modules/congestion_controller/probe_controller_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 <memory>

 #include "webrtc/modules/congestion_controller/probe_controller.h"
 #include "webrtc/modules/pacing/mock/mock_paced_sender.h"
 #include "webrtc/rtc_base/logging.h"
 #include "webrtc/system_wrappers/include/clock.h"
 #include "webrtc/test/gmock.h"
 #include "webrtc/test/gtest.h"

 using testing::_;
 using testing::AtLeast;
 using testing::NiceMock;
 using testing::Return;

 namespace webrtc {
 namespace test {

 namespace {

 constexpr int kMinBitrateBps = 100;
 constexpr int kStartBitrateBps = 300;
 constexpr int kMaxBitrateBps = 10000;

 constexpr int kExponentialProbingTimeoutMs = 5000;

 constexpr int kAlrProbeInterval = 5000;
 constexpr int kAlrEndedTimeoutMs = 3000;
 constexpr int kBitrateDropTimeoutMs = 5000;

 }  // namespace

 class ProbeControllerTest : public ::testing::Test {
  protected:
   ProbeControllerTest() : clock_(100000000L) {
     probe_controller_.reset(new ProbeController(&pacer_, &clock_));
   }
   ~ProbeControllerTest() override {}

   SimulatedClock clock_;
   NiceMock<MockPacedSender> pacer_;
   std::unique_ptr<ProbeController> probe_controller_;
 };

 TEST_F(ProbeControllerTest, InitiatesProbingAtStart) {
   EXPECT_CALL(pacer_, CreateProbeCluster(_)).Times(AtLeast(2));
   probe_controller_->SetBitrates(kMinBitrateBps, kStartBitrateBps,
                                  kMaxBitrateBps);
 }

 TEST_F(ProbeControllerTest, ProbeOnlyWhenNetworkIsUp) {
   probe_controller_->OnNetworkStateChanged(kNetworkDown);
   EXPECT_CALL(pacer_, CreateProbeCluster(_)).Times(0);
   probe_controller_->SetBitrates(kMinBitrateBps, kStartBitrateBps,
                                  kMaxBitrateBps);

   testing::Mock::VerifyAndClearExpectations(&pacer_);
   EXPECT_CALL(pacer_, CreateProbeCluster(_)).Times(AtLeast(2));
   probe_controller_->OnNetworkStateChanged(kNetworkUp);
 }

 TEST_F(ProbeControllerTest, InitiatesProbingOnMaxBitrateIncrease) {
   EXPECT_CALL(pacer_, CreateProbeCluster(_)).Times(AtLeast(2));
   probe_controller_->SetBitrates(kMinBitrateBps, kStartBitrateBps,
                                  kMaxBitrateBps);
   // Long enough to time out exponential probing.
   clock_.AdvanceTimeMilliseconds(kExponentialProbingTimeoutMs);
   probe_controller_->SetEstimatedBitrate(kStartBitrateBps);
   probe_controller_->Process();

   EXPECT_CALL(pacer_, CreateProbeCluster(kMaxBitrateBps + 100));
   probe_controller_->SetBitrates(kMinBitrateBps, kStartBitrateBps,
                                  kMaxBitrateBps + 100);
 }

 TEST_F(ProbeControllerTest, InitiatesProbingOnMaxBitrateIncreaseAtMaxBitrate) {
   EXPECT_CALL(pacer_, CreateProbeCluster(_)).Times(AtLeast(2));
   probe_controller_->SetBitrates(kMinBitrateBps, kStartBitrateBps,
                                  kMaxBitrateBps);
   // Long enough to time out exponential probing.
   clock_.AdvanceTimeMilliseconds(kExponentialProbingTimeoutMs);
   probe_controller_->SetEstimatedBitrate(kStartBitrateBps);
   probe_controller_->Process();

   probe_controller_->SetEstimatedBitrate(kMaxBitrateBps);
   EXPECT_CALL(pacer_, CreateProbeCluster(kMaxBitrateBps + 100));
   probe_controller_->SetBitrates(kMinBitrateBps, kStartBitrateBps,
                                  kMaxBitrateBps + 100);
 }

