voice_engine/test/auto_test/voe_conference_test.cc - src/webrtc - Git at Google

 /*
  *  Copyright (c) 2015 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 <queue>

 #include "webrtc/rtc_base/format_macros.h"
 #include "webrtc/rtc_base/timeutils.h"
 #include "webrtc/system_wrappers/include/sleep.h"
 #include "webrtc/test/gtest.h"
 #include "webrtc/test/testsupport/fileutils.h"
 #include "webrtc/voice_engine/test/auto_test/fakes/conference_transport.h"

 namespace webrtc {
 namespace {

 const int kRttMs = 25;

 bool IsNear(int ref, int comp, int error) {
   return (ref - comp <= error) && (comp - ref >= -error);
 }

 void CreateSilenceFile(const std::string& silence_file, int sample_rate_hz) {
   FILE* fid = fopen(silence_file.c_str(), "wb");
   int16_t zero = 0;
   for (int i = 0; i < sample_rate_hz; ++i) {
     // Write 1 second, but it does not matter since the file will be looped.
     fwrite(&zero, sizeof(int16_t), 1, fid);
   }
   fclose(fid);
 }

 }  // namespace

 namespace voetest {

 TEST(VoeConferenceTest, RttAndStartNtpTime) {
   struct Stats {
     Stats(int64_t rtt_receiver_1, int64_t rtt_receiver_2, int64_t ntp_delay)
         : rtt_receiver_1_(rtt_receiver_1),
           rtt_receiver_2_(rtt_receiver_2),
           ntp_delay_(ntp_delay) {
     }
     int64_t rtt_receiver_1_;
     int64_t rtt_receiver_2_;
     int64_t ntp_delay_;
   };

   const std::string input_file =
       webrtc::test::ResourcePath("audio_coding/testfile32kHz", "pcm");
   const webrtc::FileFormats kInputFormat = webrtc::kFileFormatPcm32kHzFile;

   const int kDelayMs = 987;
   ConferenceTransport trans;
   trans.SetRtt(kRttMs);

   unsigned int id_1 = trans.AddStream(input_file, kInputFormat);
   unsigned int id_2 = trans.AddStream(input_file, kInputFormat);

   EXPECT_TRUE(trans.StartPlayout(id_1));
   // Start NTP time is the time when a stream is played out, rather than
   // when it is added.
   webrtc::SleepMs(kDelayMs);
   EXPECT_TRUE(trans.StartPlayout(id_2));

   const int kMaxRunTimeMs = 25000;
   const int kNeedSuccessivePass = 3;
   const int kStatsRequestIntervalMs = 1000;
   const int kStatsBufferSize = 3;

   int64_t deadline = rtc::TimeAfter(kMaxRunTimeMs);
   // Run the following up to |kMaxRunTimeMs| milliseconds.
   int successive_pass = 0;
   webrtc::CallStatistics stats_1;
   webrtc::CallStatistics stats_2;
   std::queue<Stats> stats_buffer;

   while (rtc::TimeMillis() < deadline &&
          successive_pass < kNeedSuccessivePass) {
     webrtc::SleepMs(kStatsRequestIntervalMs);

     EXPECT_TRUE(trans.GetReceiverStatistics(id_1, &stats_1));
     EXPECT_TRUE(trans.GetReceiverStatistics(id_2, &stats_2));

     // It is not easy to verify the NTP time directly. We verify it by testing
     // the difference of two start NTP times.
     int64_t captured_start_ntp_delay = stats_2.capture_start_ntp_time_ms_ -
         stats_1.capture_start_ntp_time_ms_;

     // For the checks of RTT and start NTP time, We allow 10% accuracy.
     if (IsNear(kRttMs, stats_1.rttMs, kRttMs / 10 + 1) &&
         IsNear(kRttMs, stats_2.rttMs, kRttMs / 10 + 1) &&
         IsNear(kDelayMs, captured_start_ntp_delay, kDelayMs / 10 + 1)) {
       successive_pass++;
     } else {
       successive_pass = 0;
     }
     if (stats_buffer.size() >= kStatsBufferSize) {
       stats_buffer.pop();
     }
     stats_buffer.push(Stats(stats_1.rttMs, stats_2.rttMs,
                             captured_start_ntp_delay));
   }

   EXPECT_GE(successive_pass, kNeedSuccessivePass) << "Expected to get RTT and"
       " start NTP time estimate within 10% of the correct value over "
       << kStatsRequestIntervalMs * kNeedSuccessivePass / 1000
       << " seconds.";
   if (successive_pass < kNeedSuccessivePass) {
     printf("The most recent values (RTT for receiver 1, RTT for receiver 2, "
         "NTP delay between receiver 1 and 2) are (from oldest):\n");
     while (!stats_buffer.empty()) {
       Stats stats = stats_buffer.front();
       printf("(%" PRId64 ", %" PRId64 ", %" PRId64 ")\n", stats.rtt_receiver_1_,
              stats.rtt_receiver_2_, stats.ntp_delay_);
       stats_buffer.pop();
     }
   }
 }


