chrome/browser/media/webrtc_browsertest_perf.cc - platform/external/chromium_org - Git at Google

 // Copyright 2013 The Chromium Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #include "chrome/browser/media/webrtc_browsertest_perf.h"

 #include "base/strings/stringprintf.h"
 #include "base/values.h"
 #include "chrome/test/base/in_process_browser_test.h"
 #include "testing/perf/perf_test.h"

 static std::string Statistic(const std::string& statistic,
                              const std::string& bucket) {
   // A ssrc stats key will be on the form stats.<bucket>-<key>.values.
   // This will give a json "path" which will dig into the time series for the
   // specified statistic. Buckets can be for instance ssrc_1212344, bweforvideo,
   // and will each contain a bunch of statistics relevant to their nature.
   // Each peer connection has a number of such buckets.
   return base::StringPrintf("stats.%s-%s.values", bucket.c_str(),
                             statistic.c_str());
 }

 static bool MaybePrintResultsForAudioReceive(
     const std::string& ssrc, const base::DictionaryValue& pc_dict) {
   std::string value;
   if (!pc_dict.GetString(Statistic("audioOutputLevel", ssrc), &value)) {
     // Not an audio receive stream.
     return false;
   }

   EXPECT_TRUE(pc_dict.GetString(Statistic("bytesReceived", ssrc), &value));
   perf_test::PrintResult(
       "audio_bytes", "", "bytes_recv", value, "bytes", false);
   EXPECT_TRUE(pc_dict.GetString(Statistic("packetsLost", ssrc), &value));
   perf_test::PrintResult(
       "audio_misc", "", "packets_lost", value, "", false);

   return true;
 }

 static bool MaybePrintResultsForAudioSend(
     const std::string& ssrc, const base::DictionaryValue& pc_dict) {
   std::string value;
   if (!pc_dict.GetString(Statistic("audioInputLevel", ssrc), &value)) {
     // Not an audio send stream.
     return false;
   }

   EXPECT_TRUE(pc_dict.GetString(Statistic("bytesSent", ssrc), &value));
   perf_test::PrintResult(
       "audio_bytes", "", "bytes_sent", value, "bytes", false);
   EXPECT_TRUE(pc_dict.GetString(Statistic("googJitterReceived", ssrc), &value));
   perf_test::PrintResult(
       "audio_tx", "", "goog_jitter_recv", value, "ms", false);
   EXPECT_TRUE(pc_dict.GetString(Statistic("googRtt", ssrc), &value));
   perf_test::PrintResult(
       "audio_tx", "", "goog_rtt", value, "ms", false);
   return true;
 }

 static bool MaybePrintResultsForVideoSend(
     const std::string& ssrc, const base::DictionaryValue& pc_dict) {
   std::string value;
   if (!pc_dict.GetString(Statistic("googFrameRateSent", ssrc), &value)) {
     // Not a video send stream.
     return false;
   }

   // Graph these by unit: the dashboard expects all stats in one graph to have
   // the same unit (e.g. ms, fps, etc). Most graphs, like video_fps, will also
   // be populated by the counterparts on the video receiving side.
   perf_test::PrintResult(
       "video_fps", "", "goog_frame_rate_sent", value, "fps", false);
   EXPECT_TRUE(pc_dict.GetString(Statistic("googFrameRateInput", ssrc), &value));
   perf_test::PrintResult(
       "video_fps", "", "goog_frame_rate_input", value, "fps", false);

   EXPECT_TRUE(pc_dict.GetString(Statistic("bytesSent", ssrc), &value));
   perf_test::PrintResult(
       "video_total_bytes", "", "bytes_sent", value, "bytes", false);

   EXPECT_TRUE(pc_dict.GetString(Statistic("googFirsReceived", ssrc), &value));
   perf_test::PrintResult(
       "video_misc", "", "goog_firs_recv", value, "", false);
   EXPECT_TRUE(pc_dict.GetString(Statistic("googNacksReceived", ssrc), &value));
   perf_test::PrintResult(
       "video_misc", "", "goog_nacks_recv", value, "", false);

