
	StreamDataCounters& counters = expected_.substreams[ssrc].rtp_stats;
	// Add statistics with some arbitrary, but unique, numbers.
	size_t offset = ssrc * sizeof(StreamDataCounters);
	uint32_t offset_uint32 = static_cast<uint32_t>(offset);
	counters.transmitted.payload_bytes = offset;
	counters.transmitted.header_bytes = offset + 1;
	counters.fec.packets = offset_uint32 + 2;
	counters.transmitted.padding_bytes = offset + 3;
	counters.retransmitted.packets = offset_uint32 + 4;
	counters.transmitted.packets = offset_uint32 + 5;
	callback->DataCountersUpdated(counters, ssrc);
	}

	VideoSendStream::Stats stats = statistics_proxy_->GetStats();
	ExpectEqual(expected_, stats);
	}

	TEST_F(SendStatisticsProxyTest, Bitrate) {
	BitrateStatisticsObserver* observer = statistics_proxy_.get();
	for (std::vector<uint32_t>::const_iterator it = config_.rtp.ssrcs.begin();
	it != config_.rtp.ssrcs.end();
	++it) {
	const uint32_t ssrc = *it;
	BitrateStatistics total;
	BitrateStatistics retransmit;
	// Use ssrc as bitrate_bps to get a unique value for each stream.
	total.bitrate_bps = ssrc;
	retransmit.bitrate_bps = ssrc + 1;
	observer->Notify(total, retransmit, ssrc);
	expected_.substreams[ssrc].total_bitrate_bps = total.bitrate_bps;
	expected_.substreams[ssrc].retransmit_bitrate_bps = retransmit.bitrate_bps;
	}
	for (std::vector<uint32_t>::const_iterator it = config_.rtp.rtx.ssrcs.begin();
	it != config_.rtp.rtx.ssrcs.end();
	++it) {
	const uint32_t ssrc = *it;
	BitrateStatistics total;
	BitrateStatistics retransmit;
	// Use ssrc as bitrate_bps to get a unique value for each stream.
	total.bitrate_bps = ssrc;
	retransmit.bitrate_bps = ssrc + 1;
	observer->Notify(total, retransmit, ssrc);
	expected_.substreams[ssrc].total_bitrate_bps = total.bitrate_bps;
	expected_.substreams[ssrc].retransmit_bitrate_bps = retransmit.bitrate_bps;
	}

	VideoSendStream::Stats stats = statistics_proxy_->GetStats();
	ExpectEqual(expected_, stats);
	}

	TEST_F(SendStatisticsProxyTest, SendSideDelay) {
	SendSideDelayObserver* observer = statistics_proxy_.get();
	for (std::vector<uint32_t>::const_iterator it = config_.rtp.ssrcs.begin();
	it != config_.rtp.ssrcs.end();
	++it) {
	const uint32_t ssrc = *it;
	// Use ssrc as avg_delay_ms and max_delay_ms to get a unique value for each
	// stream.
	int avg_delay_ms = ssrc;
	int max_delay_ms = ssrc + 1;
	observer->SendSideDelayUpdated(avg_delay_ms, max_delay_ms, ssrc);
	expected_.substreams[ssrc].avg_delay_ms = avg_delay_ms;
	expected_.substreams[ssrc].max_delay_ms = max_delay_ms;
	}
	for (std::vector<uint32_t>::const_iterator it = config_.rtp.rtx.ssrcs.begin();
	it != config_.rtp.rtx.ssrcs.end();
	++it) {
	const uint32_t ssrc = *it;
	// Use ssrc as avg_delay_ms and max_delay_ms to get a unique value for each
	// stream.
	int avg_delay_ms = ssrc;
	int max_delay_ms = ssrc + 1;
	observer->SendSideDelayUpdated(avg_delay_ms, max_delay_ms, ssrc);
	expected_.substreams[ssrc].avg_delay_ms = avg_delay_ms;
	expected_.substreams[ssrc].max_delay_ms = max_delay_ms;
	}
	VideoSendStream::Stats stats = statistics_proxy_->GetStats();
	ExpectEqual(expected_, stats);
	}

