modules/pacing/alr_detector_unittest.cc - src/webrtc - Git at Google

 /*
  *  Copyright (c) 2016 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 "webrtc/modules/pacing/alr_detector.h"

 #include "webrtc/test/gtest.h"

 namespace {

 constexpr int kEstimatedBitrateBps = 300000;

 }  // namespace

 namespace webrtc {

 namespace {
 class SimulateOutgoingTrafficIn {
  public:
   explicit SimulateOutgoingTrafficIn(AlrDetector* alr_detector)
       : alr_detector_(alr_detector) {
     RTC_CHECK(alr_detector_);
   }

   SimulateOutgoingTrafficIn& ForTimeMs(int time_ms) {
     interval_ms_ = rtc::Optional<int>(time_ms);
     interval_ms_.emplace(time_ms);
     ProduceTraffic();
     return *this;
   }

   SimulateOutgoingTrafficIn& AtPercentOfEstimatedBitrate(int usage_percentage) {
     usage_percentage_.emplace(usage_percentage);
     ProduceTraffic();
     return *this;
   }

  private:
   void ProduceTraffic() {
     if (!interval_ms_ || !usage_percentage_)
       return;
     const int kTimeStepMs = 10;
     for (int t = 0; t < *interval_ms_; t += kTimeStepMs) {
       alr_detector_->OnBytesSent(kEstimatedBitrateBps * *usage_percentage_ *
                                      kTimeStepMs / (8 * 100 * 1000),
                                  kTimeStepMs);
     }
     int remainder_ms = *interval_ms_ % kTimeStepMs;
     if (remainder_ms > 0) {
       alr_detector_->OnBytesSent(kEstimatedBitrateBps * *usage_percentage_ *
                                      remainder_ms / (8 * 100 * 1000),
                                  kTimeStepMs);
     }
   }
   AlrDetector* const alr_detector_;
   rtc::Optional<int> interval_ms_;
   rtc::Optional<int> usage_percentage_;
 };
 }  // namespace

 class AlrDetectorTest : public testing::Test {
  public:
   void SetUp() override {
     alr_detector_.SetEstimatedBitrate(kEstimatedBitrateBps);
   }

  protected:
   AlrDetector alr_detector_;
 };

 TEST_F(AlrDetectorTest, AlrDetection) {
   // Start in non-ALR state.
   EXPECT_FALSE(alr_detector_.GetApplicationLimitedRegionStartTime());

   // Stay in non-ALR state when usage is close to 100%.
   SimulateOutgoingTrafficIn(&alr_detector_)
       .ForTimeMs(1000)
       .AtPercentOfEstimatedBitrate(90);
   EXPECT_FALSE(alr_detector_.GetApplicationLimitedRegionStartTime());

   // Verify that we ALR starts when bitrate drops below 20%.
   SimulateOutgoingTrafficIn(&alr_detector_)
       .ForTimeMs(1500)
       .AtPercentOfEstimatedBitrate(20);
   EXPECT_TRUE(alr_detector_.GetApplicationLimitedRegionStartTime());

   // Verify that ALR ends when usage is above 65%.
   SimulateOutgoingTrafficIn(&alr_detector_)
       .ForTimeMs(1000)
       .AtPercentOfEstimatedBitrate(100);
   EXPECT_FALSE(alr_detector_.GetApplicationLimitedRegionStartTime());
 }

 TEST_F(AlrDetectorTest, ShortSpike) {
   // Start in non-ALR state.
   EXPECT_FALSE(alr_detector_.GetApplicationLimitedRegionStartTime());

   // Verify that we ALR starts when bitrate drops below 20%.
   SimulateOutgoingTrafficIn(&alr_detector_)
       .ForTimeMs(1000)
       .AtPercentOfEstimatedBitrate(20);
   EXPECT_TRUE(alr_detector_.GetApplicationLimitedRegionStartTime());

   // Verify that we stay in ALR region even after a short bitrate spike.
   SimulateOutgoingTrafficIn(&alr_detector_)
       .ForTimeMs(100)
       .AtPercentOfEstimatedBitrate(150);
   EXPECT_TRUE(alr_detector_.GetApplicationLimitedRegionStartTime());

   // ALR ends when usage is above 65%.
   SimulateOutgoingTrafficIn(&alr_detector_)
       .ForTimeMs(1000)
       .AtPercentOfEstimatedBitrate(100);
   EXPECT_FALSE(alr_detector_.GetApplicationLimitedRegionStartTime());
 }

 TEST_F(AlrDetectorTest, BandwidthEstimateChanges) {
   // Start in non-ALR state.
   EXPECT_FALSE(alr_detector_.GetApplicationLimitedRegionStartTime());

   // ALR starts when bitrate drops below 20%.
   SimulateOutgoingTrafficIn(&alr_detector_)
       .ForTimeMs(1000)
       .AtPercentOfEstimatedBitrate(20);
   EXPECT_TRUE(alr_detector_.GetApplicationLimitedRegionStartTime());

   // When bandwidth estimate drops the detector should stay in ALR mode and quit
   // it shortly afterwards as the sender continues sending the same amount of
   // traffic. This is necessary to ensure that ProbeController can still react
   // to the BWE drop by initiating a new probe.
   alr_detector_.SetEstimatedBitrate(kEstimatedBitrateBps / 5);
   EXPECT_TRUE(alr_detector_.GetApplicationLimitedRegionStartTime());
   SimulateOutgoingTrafficIn(&alr_detector_)
       .ForTimeMs(1000)
       .AtPercentOfEstimatedBitrate(50);
   EXPECT_FALSE(alr_detector_.GetApplicationLimitedRegionStartTime());
 }