   EXPECT_TRUE(pc_dict.GetString(Statistic("googFrameWidthSent", ssrc), &value));
   perf_test::PrintResult(
       "video_resolution", "", "goog_frame_width_sent", value, "pixels", false);
   EXPECT_TRUE(
       pc_dict.GetString(Statistic("googFrameHeightSent", ssrc), &value));
   perf_test::PrintResult(
       "video_resolution", "", "goog_frame_height_sent", value, "pixels", false);

   EXPECT_TRUE(pc_dict.GetString(
       Statistic("googCaptureJitterMs", ssrc), &value));
   perf_test::PrintResult(
       "video_tx", "", "goog_capture_jitter_ms", value, "ms", false);
   EXPECT_TRUE(pc_dict.GetString(
       Statistic("googCaptureQueueDelayMsPerS", ssrc), &value));
   perf_test::PrintResult(
       "video_tx", "", "goog_capture_queue_delay_ms_per_s",
        value, "ms/s", false);
   EXPECT_TRUE(pc_dict.GetString(Statistic("googAvgEncodeMs", ssrc), &value));
   perf_test::PrintResult(
       "video_tx", "", "goog_avg_encode_ms", value, "ms", false);
   EXPECT_TRUE(pc_dict.GetString(Statistic("googRtt", ssrc), &value));
   perf_test::PrintResult("video_tx", "", "goog_rtt", value, "ms", false);

   EXPECT_TRUE(pc_dict.GetString(
       Statistic("googEncodeUsagePercent", ssrc), &value));
   perf_test::PrintResult(
       "video_cpu_usage", "", "goog_encode_usage_percent", value, "%", false);
   return true;
 }

 static bool MaybePrintResultsForVideoReceive(
     const std::string& ssrc, const base::DictionaryValue& pc_dict) {
   std::string value;
   if (!pc_dict.GetString(Statistic("googFrameRateReceived", ssrc), &value)) {
     // Not a video receive stream.
     return false;
   }

   perf_test::PrintResult(
       "video_fps", "", "goog_frame_rate_recv", value, "fps", false);
   EXPECT_TRUE(
       pc_dict.GetString(Statistic("googFrameRateOutput", ssrc), &value));
   perf_test::PrintResult(
       "video_fps", "", "goog_frame_rate_output", value, "fps", false);

   EXPECT_TRUE(pc_dict.GetString(Statistic("packetsLost", ssrc), &value));
   perf_test::PrintResult("video_misc", "", "packets_lost", value, "", false);

   EXPECT_TRUE(pc_dict.GetString(Statistic("bytesReceived", ssrc), &value));
   perf_test::PrintResult(
       "video_total_bytes", "", "bytes_recv", value, "bytes", false);

   EXPECT_TRUE(
       pc_dict.GetString(Statistic("googFrameWidthReceived", ssrc), &value));
   perf_test::PrintResult(
       "video_resolution", "", "goog_frame_width_recv", value, "pixels", false);
   EXPECT_TRUE(
       pc_dict.GetString(Statistic("googFrameHeightReceived", ssrc), &value));
   perf_test::PrintResult(
       "video_resolution", "", "goog_frame_height_recv", value, "pixels", false);

   EXPECT_TRUE(pc_dict.GetString(Statistic("googCurrentDelayMs", ssrc), &value));
   perf_test::PrintResult(
       "video_rx", "", "goog_current_delay_ms", value, "ms", false);
   EXPECT_TRUE(pc_dict.GetString(Statistic("googTargetDelayMs", ssrc), &value));
   perf_test::PrintResult(
       "video_rx", "", "goog_target_delay_ms", value, "ms", false);
   EXPECT_TRUE(pc_dict.GetString(Statistic("googDecodeMs", ssrc), &value));
   perf_test::PrintResult("video_rx", "", "goog_decode_ms", value, "ms", false);
   EXPECT_TRUE(pc_dict.GetString(Statistic("googMaxDecodeMs", ssrc), &value));
   perf_test::PrintResult(
       "video_rx", "", "goog_max_decode_ms", value, "ms", false);
   EXPECT_TRUE(pc_dict.GetString(Statistic("googJitterBufferMs", ssrc), &value));
   perf_test::PrintResult(
       "video_rx", "", "goog_jitter_buffer_ms", value, "ms", false);
   EXPECT_TRUE(pc_dict.GetString(Statistic("googRenderDelayMs", ssrc), &value));
   perf_test::PrintResult(
       "video_rx", "", "goog_render_delay_ms", value, "ms", false);