 TEST_F(ProbeControllerTest, TestExponentialProbing) {
   probe_controller_->SetBitrates(kMinBitrateBps, kStartBitrateBps,
                                  kMaxBitrateBps);

   // Repeated probe should only be sent when estimated bitrate climbs above
   // 0.7 * 6 * kStartBitrateBps = 1260.
   EXPECT_CALL(pacer_, CreateProbeCluster(_)).Times(0);
   probe_controller_->SetEstimatedBitrate(1000);
   testing::Mock::VerifyAndClearExpectations(&pacer_);

   EXPECT_CALL(pacer_, CreateProbeCluster(2 * 1800));
   probe_controller_->SetEstimatedBitrate(1800);
 }

 TEST_F(ProbeControllerTest, TestExponentialProbingTimeout) {
   probe_controller_->SetBitrates(kMinBitrateBps, kStartBitrateBps,
                                  kMaxBitrateBps);

   // Advance far enough to cause a time out in waiting for probing result.
   clock_.AdvanceTimeMilliseconds(kExponentialProbingTimeoutMs);
   probe_controller_->Process();

   EXPECT_CALL(pacer_, CreateProbeCluster(_)).Times(0);
   probe_controller_->SetEstimatedBitrate(1800);
 }

 TEST_F(ProbeControllerTest, RequestProbeInAlr) {
   EXPECT_CALL(pacer_, CreateProbeCluster(_)).Times(2);
   probe_controller_->SetBitrates(kMinBitrateBps, kStartBitrateBps,
                                  kMaxBitrateBps);
   probe_controller_->SetEstimatedBitrate(500);
   testing::Mock::VerifyAndClearExpectations(&pacer_);
   EXPECT_CALL(pacer_, CreateProbeCluster(0.85 * 500)).Times(1);
   EXPECT_CALL(pacer_, GetApplicationLimitedRegionStartTime())
       .WillRepeatedly(
           Return(rtc::Optional<int64_t>(clock_.TimeInMilliseconds())));
   clock_.AdvanceTimeMilliseconds(kAlrProbeInterval + 1);
   probe_controller_->Process();
   probe_controller_->SetEstimatedBitrate(250);
   probe_controller_->RequestProbe();
 }

 TEST_F(ProbeControllerTest, RequestProbeWhenAlrEndedRecently) {
   EXPECT_CALL(pacer_, CreateProbeCluster(_)).Times(2);
   probe_controller_->SetBitrates(kMinBitrateBps, kStartBitrateBps,
                                  kMaxBitrateBps);
   probe_controller_->SetEstimatedBitrate(500);
   testing::Mock::VerifyAndClearExpectations(&pacer_);
   EXPECT_CALL(pacer_, CreateProbeCluster(0.85 * 500)).Times(1);
   EXPECT_CALL(pacer_, GetApplicationLimitedRegionStartTime())
       .WillRepeatedly(Return(rtc::Optional<int64_t>()));
   clock_.AdvanceTimeMilliseconds(kAlrProbeInterval + 1);
   probe_controller_->Process();
   probe_controller_->SetEstimatedBitrate(250);
   probe_controller_->SetAlrEndedTimeMs(clock_.TimeInMilliseconds());
   clock_.AdvanceTimeMilliseconds(kAlrEndedTimeoutMs - 1);
   probe_controller_->RequestProbe();
 }

