webrtc/modules/congestion_controller/congestion_controller_unittest.cc - src - 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 "testing/gmock/include/gmock/gmock.h"
 #include "testing/gtest/include/gtest/gtest.h"
 #include "webrtc/call/mock/mock_rtc_event_log.h"
 #include "webrtc/modules/pacing/mock/mock_paced_sender.h"
 #include "webrtc/modules/congestion_controller/include/congestion_controller.h"
 #include "webrtc/modules/congestion_controller/include/mock/mock_congestion_controller.h"
 #include "webrtc/modules/remote_bitrate_estimator/include/mock/mock_remote_bitrate_observer.h"
 #include "webrtc/system_wrappers/include/clock.h"

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

 namespace webrtc {
 namespace test {

 class CongestionControllerTest : public ::testing::Test {
  protected:
   CongestionControllerTest() : clock_(123456) {}
   ~CongestionControllerTest() override {}

   void SetUp() override {
     pacer_ = new NiceMock<MockPacedSender>();
     std::unique_ptr<PacedSender> pacer(pacer_);  // Passes ownership.
     std::unique_ptr<PacketRouter> packet_router(new PacketRouter());
     controller_.reset(new CongestionController(
         &clock_, &observer_, &remote_bitrate_observer_, &event_log_,
         std::move(packet_router), std::move(pacer)));
     bandwidth_observer_.reset(
         controller_->GetBitrateController()->CreateRtcpBandwidthObserver());

     // Set the initial bitrate estimate and expect the |observer| and |pacer_|
     // to be updated.
     EXPECT_CALL(observer_, OnNetworkChanged(kInitialBitrateBps, _, _));
     EXPECT_CALL(*pacer_, SetEstimatedBitrate(kInitialBitrateBps));
     controller_->SetBweBitrates(0, kInitialBitrateBps, 5 * kInitialBitrateBps);
   }

   SimulatedClock clock_;
   StrictMock<MockCongestionObserver> observer_;
   NiceMock<MockPacedSender>* pacer_;
   NiceMock<MockRemoteBitrateObserver> remote_bitrate_observer_;
   NiceMock<MockRtcEventLog> event_log_;
   std::unique_ptr<RtcpBandwidthObserver> bandwidth_observer_;
   std::unique_ptr<CongestionController> controller_;
   const uint32_t kInitialBitrateBps = 60000;
 };

 TEST_F(CongestionControllerTest, OnNetworkChanged) {
   // Test no change.
   clock_.AdvanceTimeMilliseconds(25);
   controller_->Process();

   EXPECT_CALL(observer_, OnNetworkChanged(kInitialBitrateBps * 2, _, _));
   EXPECT_CALL(*pacer_, SetEstimatedBitrate(kInitialBitrateBps * 2));
   bandwidth_observer_->OnReceivedEstimatedBitrate(kInitialBitrateBps * 2);
   clock_.AdvanceTimeMilliseconds(25);
   controller_->Process();

   EXPECT_CALL(observer_, OnNetworkChanged(kInitialBitrateBps, _, _));
   EXPECT_CALL(*pacer_, SetEstimatedBitrate(kInitialBitrateBps));
   bandwidth_observer_->OnReceivedEstimatedBitrate(kInitialBitrateBps);
   clock_.AdvanceTimeMilliseconds(25);
   controller_->Process();
 }

 TEST_F(CongestionControllerTest, OnSendQueueFull) {
   EXPECT_CALL(*pacer_, ExpectedQueueTimeMs())
       .WillOnce(Return(PacedSender::kMaxQueueLengthMs + 1));

   EXPECT_CALL(observer_, OnNetworkChanged(0, _, _));
   controller_->Process();

   // Let the pacer not be full next time the controller checks.
   EXPECT_CALL(*pacer_, ExpectedQueueTimeMs())
       .WillOnce(Return(PacedSender::kMaxQueueLengthMs - 1));

   EXPECT_CALL(observer_, OnNetworkChanged(kInitialBitrateBps, _, _));
   controller_->Process();
 }

 TEST_F(CongestionControllerTest, OnSendQueueFullAndEstimateChange) {
   EXPECT_CALL(*pacer_, ExpectedQueueTimeMs())
       .WillOnce(Return(PacedSender::kMaxQueueLengthMs + 1));
   EXPECT_CALL(observer_, OnNetworkChanged(0, _, _));
   controller_->Process();