 TEST(VoeConferenceTest, ReceivedPackets) {
   const int kPackets = 50;
   const int kPacketDurationMs = 20;  // Correspond to Opus.

   const std::string input_file =
       webrtc::test::ResourcePath("audio_coding/testfile32kHz", "pcm");
   const webrtc::FileFormats kInputFormat = webrtc::kFileFormatPcm32kHzFile;

   const std::string silence_file =
       webrtc::test::TempFilename(webrtc::test::OutputPath(), "silence");
   CreateSilenceFile(silence_file, 32000);

   {
     ConferenceTransport trans;
     // Add silence to stream 0, so that it will be filtered out.
     unsigned int id_0 = trans.AddStream(silence_file, kInputFormat);
     unsigned int id_1 = trans.AddStream(input_file, kInputFormat);
     unsigned int id_2 = trans.AddStream(input_file, kInputFormat);
     unsigned int id_3 = trans.AddStream(input_file, kInputFormat);

     EXPECT_TRUE(trans.StartPlayout(id_0));
     EXPECT_TRUE(trans.StartPlayout(id_1));
     EXPECT_TRUE(trans.StartPlayout(id_2));
     EXPECT_TRUE(trans.StartPlayout(id_3));

     webrtc::SleepMs(kPacketDurationMs * kPackets);

     webrtc::CallStatistics stats_0;
     webrtc::CallStatistics stats_1;
     webrtc::CallStatistics stats_2;
     webrtc::CallStatistics stats_3;
     EXPECT_TRUE(trans.GetReceiverStatistics(id_0, &stats_0));
     EXPECT_TRUE(trans.GetReceiverStatistics(id_1, &stats_1));
     EXPECT_TRUE(trans.GetReceiverStatistics(id_2, &stats_2));
     EXPECT_TRUE(trans.GetReceiverStatistics(id_3, &stats_3));

     // We expect stream 0 to be filtered out totally, but since it may join the
     // call earlier than other streams and the beginning packets might have got
     // through. So we only expect |packetsReceived| to be close to zero.
     EXPECT_NEAR(stats_0.packetsReceived, 0, 2);
     // We expect |packetsReceived| to match |kPackets|, but the actual value
     // depends on the sleep timer. So we allow a small off from |kPackets|.
     EXPECT_NEAR(stats_1.packetsReceived, kPackets, 2);
     EXPECT_NEAR(stats_2.packetsReceived, kPackets, 2);
     EXPECT_NEAR(stats_3.packetsReceived, kPackets, 2);
   }

   remove(silence_file.c_str());
 }

 }  // namespace voetest
 }  // namespace webrtc
	/*
	* Copyright (c) 2015 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 <queue>

	#include "webrtc/rtc_base/format_macros.h"
	#include "webrtc/rtc_base/timeutils.h"
	#include "webrtc/system_wrappers/include/sleep.h"
	#include "webrtc/test/gtest.h"
	#include "webrtc/test/testsupport/fileutils.h"
	#include "webrtc/voice_engine/test/auto_test/fakes/conference_transport.h"

	namespace webrtc {
	namespace {

	const int kRttMs = 25;

	bool IsNear(int ref, int comp, int error) {
	return (ref - comp <= error) && (comp - ref >= -error);
	}

	void CreateSilenceFile(const std::string& silence_file, int sample_rate_hz) {
	FILE* fid = fopen(silence_file.c_str(), "wb");
	int16_t zero = 0;
	for (int i = 0; i < sample_rate_hz; ++i) {
	// Write 1 second, but it does not matter since the file will be looped.
	fwrite(&zero, sizeof(int16_t), 1, fid);
	}
	fclose(fid);
	}

	} // namespace

	namespace voetest {

	TEST(VoeConferenceTest, RttAndStartNtpTime) {
	struct Stats {
	Stats(int64_t rtt_receiver_1, int64_t rtt_receiver_2, int64_t ntp_delay)
	: rtt_receiver_1_(rtt_receiver_1),
	rtt_receiver_2_(rtt_receiver_2),
	ntp_delay_(ntp_delay) {
	}
	int64_t rtt_receiver_1_;
	int64_t rtt_receiver_2_;
	int64_t ntp_delay_;
	};

	const std::string input_file =
	webrtc::test::ResourcePath("audio_coding/testfile32kHz", "pcm");
	const webrtc::FileFormats kInputFormat = webrtc::kFileFormatPcm32kHzFile;

	const int kDelayMs = 987;
	ConferenceTransport trans;
	trans.SetRtt(kRttMs);

	unsigned int id_1 = trans.AddStream(input_file, kInputFormat);
	unsigned int id_2 = trans.AddStream(input_file, kInputFormat);