 TEST_F(ProbeControllerTest, RequestProbeWhenAlrNotEndedRecently) {
   EXPECT_CALL(pacer_, CreateProbeCluster(_)).Times(2);
   probe_controller_->SetBitrates(kMinBitrateBps, kStartBitrateBps,
                                  kMaxBitrateBps);
   probe_controller_->SetEstimatedBitrate(500);
   testing::Mock::VerifyAndClearExpectations(&pacer_);
   EXPECT_CALL(pacer_, CreateProbeCluster(_)).Times(0);
   EXPECT_CALL(pacer_, GetApplicationLimitedRegionStartTime())
       .WillRepeatedly(Return(rtc::Optional<int64_t>()));
   clock_.AdvanceTimeMilliseconds(kAlrProbeInterval + 1);
   probe_controller_->Process();
   probe_controller_->SetEstimatedBitrate(250);
   probe_controller_->SetAlrEndedTimeMs(clock_.TimeInMilliseconds());
   clock_.AdvanceTimeMilliseconds(kAlrEndedTimeoutMs + 1);
   probe_controller_->RequestProbe();
 }

 TEST_F(ProbeControllerTest, RequestProbeWhenBweDropNotRecent) {
   EXPECT_CALL(pacer_, CreateProbeCluster(_)).Times(2);
   probe_controller_->SetBitrates(kMinBitrateBps, kStartBitrateBps,
                                  kMaxBitrateBps);
   probe_controller_->SetEstimatedBitrate(500);
   testing::Mock::VerifyAndClearExpectations(&pacer_);
   EXPECT_CALL(pacer_, CreateProbeCluster(_)).Times(0);
   EXPECT_CALL(pacer_, GetApplicationLimitedRegionStartTime())
       .WillRepeatedly(
           Return(rtc::Optional<int64_t>(clock_.TimeInMilliseconds())));
   clock_.AdvanceTimeMilliseconds(kAlrProbeInterval + 1);
   probe_controller_->Process();
   probe_controller_->SetEstimatedBitrate(250);
   clock_.AdvanceTimeMilliseconds(kBitrateDropTimeoutMs + 1);
   probe_controller_->RequestProbe();
 }

 TEST_F(ProbeControllerTest, PeriodicProbing) {
   EXPECT_CALL(pacer_, CreateProbeCluster(_)).Times(2);
   probe_controller_->EnablePeriodicAlrProbing(true);
   probe_controller_->SetBitrates(kMinBitrateBps, kStartBitrateBps,
                                  kMaxBitrateBps);
   probe_controller_->SetEstimatedBitrate(500);
   testing::Mock::VerifyAndClearExpectations(&pacer_);

   int64_t start_time = clock_.TimeInMilliseconds();

   // Expect the controller to send a new probe after 5s has passed.
   EXPECT_CALL(pacer_, CreateProbeCluster(1000)).Times(1);
   EXPECT_CALL(pacer_, GetApplicationLimitedRegionStartTime())
       .WillRepeatedly(Return(rtc::Optional<int64_t>(start_time)));
   clock_.AdvanceTimeMilliseconds(5000);
   probe_controller_->Process();
   probe_controller_->SetEstimatedBitrate(500);
   testing::Mock::VerifyAndClearExpectations(&pacer_);

   // The following probe should be sent at 10s into ALR.
   EXPECT_CALL(pacer_, CreateProbeCluster(_)).Times(0);
   EXPECT_CALL(pacer_, GetApplicationLimitedRegionStartTime())
       .WillRepeatedly(Return(rtc::Optional<int64_t>(start_time)));
   clock_.AdvanceTimeMilliseconds(4000);
   probe_controller_->Process();
   probe_controller_->SetEstimatedBitrate(500);
   testing::Mock::VerifyAndClearExpectations(&pacer_);

   EXPECT_CALL(pacer_, CreateProbeCluster(_)).Times(1);
   EXPECT_CALL(pacer_, GetApplicationLimitedRegionStartTime())
       .WillRepeatedly(Return(rtc::Optional<int64_t>(start_time)));
   clock_.AdvanceTimeMilliseconds(1000);
   probe_controller_->Process();
   probe_controller_->SetEstimatedBitrate(500);
   testing::Mock::VerifyAndClearExpectations(&pacer_);
 }

 TEST_F(ProbeControllerTest, PeriodicProbingAfterReset) {
   testing::StrictMock<MockPacedSender> local_pacer;
   probe_controller_.reset(new ProbeController(&local_pacer, &clock_));
   int64_t alr_start_time = clock_.TimeInMilliseconds();
   EXPECT_CALL(local_pacer, GetApplicationLimitedRegionStartTime())
       .WillRepeatedly(
           Return(rtc::Optional<int64_t>(alr_start_time)));