   return true;
 }

 static std::string ExtractSsrcIdentifier(const std::string& key) {
   // Example key: ssrc_1234-someStatName. Grab the part before the dash.
   size_t key_start_pos = 0;
   size_t key_end_pos = key.find("-");
   CHECK(key_end_pos != std::string::npos) << "Could not parse key " << key;
   return key.substr(key_start_pos, key_end_pos - key_start_pos);
 }

 // Returns the set of unique ssrc identifiers in the call (e.g. ssrc_1234,
 // ssrc_12356, etc). |stats_dict| is the .stats dict from one peer connection.
 static std::set<std::string> FindAllSsrcIdentifiers(
     const base::DictionaryValue& stats_dict) {
   std::set<std::string> result;
   base::DictionaryValue::Iterator stats_iterator(stats_dict);

   while (!stats_iterator.IsAtEnd()) {
     if (stats_iterator.key().find("ssrc_") != std::string::npos)
       result.insert(ExtractSsrcIdentifier(stats_iterator.key()));
     stats_iterator.Advance();
   }
   return result;
 }

 namespace test {

 void PrintBweForVideoMetrics(const base::DictionaryValue& pc_dict) {
   const std::string kBweStatsKey = "bweforvideo";
   std::string value;
   ASSERT_TRUE(pc_dict.GetString(
       Statistic("googAvailableSendBandwidth", kBweStatsKey), &value));
   perf_test::PrintResult(
       "bwe_stats", "", "available_send_bw", value, "bit/s", false);
   ASSERT_TRUE(pc_dict.GetString(
       Statistic("googAvailableReceiveBandwidth", kBweStatsKey), &value));
   perf_test::PrintResult(
       "bwe_stats", "", "available_recv_bw", value, "bit/s", false);
   ASSERT_TRUE(pc_dict.GetString(
       Statistic("googTargetEncBitrate", kBweStatsKey), &value));
   perf_test::PrintResult(
       "bwe_stats", "", "target_enc_bitrate", value, "bit/s", false);
   ASSERT_TRUE(pc_dict.GetString(
       Statistic("googActualEncBitrate", kBweStatsKey), &value));
   perf_test::PrintResult(
       "bwe_stats", "", "actual_enc_bitrate", value, "bit/s", false);
   ASSERT_TRUE(pc_dict.GetString(
       Statistic("googTransmitBitrate", kBweStatsKey), &value));
   perf_test::PrintResult(
       "bwe_stats", "", "transmit_bitrate", value, "bit/s",false);
 }

 void PrintMetricsForAllStreams(const base::DictionaryValue& pc_dict) {
   const base::DictionaryValue* stats_dict;
   ASSERT_TRUE(pc_dict.GetDictionary("stats", &stats_dict));
   std::set<std::string> ssrc_identifiers = FindAllSsrcIdentifiers(*stats_dict);

   std::set<std::string>::const_iterator ssrc_iterator =
       ssrc_identifiers.begin();
   for (; ssrc_iterator != ssrc_identifiers.end(); ++ssrc_iterator) {
     // Figure out which stream type this ssrc represents and print all the
     // interesting metrics for it.
     const std::string& ssrc = *ssrc_iterator;
     bool did_recognize_stream_type =
         MaybePrintResultsForAudioReceive(ssrc, pc_dict) ||
         MaybePrintResultsForAudioSend(ssrc, pc_dict) ||
         MaybePrintResultsForVideoReceive(ssrc, pc_dict) ||
         MaybePrintResultsForVideoSend(ssrc, pc_dict);
     ASSERT_TRUE(did_recognize_stream_type) << "Failed to figure out which "
                                               "kind of stream SSRC " << ssrc
                                            << " is. ";
   }
 }