	TEST_F(SendStatisticsProxyTest, NoSubstreams) {
	uint32_t excluded_ssrc =
	std::max(
	*std::max_element(config_.rtp.ssrcs.begin(), config_.rtp.ssrcs.end()),
	*std::max_element(config_.rtp.rtx.ssrcs.begin(),
	config_.rtp.rtx.ssrcs.end())) +
	1;
	// From RtcpStatisticsCallback.
	RtcpStatistics rtcp_stats;
	RtcpStatisticsCallback* rtcp_callback = statistics_proxy_.get();
	rtcp_callback->StatisticsUpdated(rtcp_stats, excluded_ssrc);

	// From BitrateStatisticsObserver.
	BitrateStatistics total;
	BitrateStatistics retransmit;
	BitrateStatisticsObserver* bitrate_observer = statistics_proxy_.get();
	bitrate_observer->Notify(total, retransmit, excluded_ssrc);

	// From FrameCountObserver.
	FrameCountObserver* fps_observer = statistics_proxy_.get();
	FrameCounts frame_counts;
	frame_counts.key_frames = 1;
	fps_observer->FrameCountUpdated(frame_counts, excluded_ssrc);

	VideoSendStream::Stats stats = statistics_proxy_->GetStats();
	EXPECT_TRUE(stats.substreams.empty());
	}

	TEST_F(SendStatisticsProxyTest, EncodedResolutionTimesOut) {
	static const int kEncodedWidth = 123;
	static const int kEncodedHeight = 81;
	EncodedImage encoded_image;
	encoded_image._encodedWidth = kEncodedWidth;
	encoded_image._encodedHeight = kEncodedHeight;

	RTPVideoHeader rtp_video_header;

	rtp_video_header.simulcastIdx = 0;
	statistics_proxy_->OnSendEncodedImage(encoded_image, &rtp_video_header);
	rtp_video_header.simulcastIdx = 1;
	statistics_proxy_->OnSendEncodedImage(encoded_image, &rtp_video_header);

	VideoSendStream::Stats stats = statistics_proxy_->GetStats();
	EXPECT_EQ(kEncodedWidth, stats.substreams[config_.rtp.ssrcs[0]].width);
	EXPECT_EQ(kEncodedHeight, stats.substreams[config_.rtp.ssrcs[0]].height);
	EXPECT_EQ(kEncodedWidth, stats.substreams[config_.rtp.ssrcs[1]].width);
	EXPECT_EQ(kEncodedHeight, stats.substreams[config_.rtp.ssrcs[1]].height);

	// Forward almost to timeout, this should not have removed stats.
	fake_clock_.AdvanceTimeMilliseconds(SendStatisticsProxy::kStatsTimeoutMs - 1);
	stats = statistics_proxy_->GetStats();
	EXPECT_EQ(kEncodedWidth, stats.substreams[config_.rtp.ssrcs[0]].width);
	EXPECT_EQ(kEncodedHeight, stats.substreams[config_.rtp.ssrcs[0]].height);

	// Update the first SSRC with bogus RTCP stats to make sure that encoded
	// resolution still times out (no global timeout for all stats).
	RtcpStatistics rtcp_statistics;
	RtcpStatisticsCallback* rtcp_stats = statistics_proxy_.get();
	rtcp_stats->StatisticsUpdated(rtcp_statistics, config_.rtp.ssrcs[0]);

	// Report stats for second SSRC to make sure it's not outdated along with the
	// first SSRC.
	rtp_video_header.simulcastIdx = 1;
	statistics_proxy_->OnSendEncodedImage(encoded_image, &rtp_video_header);

	// Forward 1 ms, reach timeout, substream 0 should have no resolution
	// reported, but substream 1 should.
	fake_clock_.AdvanceTimeMilliseconds(1);
	stats = statistics_proxy_->GetStats();
	EXPECT_EQ(0, stats.substreams[config_.rtp.ssrcs[0]].width);
	EXPECT_EQ(0, stats.substreams[config_.rtp.ssrcs[0]].height);
	EXPECT_EQ(kEncodedWidth, stats.substreams[config_.rtp.ssrcs[1]].width);
	EXPECT_EQ(kEncodedHeight, stats.substreams[config_.rtp.ssrcs[1]].height);
	}

	} // namespace webrtc