   EXPECT_CALL(local_pacer, CreateProbeCluster(_)).Times(2);
   probe_controller_->EnablePeriodicAlrProbing(true);
   probe_controller_->SetBitrates(kMinBitrateBps, kStartBitrateBps,
                                  kMaxBitrateBps);
   probe_controller_->Reset();

   clock_.AdvanceTimeMilliseconds(10000);
   probe_controller_->Process();

   EXPECT_CALL(local_pacer, CreateProbeCluster(_)).Times(2);
   probe_controller_->SetBitrates(kMinBitrateBps, kStartBitrateBps,
                                  kMaxBitrateBps);

   // Make sure we use |kStartBitrateBps| as the estimated bitrate
   // until SetEstimatedBitrate is called with an updated estimate.
   clock_.AdvanceTimeMilliseconds(10000);
   EXPECT_CALL(local_pacer, CreateProbeCluster(kStartBitrateBps*2));
   probe_controller_->Process();
 }

 TEST_F(ProbeControllerTest, TestExponentialProbingOverflow) {
   const int64_t kMbpsMultiplier = 1000000;
   probe_controller_->SetBitrates(kMinBitrateBps, 10 * kMbpsMultiplier,
                                  100 * kMbpsMultiplier);

   // Verify that probe bitrate is capped at the specified max bitrate
   EXPECT_CALL(pacer_, CreateProbeCluster(100 * kMbpsMultiplier));
   probe_controller_->SetEstimatedBitrate(60 * kMbpsMultiplier);
   testing::Mock::VerifyAndClearExpectations(&pacer_);

   // Verify that repeated probes aren't sent.
   EXPECT_CALL(pacer_, CreateProbeCluster(_)).Times(0);
   probe_controller_->SetEstimatedBitrate(100 * kMbpsMultiplier);
 }

 }  // namespace test
 }  // 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 <memory>

	#include "webrtc/modules/congestion_controller/probe_controller.h"
	#include "webrtc/modules/pacing/mock/mock_paced_sender.h"
	#include "webrtc/rtc_base/logging.h"
	#include "webrtc/system_wrappers/include/clock.h"
	#include "webrtc/test/gmock.h"
	#include "webrtc/test/gtest.h"

	using testing::_;
	using testing::AtLeast;
	using testing::NiceMock;
	using testing::Return;

	namespace webrtc {
	namespace test {

	namespace {

	constexpr int kMinBitrateBps = 100;
	constexpr int kStartBitrateBps = 300;
	constexpr int kMaxBitrateBps = 10000;

	constexpr int kExponentialProbingTimeoutMs = 5000;

	constexpr int kAlrProbeInterval = 5000;
	constexpr int kAlrEndedTimeoutMs = 3000;
	constexpr int kBitrateDropTimeoutMs = 5000;

	} // namespace

	class ProbeControllerTest : public ::testing::Test {
	protected:
	ProbeControllerTest() : clock_(100000000L) {
	probe_controller_.reset(new ProbeController(&pacer_, &clock_));
	}
	~ProbeControllerTest() override {}

	SimulatedClock clock_;
	NiceMock<MockPacedSender> pacer_;
	std::unique_ptr<ProbeController> probe_controller_;
	};

	TEST_F(ProbeControllerTest, InitiatesProbingAtStart) {
	EXPECT_CALL(pacer_, CreateProbeCluster(_)).Times(AtLeast(2));
	probe_controller_->SetBitrates(kMinBitrateBps, kStartBitrateBps,
	kMaxBitrateBps);
	}