   // Receive new estimate but let the queue still be full.
   bandwidth_observer_->OnReceivedEstimatedBitrate(kInitialBitrateBps * 2);
   EXPECT_CALL(*pacer_, ExpectedQueueTimeMs())
       .WillOnce(Return(PacedSender::kMaxQueueLengthMs + 1));
   //  The send pacer should get the new estimate though.
   EXPECT_CALL(*pacer_, SetEstimatedBitrate(kInitialBitrateBps * 2));
   clock_.AdvanceTimeMilliseconds(25);
   controller_->Process();

   // Let the pacer not be full next time the controller checks.
   // |OnNetworkChanged| should be called with the new estimate.
   EXPECT_CALL(*pacer_, ExpectedQueueTimeMs())
       .WillOnce(Return(PacedSender::kMaxQueueLengthMs - 1));
   EXPECT_CALL(observer_, OnNetworkChanged(kInitialBitrateBps * 2, _, _));
   clock_.AdvanceTimeMilliseconds(25);
   controller_->Process();
 }

 TEST_F(CongestionControllerTest, SignalNetworkState) {
   EXPECT_CALL(observer_, OnNetworkChanged(0, _, _));
   controller_->SignalNetworkState(kNetworkDown);

   EXPECT_CALL(observer_, OnNetworkChanged(kInitialBitrateBps, _, _));
   controller_->SignalNetworkState(kNetworkUp);

   EXPECT_CALL(observer_, OnNetworkChanged(0, _, _));
   controller_->SignalNetworkState(kNetworkDown);
 }

 TEST_F(CongestionControllerTest, ResetBweAndBitrates) {
   int new_bitrate = 200000;
   EXPECT_CALL(observer_, OnNetworkChanged(new_bitrate, _, _));
   EXPECT_CALL(*pacer_, SetEstimatedBitrate(new_bitrate));
   controller_->ResetBweAndBitrates(new_bitrate, -1, -1);

   // If the bitrate is reset to -1, the new starting bitrate will be
   // the minimum default bitrate 10000bps.
   int min_default_bitrate = 10000;
   EXPECT_CALL(observer_, OnNetworkChanged(min_default_bitrate, _, _));
   EXPECT_CALL(*pacer_, SetEstimatedBitrate(min_default_bitrate));
   controller_->ResetBweAndBitrates(-1, -1, -1);
 }

 TEST_F(CongestionControllerTest,
        SignalNetworkStateAndQueueIsFullAndEstimateChange) {
   // Send queue is full
   EXPECT_CALL(*pacer_, ExpectedQueueTimeMs())
       .WillRepeatedly(Return(PacedSender::kMaxQueueLengthMs + 1));
   EXPECT_CALL(observer_, OnNetworkChanged(0, _, _));
   controller_->Process();

   // Queue is full and network is down. Expect no bitrate change.
   controller_->SignalNetworkState(kNetworkDown);
   controller_->Process();

   // Queue is full but network is up. Expect no bitrate change.
   controller_->SignalNetworkState(kNetworkUp);
   controller_->Process();

   // Receive new estimate but let the queue still be full.
   EXPECT_CALL(*pacer_, SetEstimatedBitrate(kInitialBitrateBps * 2));
   bandwidth_observer_->OnReceivedEstimatedBitrate(kInitialBitrateBps * 2);
   clock_.AdvanceTimeMilliseconds(25);
   controller_->Process();

   // Let the pacer not be full next time the controller checks.
   EXPECT_CALL(*pacer_, ExpectedQueueTimeMs())
       .WillOnce(Return(PacedSender::kMaxQueueLengthMs - 1));
   EXPECT_CALL(observer_, OnNetworkChanged(kInitialBitrateBps * 2, _, _));
   controller_->Process();
 }

 TEST_F(CongestionControllerTest, GetPacerQueuingDelayMs) {
   EXPECT_CALL(observer_, OnNetworkChanged(_, _, _)).Times(AtLeast(1));

   const int64_t kQueueTimeMs = 123;
   EXPECT_CALL(*pacer_, QueueInMs()).WillRepeatedly(Return(kQueueTimeMs));
   EXPECT_EQ(kQueueTimeMs, controller_->GetPacerQueuingDelayMs());

   // Expect zero pacer delay when network is down.
   controller_->SignalNetworkState(kNetworkDown);
   EXPECT_EQ(0, controller_->GetPacerQueuingDelayMs());

   // Network is up, pacer delay should be reported.
   controller_->SignalNetworkState(kNetworkUp);
   EXPECT_EQ(kQueueTimeMs, controller_->GetPacerQueuingDelayMs());
 }