 }  // namespace test
	// Copyright 2013 The Chromium Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#include "chrome/browser/media/webrtc_browsertest_perf.h"

	#include "base/strings/stringprintf.h"
	#include "base/values.h"
	#include "chrome/test/base/in_process_browser_test.h"
	#include "testing/perf/perf_test.h"

	static std::string Statistic(const std::string& statistic,
	const std::string& bucket) {
	// A ssrc stats key will be on the form stats.<bucket>-<key>.values.
	// This will give a json "path" which will dig into the time series for the
	// specified statistic. Buckets can be for instance ssrc_1212344, bweforvideo,
	// and will each contain a bunch of statistics relevant to their nature.
	// Each peer connection has a number of such buckets.
	return base::StringPrintf("stats.%s-%s.values", bucket.c_str(),
	statistic.c_str());
	}

	static bool MaybePrintResultsForAudioReceive(
	const std::string& ssrc, const base::DictionaryValue& pc_dict) {
	std::string value;
	if (!pc_dict.GetString(Statistic("audioOutputLevel", ssrc), &value)) {
	// Not an audio receive stream.
	return false;
	}

	EXPECT_TRUE(pc_dict.GetString(Statistic("bytesReceived", ssrc), &value));
	perf_test::PrintResult(
	"audio_bytes", "", "bytes_recv", value, "bytes", false);
	EXPECT_TRUE(pc_dict.GetString(Statistic("packetsLost", ssrc), &value));
	perf_test::PrintResult(
	"audio_misc", "", "packets_lost", value, "", false);

	return true;
	}

	static bool MaybePrintResultsForAudioSend(
	const std::string& ssrc, const base::DictionaryValue& pc_dict) {
	std::string value;
	if (!pc_dict.GetString(Statistic("audioInputLevel", ssrc), &value)) {
	// Not an audio send stream.
	return false;
	}

	EXPECT_TRUE(pc_dict.GetString(Statistic("bytesSent", ssrc), &value));
	perf_test::PrintResult(
	"audio_bytes", "", "bytes_sent", value, "bytes", false);
	EXPECT_TRUE(pc_dict.GetString(Statistic("googJitterReceived", ssrc), &value));
	perf_test::PrintResult(
	"audio_tx", "", "goog_jitter_recv", value, "ms", false);
	EXPECT_TRUE(pc_dict.GetString(Statistic("googRtt", ssrc), &value));
	perf_test::PrintResult(
	"audio_tx", "", "goog_rtt", value, "ms", false);
	return true;
	}

	static bool MaybePrintResultsForVideoSend(
	const std::string& ssrc, const base::DictionaryValue& pc_dict) {
	std::string value;
	if (!pc_dict.GetString(Statistic("googFrameRateSent", ssrc), &value)) {
	// Not a video send stream.
	return false;
	}

	// Graph these by unit: the dashboard expects all stats in one graph to have
	// the same unit (e.g. ms, fps, etc). Most graphs, like video_fps, will also
	// be populated by the counterparts on the video receiving side.
	perf_test::PrintResult(
	"video_fps", "", "goog_frame_rate_sent", value, "fps", false);
	EXPECT_TRUE(pc_dict.GetString(Statistic("googFrameRateInput", ssrc), &value));
	perf_test::PrintResult(
	"video_fps", "", "goog_frame_rate_input", value, "fps", false);

	EXPECT_TRUE(pc_dict.GetString(Statistic("bytesSent", ssrc), &value));
	perf_test::PrintResult(
	"video_total_bytes", "", "bytes_sent", value, "bytes", false);

	EXPECT_TRUE(pc_dict.GetString(Statistic("googFirsReceived", ssrc), &value));
	perf_test::PrintResult(
	"video_misc", "", "goog_firs_recv", value, "", false);
	EXPECT_TRUE(pc_dict.GetString(Statistic("googNacksReceived", ssrc), &value));
	perf_test::PrintResult(
	"video_misc", "", "goog_nacks_recv", value, "", false);