	EXPECT_TRUE(trans.StartPlayout(id_1));
	// Start NTP time is the time when a stream is played out, rather than
	// when it is added.
	webrtc::SleepMs(kDelayMs);
	EXPECT_TRUE(trans.StartPlayout(id_2));

	const int kMaxRunTimeMs = 25000;
	const int kNeedSuccessivePass = 3;
	const int kStatsRequestIntervalMs = 1000;
	const int kStatsBufferSize = 3;

	int64_t deadline = rtc::TimeAfter(kMaxRunTimeMs);
	// Run the following up to \|kMaxRunTimeMs\| milliseconds.
	int successive_pass = 0;
	webrtc::CallStatistics stats_1;
	webrtc::CallStatistics stats_2;
	std::queue<Stats> stats_buffer;

	while (rtc::TimeMillis() < deadline &&
	successive_pass < kNeedSuccessivePass) {
	webrtc::SleepMs(kStatsRequestIntervalMs);

	EXPECT_TRUE(trans.GetReceiverStatistics(id_1, &stats_1));
	EXPECT_TRUE(trans.GetReceiverStatistics(id_2, &stats_2));

	// It is not easy to verify the NTP time directly. We verify it by testing
	// the difference of two start NTP times.
	int64_t captured_start_ntp_delay = stats_2.capture_start_ntp_time_ms_ -
	stats_1.capture_start_ntp_time_ms_;

	// For the checks of RTT and start NTP time, We allow 10% accuracy.
	if (IsNear(kRttMs, stats_1.rttMs, kRttMs / 10 + 1) &&
	IsNear(kRttMs, stats_2.rttMs, kRttMs / 10 + 1) &&
	IsNear(kDelayMs, captured_start_ntp_delay, kDelayMs / 10 + 1)) {
	successive_pass++;
	} else {
	successive_pass = 0;
	}
	if (stats_buffer.size() >= kStatsBufferSize) {
	stats_buffer.pop();
	}
	stats_buffer.push(Stats(stats_1.rttMs, stats_2.rttMs,
	captured_start_ntp_delay));
	}

	EXPECT_GE(successive_pass, kNeedSuccessivePass) << "Expected to get RTT and"
	" start NTP time estimate within 10% of the correct value over "
	<< kStatsRequestIntervalMs * kNeedSuccessivePass / 1000
	<< " seconds.";
	if (successive_pass < kNeedSuccessivePass) {
	printf("The most recent values (RTT for receiver 1, RTT for receiver 2, "
	"NTP delay between receiver 1 and 2) are (from oldest):\n");
	while (!stats_buffer.empty()) {
	Stats stats = stats_buffer.front();
	printf("(%" PRId64 ", %" PRId64 ", %" PRId64 ")\n", stats.rtt_receiver_1_,
	stats.rtt_receiver_2_, stats.ntp_delay_);
	stats_buffer.pop();
	}
	}
	}


	TEST(VoeConferenceTest, ReceivedPackets) {
	const int kPackets = 50;
	const int kPacketDurationMs = 20; // Correspond to Opus.

	const std::string input_file =
	webrtc::test::ResourcePath("audio_coding/testfile32kHz", "pcm");
	const webrtc::FileFormats kInputFormat = webrtc::kFileFormatPcm32kHzFile;

	const std::string silence_file =
	webrtc::test::TempFilename(webrtc::test::OutputPath(), "silence");
	CreateSilenceFile(silence_file, 32000);

	{
	ConferenceTransport trans;
	// Add silence to stream 0, so that it will be filtered out.
	unsigned int id_0 = trans.AddStream(silence_file, kInputFormat);
	unsigned int id_1 = trans.AddStream(input_file, kInputFormat);
	unsigned int id_2 = trans.AddStream(input_file, kInputFormat);
	unsigned int id_3 = trans.AddStream(input_file, kInputFormat);

	EXPECT_TRUE(trans.StartPlayout(id_0));
	EXPECT_TRUE(trans.StartPlayout(id_1));
	EXPECT_TRUE(trans.StartPlayout(id_2));
	EXPECT_TRUE(trans.StartPlayout(id_3));

	webrtc::SleepMs(kPacketDurationMs * kPackets);

	webrtc::CallStatistics stats_0;
	webrtc::CallStatistics stats_1;
	webrtc::CallStatistics stats_2;
	webrtc::CallStatistics stats_3;
	EXPECT_TRUE(trans.GetReceiverStatistics(id_0, &stats_0));
	EXPECT_TRUE(trans.GetReceiverStatistics(id_1, &stats_1));
	EXPECT_TRUE(trans.GetReceiverStatistics(id_2, &stats_2));
	EXPECT_TRUE(trans.GetReceiverStatistics(id_3, &stats_3));

	// We expect stream 0 to be filtered out totally, but since it may join the
	// call earlier than other streams and the beginning packets might have got
	// through. So we only expect \|packetsReceived\| to be close to zero.
	EXPECT_NEAR(stats_0.packetsReceived, 0, 2);
	// We expect \|packetsReceived\| to match \|kPackets\|, but the actual value
	// depends on the sleep timer. So we allow a small off from \|kPackets\|.
	EXPECT_NEAR(stats_1.packetsReceived, kPackets, 2);
	EXPECT_NEAR(stats_2.packetsReceived, kPackets, 2);
	EXPECT_NEAR(stats_3.packetsReceived, kPackets, 2);
	}

	remove(silence_file.c_str());
	}

	} // namespace voetest
	} // namespace webrtc