| /* |
| * 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 "modules/congestion_controller/include/send_side_congestion_controller.h" |
| #include "logging/rtc_event_log/mock/mock_rtc_event_log.h" |
| #include "modules/bitrate_controller/include/bitrate_controller.h" |
| #include "modules/congestion_controller/include/mock/mock_congestion_observer.h" |
| #include "modules/congestion_controller/rtp/congestion_controller_unittests_helper.h" |
| #include "modules/pacing/mock/mock_paced_sender.h" |
| #include "modules/pacing/packet_router.h" |
| #include "modules/remote_bitrate_estimator/include/bwe_defines.h" |
| #include "modules/rtp_rtcp/include/rtp_rtcp_defines.h" |
| #include "modules/rtp_rtcp/source/rtcp_packet/transport_feedback.h" |
| #include "rtc_base/socket.h" |
| #include "system_wrappers/include/clock.h" |
| #include "test/field_trial.h" |
| #include "test/gmock.h" |
| #include "test/gtest.h" |
| |
| using testing::_; |
| using testing::AtLeast; |
| using testing::Ge; |
| using testing::NiceMock; |
| using testing::Return; |
| using testing::SaveArg; |
| using testing::StrictMock; |
| |
| namespace webrtc { |
| |
| namespace { |
| const webrtc::PacedPacketInfo kPacingInfo0(0, 5, 2000); |
| const webrtc::PacedPacketInfo kPacingInfo1(1, 8, 4000); |
| |
| const uint32_t kInitialBitrateBps = 60000; |
| |
| } // namespace |
| |
| namespace test { |
| |
| class LegacySendSideCongestionControllerTest : public ::testing::Test { |
| protected: |
| LegacySendSideCongestionControllerTest() |
| : clock_(123456), |
| target_bitrate_observer_(this), |
| bandwidth_observer_(nullptr) {} |
| ~LegacySendSideCongestionControllerTest() override {} |
| |
| void SetUp() override { |
| pacer_.reset(new NiceMock<MockPacedSender>()); |
| controller_.reset(new SendSideCongestionController( |
| &clock_, &observer_, &event_log_, pacer_.get())); |
| bandwidth_observer_ = controller_->GetBandwidthObserver(); |
| |
| // Set the initial bitrate estimate and expect the |observer| and |pacer_| |
| // to be updated. |
| EXPECT_CALL(observer_, OnNetworkChanged(kInitialBitrateBps, _, _, _)); |
| EXPECT_CALL(*pacer_, SetEstimatedBitrate(kInitialBitrateBps)); |
| EXPECT_CALL(*pacer_, CreateProbeCluster(kInitialBitrateBps * 3)); |
| EXPECT_CALL(*pacer_, CreateProbeCluster(kInitialBitrateBps * 5)); |
| controller_->SetBweBitrates(0, kInitialBitrateBps, 5 * kInitialBitrateBps); |
| } |
| |
| // Custom setup - use an observer that tracks the target bitrate, without |
| // prescribing on which iterations it must change (like a mock would). |
| void TargetBitrateTrackingSetup() { |
| pacer_.reset(new NiceMock<MockPacedSender>()); |
| controller_.reset(new SendSideCongestionController( |
| &clock_, &target_bitrate_observer_, &event_log_, pacer_.get())); |
| controller_->SetBweBitrates(0, kInitialBitrateBps, 5 * kInitialBitrateBps); |
| } |
| |
| void OnSentPacket(const PacketFeedback& packet_feedback) { |
| constexpr uint32_t ssrc = 0; |
| controller_->AddPacket(ssrc, packet_feedback.sequence_number, |
| packet_feedback.payload_size, |
| packet_feedback.pacing_info); |
| controller_->OnSentPacket(rtc::SentPacket(packet_feedback.sequence_number, |
| packet_feedback.send_time_ms)); |
| } |
| |
| // Allows us to track the target bitrate, without prescribing the exact |
| // iterations when this would hapen, like a mock would. |
| class TargetBitrateObserver : public NetworkChangedObserver { |
| public: |
| explicit TargetBitrateObserver( |
| LegacySendSideCongestionControllerTest* owner) |
| : owner_(owner) {} |
| ~TargetBitrateObserver() override = default; |
| void OnNetworkChanged(uint32_t bitrate_bps, |
| uint8_t fraction_loss, // 0 - 255. |
| int64_t rtt_ms, |
| int64_t probing_interval_ms) override { |
| owner_->target_bitrate_bps_ = bitrate_bps; |
| } |
| |
| private: |
| LegacySendSideCongestionControllerTest* owner_; |
| }; |
| |
| void PacketTransmissionAndFeedbackBlock(uint16_t* seq_num, |
| int64_t runtime_ms, |
| int64_t delay) { |
| int64_t delay_buildup = 0; |