	EXPECT_TRUE(pc_dict.GetString(Statistic("googFrameWidthSent", ssrc), &value));
	perf_test::PrintResult(
	"video_resolution", "", "goog_frame_width_sent", value, "pixels", false);
	EXPECT_TRUE(
	pc_dict.GetString(Statistic("googFrameHeightSent", ssrc), &value));
	perf_test::PrintResult(
	"video_resolution", "", "goog_frame_height_sent", value, "pixels", false);

	EXPECT_TRUE(pc_dict.GetString(
	Statistic("googCaptureJitterMs", ssrc), &value));
	perf_test::PrintResult(
	"video_tx", "", "goog_capture_jitter_ms", value, "ms", false);
	EXPECT_TRUE(pc_dict.GetString(
	Statistic("googCaptureQueueDelayMsPerS", ssrc), &value));
	perf_test::PrintResult(
	"video_tx", "", "goog_capture_queue_delay_ms_per_s",
	value, "ms/s", false);
	EXPECT_TRUE(pc_dict.GetString(Statistic("googAvgEncodeMs", ssrc), &value));
	perf_test::PrintResult(
	"video_tx", "", "goog_avg_encode_ms", value, "ms", false);
	EXPECT_TRUE(pc_dict.GetString(Statistic("googRtt", ssrc), &value));
	perf_test::PrintResult("video_tx", "", "goog_rtt", value, "ms", false);

	EXPECT_TRUE(pc_dict.GetString(
	Statistic("googEncodeUsagePercent", ssrc), &value));
	perf_test::PrintResult(
	"video_cpu_usage", "", "goog_encode_usage_percent", value, "%", false);
	return true;
	}

	static bool MaybePrintResultsForVideoReceive(
	const std::string& ssrc, const base::DictionaryValue& pc_dict) {
	std::string value;
	if (!pc_dict.GetString(Statistic("googFrameRateReceived", ssrc), &value)) {
	// Not a video receive stream.
	return false;
	}

	perf_test::PrintResult(
	"video_fps", "", "goog_frame_rate_recv", value, "fps", false);
	EXPECT_TRUE(
	pc_dict.GetString(Statistic("googFrameRateOutput", ssrc), &value));
	perf_test::PrintResult(
	"video_fps", "", "goog_frame_rate_output", value, "fps", false);

	EXPECT_TRUE(pc_dict.GetString(Statistic("packetsLost", ssrc), &value));
	perf_test::PrintResult("video_misc", "", "packets_lost", value, "", false);

	EXPECT_TRUE(pc_dict.GetString(Statistic("bytesReceived", ssrc), &value));
	perf_test::PrintResult(
	"video_total_bytes", "", "bytes_recv", value, "bytes", false);

	EXPECT_TRUE(
	pc_dict.GetString(Statistic("googFrameWidthReceived", ssrc), &value));
	perf_test::PrintResult(
	"video_resolution", "", "goog_frame_width_recv", value, "pixels", false);
	EXPECT_TRUE(
	pc_dict.GetString(Statistic("googFrameHeightReceived", ssrc), &value));
	perf_test::PrintResult(
	"video_resolution", "", "goog_frame_height_recv", value, "pixels", false);

	EXPECT_TRUE(pc_dict.GetString(Statistic("googCurrentDelayMs", ssrc), &value));
	perf_test::PrintResult(
	"video_rx", "", "goog_current_delay_ms", value, "ms", false);
	EXPECT_TRUE(pc_dict.GetString(Statistic("googTargetDelayMs", ssrc), &value));
	perf_test::PrintResult(
	"video_rx", "", "goog_target_delay_ms", value, "ms", false);
	EXPECT_TRUE(pc_dict.GetString(Statistic("googDecodeMs", ssrc), &value));
	perf_test::PrintResult("video_rx", "", "goog_decode_ms", value, "ms", false);
	EXPECT_TRUE(pc_dict.GetString(Statistic("googMaxDecodeMs", ssrc), &value));
	perf_test::PrintResult(
	"video_rx", "", "goog_max_decode_ms", value, "ms", false);
	EXPECT_TRUE(pc_dict.GetString(Statistic("googJitterBufferMs", ssrc), &value));
	perf_test::PrintResult(
	"video_rx", "", "goog_jitter_buffer_ms", value, "ms", false);
	EXPECT_TRUE(pc_dict.GetString(Statistic("googRenderDelayMs", ssrc), &value));
	perf_test::PrintResult(
	"video_rx", "", "goog_render_delay_ms", value, "ms", false);