	TEST_F(ProbeControllerTest, ProbeOnlyWhenNetworkIsUp) {
	probe_controller_->OnNetworkStateChanged(kNetworkDown);
	EXPECT_CALL(pacer_, CreateProbeCluster(_)).Times(0);
	probe_controller_->SetBitrates(kMinBitrateBps, kStartBitrateBps,
	kMaxBitrateBps);

	testing::Mock::VerifyAndClearExpectations(&pacer_);
	EXPECT_CALL(pacer_, CreateProbeCluster(_)).Times(AtLeast(2));
	probe_controller_->OnNetworkStateChanged(kNetworkUp);
	}

	TEST_F(ProbeControllerTest, InitiatesProbingOnMaxBitrateIncrease) {
	EXPECT_CALL(pacer_, CreateProbeCluster(_)).Times(AtLeast(2));
	probe_controller_->SetBitrates(kMinBitrateBps, kStartBitrateBps,
	kMaxBitrateBps);
	// Long enough to time out exponential probing.
	clock_.AdvanceTimeMilliseconds(kExponentialProbingTimeoutMs);
	probe_controller_->SetEstimatedBitrate(kStartBitrateBps);
	probe_controller_->Process();

	EXPECT_CALL(pacer_, CreateProbeCluster(kMaxBitrateBps + 100));
	probe_controller_->SetBitrates(kMinBitrateBps, kStartBitrateBps,
	kMaxBitrateBps + 100);
	}

	TEST_F(ProbeControllerTest, InitiatesProbingOnMaxBitrateIncreaseAtMaxBitrate) {
	EXPECT_CALL(pacer_, CreateProbeCluster(_)).Times(AtLeast(2));
	probe_controller_->SetBitrates(kMinBitrateBps, kStartBitrateBps,
	kMaxBitrateBps);
	// Long enough to time out exponential probing.
	clock_.AdvanceTimeMilliseconds(kExponentialProbingTimeoutMs);
	probe_controller_->SetEstimatedBitrate(kStartBitrateBps);
	probe_controller_->Process();

	probe_controller_->SetEstimatedBitrate(kMaxBitrateBps);
	EXPECT_CALL(pacer_, CreateProbeCluster(kMaxBitrateBps + 100));
	probe_controller_->SetBitrates(kMinBitrateBps, kStartBitrateBps,
	kMaxBitrateBps + 100);
	}

	TEST_F(ProbeControllerTest, TestExponentialProbing) {
	probe_controller_->SetBitrates(kMinBitrateBps, kStartBitrateBps,
	kMaxBitrateBps);

	// Repeated probe should only be sent when estimated bitrate climbs above
	// 0.7 * 6 * kStartBitrateBps = 1260.
	EXPECT_CALL(pacer_, CreateProbeCluster(_)).Times(0);
	probe_controller_->SetEstimatedBitrate(1000);
	testing::Mock::VerifyAndClearExpectations(&pacer_);

	EXPECT_CALL(pacer_, CreateProbeCluster(2 * 1800));
	probe_controller_->SetEstimatedBitrate(1800);
	}

	TEST_F(ProbeControllerTest, TestExponentialProbingTimeout) {
	probe_controller_->SetBitrates(kMinBitrateBps, kStartBitrateBps,
	kMaxBitrateBps);

	// Advance far enough to cause a time out in waiting for probing result.
	clock_.AdvanceTimeMilliseconds(kExponentialProbingTimeoutMs);
	probe_controller_->Process();

	EXPECT_CALL(pacer_, CreateProbeCluster(_)).Times(0);
	probe_controller_->SetEstimatedBitrate(1800);
	}

	TEST_F(ProbeControllerTest, RequestProbeInAlr) {
	EXPECT_CALL(pacer_, CreateProbeCluster(_)).Times(2);
	probe_controller_->SetBitrates(kMinBitrateBps, kStartBitrateBps,
	kMaxBitrateBps);
	probe_controller_->SetEstimatedBitrate(500);
	testing::Mock::VerifyAndClearExpectations(&pacer_);
	EXPECT_CALL(pacer_, CreateProbeCluster(0.85 * 500)).Times(1);
	EXPECT_CALL(pacer_, GetApplicationLimitedRegionStartTime())
	.WillRepeatedly(
	Return(rtc::Optional<int64_t>(clock_.TimeInMilliseconds())));
	clock_.AdvanceTimeMilliseconds(kAlrProbeInterval + 1);
	probe_controller_->Process();
	probe_controller_->SetEstimatedBitrate(250);
	probe_controller_->RequestProbe();
	}