| int64_t start_time_ms = clock_.TimeInMilliseconds(); |
| while (clock_.TimeInMilliseconds() - start_time_ms < runtime_ms) { |
| constexpr size_t kPayloadSize = 1000; |
| PacketFeedback packet(clock_.TimeInMilliseconds() + delay_buildup, |
| clock_.TimeInMilliseconds(), *seq_num, kPayloadSize, |
| PacedPacketInfo()); |
| delay_buildup += delay; // Delay has to increase, or it's just RTT. |
| OnSentPacket(packet); |
| // Create expected feedback and send into adapter. |
| std::unique_ptr<rtcp::TransportFeedback> feedback( |
| new rtcp::TransportFeedback()); |
| feedback->SetBase(packet.sequence_number, packet.arrival_time_ms * 1000); |
| EXPECT_TRUE(feedback->AddReceivedPacket(packet.sequence_number, |
| packet.arrival_time_ms * 1000)); |
| rtc::Buffer raw_packet = feedback->Build(); |
| feedback = rtcp::TransportFeedback::ParseFrom(raw_packet.data(), |
| raw_packet.size()); |
| EXPECT_TRUE(feedback.get() != nullptr); |
| controller_->OnTransportFeedback(*feedback.get()); |
| clock_.AdvanceTimeMilliseconds(50); |
| controller_->Process(); |
| ++(*seq_num); |
| } |
| } |
| |
| SimulatedClock clock_; |
| StrictMock<MockCongestionObserver> observer_; |
| TargetBitrateObserver target_bitrate_observer_; |
| NiceMock<MockRtcEventLog> event_log_; |
| RtcpBandwidthObserver* bandwidth_observer_; |
| PacketRouter packet_router_; |
| std::unique_ptr<NiceMock<MockPacedSender>> pacer_; |
| std::unique_ptr<SendSideCongestionController> controller_; |
| |
| absl::optional<uint32_t> target_bitrate_bps_; |
| }; |
| |
| TEST_F(LegacySendSideCongestionControllerTest, 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(LegacySendSideCongestionControllerTest, 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(LegacySendSideCongestionControllerTest, |
| 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(LegacySendSideCongestionControllerTest, 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(LegacySendSideCongestionControllerTest, OnNetworkRouteChanged) { |
| int new_bitrate = 200000; |
| testing::Mock::VerifyAndClearExpectations(pacer_.get()); |
| EXPECT_CALL(observer_, OnNetworkChanged(new_bitrate, _, _, _)); |
| EXPECT_CALL(*pacer_, SetEstimatedBitrate(new_bitrate)); |
| rtc::NetworkRoute route; |
| route.local_network_id = 1; |
| controller_->OnNetworkRouteChanged(route, new_bitrate, -1, -1); |
| |
| // If the bitrate is reset to -1, the new starting bitrate will be |
| // the minimum default bitrate kMinBitrateBps. |
| EXPECT_CALL( |
| observer_, |
| OnNetworkChanged(congestion_controller::GetMinBitrateBps(), _, _, _)); |
| EXPECT_CALL(*pacer_, |
| SetEstimatedBitrate(congestion_controller::GetMinBitrateBps())); |
| route.local_network_id = 2; |
| controller_->OnNetworkRouteChanged(route, -1, -1, -1); |
| } |
| |
| TEST_F(LegacySendSideCongestionControllerTest, OldFeedback) { |
| int new_bitrate = 200000; |
| testing::Mock::VerifyAndClearExpectations(pacer_.get()); |
| EXPECT_CALL(observer_, OnNetworkChanged(new_bitrate, _, _, _)); |
| EXPECT_CALL(*pacer_, SetEstimatedBitrate(new_bitrate)); |
| |
| // Send a few packets on the first network route. |
| std::vector<PacketFeedback> packets; |
| packets.push_back(PacketFeedback(0, 0, 0, 1500, kPacingInfo0)); |
| packets.push_back(PacketFeedback(10, 10, 1, 1500, kPacingInfo0)); |
| packets.push_back(PacketFeedback(20, 20, 2, 1500, kPacingInfo0)); |
| packets.push_back(PacketFeedback(30, 30, 3, 1500, kPacingInfo1)); |
| packets.push_back(PacketFeedback(40, 40, 4, 1500, kPacingInfo1)); |
| |
| for (const PacketFeedback& packet : packets) |
| OnSentPacket(packet); |
| |
| // Change route and then insert a number of feedback packets. |
| rtc::NetworkRoute route; |
| route.local_network_id = 1; |
| controller_->OnNetworkRouteChanged(route, new_bitrate, -1, -1); |
| |
| for (const PacketFeedback& packet : packets) { |
| rtcp::TransportFeedback feedback; |
| feedback.SetBase(packet.sequence_number, packet.arrival_time_ms * 1000); |
| |
| EXPECT_TRUE(feedback.AddReceivedPacket(packet.sequence_number, |