	return true;
	}

	static std::string ExtractSsrcIdentifier(const std::string& key) {
	// Example key: ssrc_1234-someStatName. Grab the part before the dash.
	size_t key_start_pos = 0;
	size_t key_end_pos = key.find("-");
	CHECK(key_end_pos != std::string::npos) << "Could not parse key " << key;
	return key.substr(key_start_pos, key_end_pos - key_start_pos);
	}

	// Returns the set of unique ssrc identifiers in the call (e.g. ssrc_1234,
	// ssrc_12356, etc). \|stats_dict\| is the .stats dict from one peer connection.
	static std::set<std::string> FindAllSsrcIdentifiers(
	const base::DictionaryValue& stats_dict) {
	std::set<std::string> result;
	base::DictionaryValue::Iterator stats_iterator(stats_dict);

	while (!stats_iterator.IsAtEnd()) {
	if (stats_iterator.key().find("ssrc_") != std::string::npos)
	result.insert(ExtractSsrcIdentifier(stats_iterator.key()));
	stats_iterator.Advance();
	}
	return result;
	}

	namespace test {

	void PrintBweForVideoMetrics(const base::DictionaryValue& pc_dict) {
	const std::string kBweStatsKey = "bweforvideo";
	std::string value;
	ASSERT_TRUE(pc_dict.GetString(
	Statistic("googAvailableSendBandwidth", kBweStatsKey), &value));
	perf_test::PrintResult(
	"bwe_stats", "", "available_send_bw", value, "bit/s", false);
	ASSERT_TRUE(pc_dict.GetString(
	Statistic("googAvailableReceiveBandwidth", kBweStatsKey), &value));
	perf_test::PrintResult(
	"bwe_stats", "", "available_recv_bw", value, "bit/s", false);
	ASSERT_TRUE(pc_dict.GetString(
	Statistic("googTargetEncBitrate", kBweStatsKey), &value));
	perf_test::PrintResult(
	"bwe_stats", "", "target_enc_bitrate", value, "bit/s", false);
	ASSERT_TRUE(pc_dict.GetString(
	Statistic("googActualEncBitrate", kBweStatsKey), &value));
	perf_test::PrintResult(
	"bwe_stats", "", "actual_enc_bitrate", value, "bit/s", false);
	ASSERT_TRUE(pc_dict.GetString(
	Statistic("googTransmitBitrate", kBweStatsKey), &value));
	perf_test::PrintResult(
	"bwe_stats", "", "transmit_bitrate", value, "bit/s",false);
	}

	void PrintMetricsForAllStreams(const base::DictionaryValue& pc_dict) {
	const base::DictionaryValue* stats_dict;
	ASSERT_TRUE(pc_dict.GetDictionary("stats", &stats_dict));
	std::set<std::string> ssrc_identifiers = FindAllSsrcIdentifiers(*stats_dict);

	std::set<std::string>::const_iterator ssrc_iterator =
	ssrc_identifiers.begin();
	for (; ssrc_iterator != ssrc_identifiers.end(); ++ssrc_iterator) {
	// Figure out which stream type this ssrc represents and print all the
	// interesting metrics for it.
	const std::string& ssrc = *ssrc_iterator;
	bool did_recognize_stream_type =
	MaybePrintResultsForAudioReceive(ssrc, pc_dict) \|\|
	MaybePrintResultsForAudioSend(ssrc, pc_dict) \|\|
	MaybePrintResultsForVideoReceive(ssrc, pc_dict) \|\|
	MaybePrintResultsForVideoSend(ssrc, pc_dict);
	ASSERT_TRUE(did_recognize_stream_type) << "Failed to figure out which "
	"kind of stream SSRC " << ssrc
	<< " is. ";
	}
	}

	} // namespace test