	TEST_F(ProbeControllerTest, RequestProbeWhenAlrEndedRecently) {
	EXPECT_CALL(pacer_, CreateProbeCluster(_)).Times(2);
	probe_controller_->SetBitrates(kMinBitrateBps, kStartBitrateBps,
	kMaxBitrateBps);
	probe_controller_->SetEstimatedBitrate(500);
	testing::Mock::VerifyAndClearExpectations(&pacer_);
	EXPECT_CALL(pacer_, CreateProbeCluster(0.85 * 500)).Times(1);
	EXPECT_CALL(pacer_, GetApplicationLimitedRegionStartTime())
	.WillRepeatedly(Return(rtc::Optional<int64_t>()));
	clock_.AdvanceTimeMilliseconds(kAlrProbeInterval + 1);
	probe_controller_->Process();
	probe_controller_->SetEstimatedBitrate(250);
	probe_controller_->SetAlrEndedTimeMs(clock_.TimeInMilliseconds());
	clock_.AdvanceTimeMilliseconds(kAlrEndedTimeoutMs - 1);
	probe_controller_->RequestProbe();
	}

	TEST_F(ProbeControllerTest, RequestProbeWhenAlrNotEndedRecently) {
	EXPECT_CALL(pacer_, CreateProbeCluster(_)).Times(2);
	probe_controller_->SetBitrates(kMinBitrateBps, kStartBitrateBps,
	kMaxBitrateBps);
	probe_controller_->SetEstimatedBitrate(500);
	testing::Mock::VerifyAndClearExpectations(&pacer_);
	EXPECT_CALL(pacer_, CreateProbeCluster(_)).Times(0);
	EXPECT_CALL(pacer_, GetApplicationLimitedRegionStartTime())
	.WillRepeatedly(Return(rtc::Optional<int64_t>()));
	clock_.AdvanceTimeMilliseconds(kAlrProbeInterval + 1);
	probe_controller_->Process();
	probe_controller_->SetEstimatedBitrate(250);
	probe_controller_->SetAlrEndedTimeMs(clock_.TimeInMilliseconds());
	clock_.AdvanceTimeMilliseconds(kAlrEndedTimeoutMs + 1);
	probe_controller_->RequestProbe();
	}

	TEST_F(ProbeControllerTest, RequestProbeWhenBweDropNotRecent) {
	EXPECT_CALL(pacer_, CreateProbeCluster(_)).Times(2);
	probe_controller_->SetBitrates(kMinBitrateBps, kStartBitrateBps,
	kMaxBitrateBps);
	probe_controller_->SetEstimatedBitrate(500);
	testing::Mock::VerifyAndClearExpectations(&pacer_);
	EXPECT_CALL(pacer_, CreateProbeCluster(_)).Times(0);
	EXPECT_CALL(pacer_, GetApplicationLimitedRegionStartTime())
	.WillRepeatedly(
	Return(rtc::Optional<int64_t>(clock_.TimeInMilliseconds())));
	clock_.AdvanceTimeMilliseconds(kAlrProbeInterval + 1);
	probe_controller_->Process();
	probe_controller_->SetEstimatedBitrate(250);
	clock_.AdvanceTimeMilliseconds(kBitrateDropTimeoutMs + 1);
	probe_controller_->RequestProbe();
	}

	TEST_F(ProbeControllerTest, PeriodicProbing) {
	EXPECT_CALL(pacer_, CreateProbeCluster(_)).Times(2);
	probe_controller_->EnablePeriodicAlrProbing(true);
	probe_controller_->SetBitrates(kMinBitrateBps, kStartBitrateBps,
	kMaxBitrateBps);
	probe_controller_->SetEstimatedBitrate(500);
	testing::Mock::VerifyAndClearExpectations(&pacer_);

	int64_t start_time = clock_.TimeInMilliseconds();