 }  // 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 "testing/gmock/include/gmock/gmock.h"
	#include "testing/gtest/include/gtest/gtest.h"
	#include "webrtc/call/mock/mock_rtc_event_log.h"
	#include "webrtc/modules/pacing/mock/mock_paced_sender.h"
	#include "webrtc/modules/congestion_controller/include/congestion_controller.h"
	#include "webrtc/modules/congestion_controller/include/mock/mock_congestion_controller.h"
	#include "webrtc/modules/remote_bitrate_estimator/include/mock/mock_remote_bitrate_observer.h"
	#include "webrtc/system_wrappers/include/clock.h"

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

	namespace webrtc {
	namespace test {

	class CongestionControllerTest : public ::testing::Test {
	protected:
	CongestionControllerTest() : clock_(123456) {}
	~CongestionControllerTest() override {}

	void SetUp() override {
	pacer_ = new NiceMock<MockPacedSender>();
	std::unique_ptr<PacedSender> pacer(pacer_); // Passes ownership.
	std::unique_ptr<PacketRouter> packet_router(new PacketRouter());
	controller_.reset(new CongestionController(
	&clock_, &observer_, &remote_bitrate_observer_, &event_log_,
	std::move(packet_router), std::move(pacer)));
	bandwidth_observer_.reset(
	controller_->GetBitrateController()->CreateRtcpBandwidthObserver());

	// Set the initial bitrate estimate and expect the \|observer\| and \|pacer_\|
	// to be updated.
	EXPECT_CALL(observer_, OnNetworkChanged(kInitialBitrateBps, _, _));
	EXPECT_CALL(*pacer_, SetEstimatedBitrate(kInitialBitrateBps));
	controller_->SetBweBitrates(0, kInitialBitrateBps, 5 * kInitialBitrateBps);
	}

	SimulatedClock clock_;
	StrictMock<MockCongestionObserver> observer_;
	NiceMock<MockPacedSender>* pacer_;
	NiceMock<MockRemoteBitrateObserver> remote_bitrate_observer_;
	NiceMock<MockRtcEventLog> event_log_;
	std::unique_ptr<RtcpBandwidthObserver> bandwidth_observer_;
	std::unique_ptr<CongestionController> controller_;
	const uint32_t kInitialBitrateBps = 60000;
	};

	TEST_F(CongestionControllerTest, OnNetworkChanged) {
	// Test no change.
	clock_.AdvanceTimeMilliseconds(25);
	controller_->Process();

	EXPECT_CALL(observer_, OnNetworkChanged(kInitialBitrateBps * 2, _, _));
	EXPECT_CALL(pacer_, SetEstimatedBitrate(kInitialBitrateBps 2));
	bandwidth_observer_->OnReceivedEstimatedBitrate(kInitialBitrateBps * 2);
	clock_.AdvanceTimeMilliseconds(25);
	controller_->Process();

	EXPECT_CALL(observer_, OnNetworkChanged(kInitialBitrateBps, _, _));
	EXPECT_CALL(*pacer_, SetEstimatedBitrate(kInitialBitrateBps));
	bandwidth_observer_->OnReceivedEstimatedBitrate(kInitialBitrateBps);
	clock_.AdvanceTimeMilliseconds(25);
	controller_->Process();
	}

	TEST_F(CongestionControllerTest, OnSendQueueFull) {
	EXPECT_CALL(*pacer_, ExpectedQueueTimeMs())
	.WillOnce(Return(PacedSender::kMaxQueueLengthMs + 1));

	EXPECT_CALL(observer_, OnNetworkChanged(0, _, _));
	controller_->Process();

	// Let the pacer not be full next time the controller checks.
	EXPECT_CALL(*pacer_, ExpectedQueueTimeMs())
	.WillOnce(Return(PacedSender::kMaxQueueLengthMs - 1));

	EXPECT_CALL(observer_, OnNetworkChanged(kInitialBitrateBps, _, _));
	controller_->Process();
	}

	TEST_F(CongestionControllerTest, OnSendQueueFullAndEstimateChange) {
	EXPECT_CALL(*pacer_, ExpectedQueueTimeMs())
	.WillOnce(Return(PacedSender::kMaxQueueLengthMs + 1));
	EXPECT_CALL(observer_, OnNetworkChanged(0, _, _));
	controller_->Process();