 }  // namespace webrtc
	/*
	* Copyright (c) 2016 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 "webrtc/modules/pacing/alr_detector.h"

	#include "webrtc/test/gtest.h"

	namespace {

	constexpr int kEstimatedBitrateBps = 300000;

	} // namespace

	namespace webrtc {

	namespace {
	class SimulateOutgoingTrafficIn {
	public:
	explicit SimulateOutgoingTrafficIn(AlrDetector* alr_detector)
	: alr_detector_(alr_detector) {
	RTC_CHECK(alr_detector_);
	}

	SimulateOutgoingTrafficIn& ForTimeMs(int time_ms) {
	interval_ms_ = rtc::Optional<int>(time_ms);
	interval_ms_.emplace(time_ms);
	ProduceTraffic();
	return *this;
	}

	SimulateOutgoingTrafficIn& AtPercentOfEstimatedBitrate(int usage_percentage) {
	usage_percentage_.emplace(usage_percentage);
	ProduceTraffic();
	return *this;
	}

	private:
	void ProduceTraffic() {
	if (!interval_ms_ \|\| !usage_percentage_)
	return;
	const int kTimeStepMs = 10;
	for (int t = 0; t < *interval_ms_; t += kTimeStepMs) {
	alr_detector_->OnBytesSent(kEstimatedBitrateBps * usage_percentage_
	kTimeStepMs / (8 * 100 * 1000),
	kTimeStepMs);
	}
	int remainder_ms = *interval_ms_ % kTimeStepMs;
	if (remainder_ms > 0) {
	alr_detector_->OnBytesSent(kEstimatedBitrateBps * usage_percentage_
	remainder_ms / (8 * 100 * 1000),
	kTimeStepMs);
	}
	}
	AlrDetector* const alr_detector_;
	rtc::Optional<int> interval_ms_;
	rtc::Optional<int> usage_percentage_;
	};
	} // namespace

	class AlrDetectorTest : public testing::Test {
	public:
	void SetUp() override {
	alr_detector_.SetEstimatedBitrate(kEstimatedBitrateBps);
	}

	protected:
	AlrDetector alr_detector_;
	};

	TEST_F(AlrDetectorTest, AlrDetection) {
	// Start in non-ALR state.
	EXPECT_FALSE(alr_detector_.GetApplicationLimitedRegionStartTime());

	// Stay in non-ALR state when usage is close to 100%.
	SimulateOutgoingTrafficIn(&alr_detector_)
	.ForTimeMs(1000)
	.AtPercentOfEstimatedBitrate(90);
	EXPECT_FALSE(alr_detector_.GetApplicationLimitedRegionStartTime());

	// Verify that we ALR starts when bitrate drops below 20%.
	SimulateOutgoingTrafficIn(&alr_detector_)
	.ForTimeMs(1500)
	.AtPercentOfEstimatedBitrate(20);
	EXPECT_TRUE(alr_detector_.GetApplicationLimitedRegionStartTime());

	// Verify that ALR ends when usage is above 65%.
	SimulateOutgoingTrafficIn(&alr_detector_)
	.ForTimeMs(1000)
	.AtPercentOfEstimatedBitrate(100);
	EXPECT_FALSE(alr_detector_.GetApplicationLimitedRegionStartTime());
	}

	TEST_F(AlrDetectorTest, ShortSpike) {
	// Start in non-ALR state.
	EXPECT_FALSE(alr_detector_.GetApplicationLimitedRegionStartTime());

	// Verify that we ALR starts when bitrate drops below 20%.
	SimulateOutgoingTrafficIn(&alr_detector_)
	.ForTimeMs(1000)
	.AtPercentOfEstimatedBitrate(20);
	EXPECT_TRUE(alr_detector_.GetApplicationLimitedRegionStartTime());

	// Verify that we stay in ALR region even after a short bitrate spike.
	SimulateOutgoingTrafficIn(&alr_detector_)
	.ForTimeMs(100)
	.AtPercentOfEstimatedBitrate(150);
	EXPECT_TRUE(alr_detector_.GetApplicationLimitedRegionStartTime());

	// ALR ends when usage is above 65%.
	SimulateOutgoingTrafficIn(&alr_detector_)
	.ForTimeMs(1000)
	.AtPercentOfEstimatedBitrate(100);
	EXPECT_FALSE(alr_detector_.GetApplicationLimitedRegionStartTime());
	}

	TEST_F(AlrDetectorTest, BandwidthEstimateChanges) {
	// Start in non-ALR state.
	EXPECT_FALSE(alr_detector_.GetApplicationLimitedRegionStartTime());

	// ALR starts when bitrate drops below 20%.
	SimulateOutgoingTrafficIn(&alr_detector_)
	.ForTimeMs(1000)
	.AtPercentOfEstimatedBitrate(20);
	EXPECT_TRUE(alr_detector_.GetApplicationLimitedRegionStartTime());

	// When bandwidth estimate drops the detector should stay in ALR mode and quit
	// it shortly afterwards as the sender continues sending the same amount of
	// traffic. This is necessary to ensure that ProbeController can still react
	// to the BWE drop by initiating a new probe.
	alr_detector_.SetEstimatedBitrate(kEstimatedBitrateBps / 5);
	EXPECT_TRUE(alr_detector_.GetApplicationLimitedRegionStartTime());
	SimulateOutgoingTrafficIn(&alr_detector_)
	.ForTimeMs(1000)
	.AtPercentOfEstimatedBitrate(50);
	EXPECT_FALSE(alr_detector_.GetApplicationLimitedRegionStartTime());
	}

	} // namespace webrtc