	// Expect the controller to send a new probe after 5s has passed.
	EXPECT_CALL(pacer_, CreateProbeCluster(1000)).Times(1);
	EXPECT_CALL(pacer_, GetApplicationLimitedRegionStartTime())
	.WillRepeatedly(Return(rtc::Optional<int64_t>(start_time)));
	clock_.AdvanceTimeMilliseconds(5000);
	probe_controller_->Process();
	probe_controller_->SetEstimatedBitrate(500);
	testing::Mock::VerifyAndClearExpectations(&pacer_);

	// The following probe should be sent at 10s into ALR.
	EXPECT_CALL(pacer_, CreateProbeCluster(_)).Times(0);
	EXPECT_CALL(pacer_, GetApplicationLimitedRegionStartTime())
	.WillRepeatedly(Return(rtc::Optional<int64_t>(start_time)));
	clock_.AdvanceTimeMilliseconds(4000);
	probe_controller_->Process();
	probe_controller_->SetEstimatedBitrate(500);
	testing::Mock::VerifyAndClearExpectations(&pacer_);

	EXPECT_CALL(pacer_, CreateProbeCluster(_)).Times(1);
	EXPECT_CALL(pacer_, GetApplicationLimitedRegionStartTime())
	.WillRepeatedly(Return(rtc::Optional<int64_t>(start_time)));
	clock_.AdvanceTimeMilliseconds(1000);
	probe_controller_->Process();
	probe_controller_->SetEstimatedBitrate(500);
	testing::Mock::VerifyAndClearExpectations(&pacer_);
	}

	TEST_F(ProbeControllerTest, PeriodicProbingAfterReset) {
	testing::StrictMock<MockPacedSender> local_pacer;
	probe_controller_.reset(new ProbeController(&local_pacer, &clock_));
	int64_t alr_start_time = clock_.TimeInMilliseconds();
	EXPECT_CALL(local_pacer, GetApplicationLimitedRegionStartTime())
	.WillRepeatedly(
	Return(rtc::Optional<int64_t>(alr_start_time)));

	EXPECT_CALL(local_pacer, CreateProbeCluster(_)).Times(2);
	probe_controller_->EnablePeriodicAlrProbing(true);
	probe_controller_->SetBitrates(kMinBitrateBps, kStartBitrateBps,
	kMaxBitrateBps);
	probe_controller_->Reset();

	clock_.AdvanceTimeMilliseconds(10000);
	probe_controller_->Process();

	EXPECT_CALL(local_pacer, CreateProbeCluster(_)).Times(2);
	probe_controller_->SetBitrates(kMinBitrateBps, kStartBitrateBps,
	kMaxBitrateBps);

	// Make sure we use \|kStartBitrateBps\| as the estimated bitrate
	// until SetEstimatedBitrate is called with an updated estimate.
	clock_.AdvanceTimeMilliseconds(10000);
	EXPECT_CALL(local_pacer, CreateProbeCluster(kStartBitrateBps*2));
	probe_controller_->Process();
	}

	TEST_F(ProbeControllerTest, TestExponentialProbingOverflow) {
	const int64_t kMbpsMultiplier = 1000000;
	probe_controller_->SetBitrates(kMinBitrateBps, 10 * kMbpsMultiplier,
	100 * kMbpsMultiplier);

	// Verify that probe bitrate is capped at the specified max bitrate
	EXPECT_CALL(pacer_, CreateProbeCluster(100 * kMbpsMultiplier));
	probe_controller_->SetEstimatedBitrate(60 * kMbpsMultiplier);
	testing::Mock::VerifyAndClearExpectations(&pacer_);

	// Verify that repeated probes aren't sent.
	EXPECT_CALL(pacer_, CreateProbeCluster(_)).Times(0);
	probe_controller_->SetEstimatedBitrate(100 * kMbpsMultiplier);
	}

	} // namespace test
	} // namespace webrtc