	// Receive new estimate but let the queue still be full.
	bandwidth_observer_->OnReceivedEstimatedBitrate(kInitialBitrateBps * 2);
	EXPECT_CALL(*pacer_, ExpectedQueueTimeMs())
	.WillOnce(Return(PacedSender::kMaxQueueLengthMs + 1));
	// The send pacer should get the new estimate though.
	EXPECT_CALL(pacer_, SetEstimatedBitrate(kInitialBitrateBps 2));
	clock_.AdvanceTimeMilliseconds(25);
	controller_->Process();

	// Let the pacer not be full next time the controller checks.
	// \|OnNetworkChanged\| should be called with the new estimate.
	EXPECT_CALL(*pacer_, ExpectedQueueTimeMs())
	.WillOnce(Return(PacedSender::kMaxQueueLengthMs - 1));
	EXPECT_CALL(observer_, OnNetworkChanged(kInitialBitrateBps * 2, _, _));
	clock_.AdvanceTimeMilliseconds(25);
	controller_->Process();
	}

	TEST_F(CongestionControllerTest, SignalNetworkState) {
	EXPECT_CALL(observer_, OnNetworkChanged(0, _, _));
	controller_->SignalNetworkState(kNetworkDown);

	EXPECT_CALL(observer_, OnNetworkChanged(kInitialBitrateBps, _, _));
	controller_->SignalNetworkState(kNetworkUp);

	EXPECT_CALL(observer_, OnNetworkChanged(0, _, _));
	controller_->SignalNetworkState(kNetworkDown);
	}

	TEST_F(CongestionControllerTest, ResetBweAndBitrates) {
	int new_bitrate = 200000;
	EXPECT_CALL(observer_, OnNetworkChanged(new_bitrate, _, _));
	EXPECT_CALL(*pacer_, SetEstimatedBitrate(new_bitrate));
	controller_->ResetBweAndBitrates(new_bitrate, -1, -1);

	// If the bitrate is reset to -1, the new starting bitrate will be
	// the minimum default bitrate 10000bps.
	int min_default_bitrate = 10000;
	EXPECT_CALL(observer_, OnNetworkChanged(min_default_bitrate, _, _));
	EXPECT_CALL(*pacer_, SetEstimatedBitrate(min_default_bitrate));
	controller_->ResetBweAndBitrates(-1, -1, -1);
	}

	TEST_F(CongestionControllerTest,
	SignalNetworkStateAndQueueIsFullAndEstimateChange) {
	// Send queue is full
	EXPECT_CALL(*pacer_, ExpectedQueueTimeMs())
	.WillRepeatedly(Return(PacedSender::kMaxQueueLengthMs + 1));
	EXPECT_CALL(observer_, OnNetworkChanged(0, _, _));
	controller_->Process();

	// Queue is full and network is down. Expect no bitrate change.
	controller_->SignalNetworkState(kNetworkDown);
	controller_->Process();

	// Queue is full but network is up. Expect no bitrate change.
	controller_->SignalNetworkState(kNetworkUp);
	controller_->Process();

	// Receive new estimate but let the queue still be full.
	EXPECT_CALL(pacer_, SetEstimatedBitrate(kInitialBitrateBps 2));
	bandwidth_observer_->OnReceivedEstimatedBitrate(kInitialBitrateBps * 2);
	clock_.AdvanceTimeMilliseconds(25);
	controller_->Process();

	// Let the pacer not be full next time the controller checks.
	EXPECT_CALL(*pacer_, ExpectedQueueTimeMs())
	.WillOnce(Return(PacedSender::kMaxQueueLengthMs - 1));
	EXPECT_CALL(observer_, OnNetworkChanged(kInitialBitrateBps * 2, _, _));
	controller_->Process();
	}

	TEST_F(CongestionControllerTest, GetPacerQueuingDelayMs) {
	EXPECT_CALL(observer_, OnNetworkChanged(_, _, _)).Times(AtLeast(1));

	const int64_t kQueueTimeMs = 123;
	EXPECT_CALL(*pacer_, QueueInMs()).WillRepeatedly(Return(kQueueTimeMs));
	EXPECT_EQ(kQueueTimeMs, controller_->GetPacerQueuingDelayMs());

	// Expect zero pacer delay when network is down.
	controller_->SignalNetworkState(kNetworkDown);
	EXPECT_EQ(0, controller_->GetPacerQueuingDelayMs());

	// Network is up, pacer delay should be reported.
	controller_->SignalNetworkState(kNetworkUp);
	EXPECT_EQ(kQueueTimeMs, controller_->GetPacerQueuingDelayMs());
	}

	} // namespace test
	} // namespace webrtc