| packet.arrival_time_ms * 1000)); |
| feedback.Build(); |
| controller_->OnTransportFeedback(feedback); |
| } |
| |
| // If the bitrate is reset to -1, the new starting bitrate will be |
| // the minimum default bitrate kMinBitrateBps. |
| EXPECT_CALL( |
| observer_, |
| OnNetworkChanged(congestion_controller::GetMinBitrateBps(), _, _, _)); |
| EXPECT_CALL(*pacer_, |
| SetEstimatedBitrate(congestion_controller::GetMinBitrateBps())); |
| route.local_network_id = 2; |
| controller_->OnNetworkRouteChanged(route, -1, -1, -1); |
| } |
| |
| TEST_F(LegacySendSideCongestionControllerTest, |
| 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(LegacySendSideCongestionControllerTest, 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()); |
| } |
| |
| TEST_F(LegacySendSideCongestionControllerTest, GetProbingInterval) { |
| clock_.AdvanceTimeMilliseconds(25); |
| controller_->Process(); |
| |
| EXPECT_CALL(observer_, OnNetworkChanged(_, _, _, testing::Ne(0))); |
| EXPECT_CALL(*pacer_, SetEstimatedBitrate(_)); |
| bandwidth_observer_->OnReceivedEstimatedBitrate(kInitialBitrateBps * 2); |
| clock_.AdvanceTimeMilliseconds(25); |
| controller_->Process(); |
| } |
| |
| TEST_F(LegacySendSideCongestionControllerTest, ProbeOnRouteChange) { |
| testing::Mock::VerifyAndClearExpectations(pacer_.get()); |
| EXPECT_CALL(*pacer_, CreateProbeCluster(kInitialBitrateBps * 6)); |
| EXPECT_CALL(*pacer_, CreateProbeCluster(kInitialBitrateBps * 12)); |
| EXPECT_CALL(observer_, OnNetworkChanged(kInitialBitrateBps * 2, _, _, _)); |
| rtc::NetworkRoute route; |
| route.local_network_id = 1; |
| controller_->OnNetworkRouteChanged(route, 2 * kInitialBitrateBps, 0, |
| 20 * kInitialBitrateBps); |
| } |
| |
| // Estimated bitrate reduced when the feedbacks arrive with such a long delay, |
| // that the send-time-history no longer holds the feedbacked packets. |
| TEST_F(LegacySendSideCongestionControllerTest, LongFeedbackDelays) { |
| TargetBitrateTrackingSetup(); |
| |
| const int64_t kFeedbackTimeoutMs = 60001; |
| const int kMaxConsecutiveFailedLookups = 5; |
| for (int i = 0; i < kMaxConsecutiveFailedLookups; ++i) { |
| std::vector<PacketFeedback> packets; |
| packets.push_back( |
| PacketFeedback(i * 100, 2 * i * 100, 0, 1500, kPacingInfo0)); |
| packets.push_back( |
| PacketFeedback(i * 100 + 10, 2 * i * 100 + 10, 1, 1500, kPacingInfo0)); |
| packets.push_back( |
| PacketFeedback(i * 100 + 20, 2 * i * 100 + 20, 2, 1500, kPacingInfo0)); |
| packets.push_back( |
| PacketFeedback(i * 100 + 30, 2 * i * 100 + 30, 3, 1500, kPacingInfo1)); |
| packets.push_back( |
| PacketFeedback(i * 100 + 40, 2 * i * 100 + 40, 4, 1500, kPacingInfo1)); |
| |
| for (const PacketFeedback& packet : packets) |
| OnSentPacket(packet); |
| |
| rtcp::TransportFeedback feedback; |
| feedback.SetBase(packets[0].sequence_number, |
| packets[0].arrival_time_ms * 1000); |
| |
| for (const PacketFeedback& packet : packets) { |
| EXPECT_TRUE(feedback.AddReceivedPacket(packet.sequence_number, |
| packet.arrival_time_ms * 1000)); |
| } |
| |
| feedback.Build(); |
| |
| clock_.AdvanceTimeMilliseconds(kFeedbackTimeoutMs); |
| PacketFeedback later_packet(kFeedbackTimeoutMs + i * 100 + 40, |
| kFeedbackTimeoutMs + i * 200 + 40, 5, 1500, |
| kPacingInfo1); |
| OnSentPacket(later_packet); |
| |
| controller_->OnTransportFeedback(feedback); |
| |
| // Check that packets have timed out. |
| for (PacketFeedback& packet : packets) { |
| packet.send_time_ms = PacketFeedback::kNoSendTime; |
| packet.payload_size = 0; |
| packet.pacing_info = PacedPacketInfo(); |
| } |
| ComparePacketFeedbackVectors(packets, |
| controller_->GetTransportFeedbackVector()); |
| } |
| |
| controller_->Process(); |
| |
| EXPECT_EQ(kInitialBitrateBps / 2, target_bitrate_bps_); |
| |
| // Test with feedback that isn't late enough to time out. |
| { |
| std::vector<PacketFeedback> packets; |
| packets.push_back(PacketFeedback(100, 200, 0, 1500, kPacingInfo0)); |
| packets.push_back(PacketFeedback(110, 210, 1, 1500, kPacingInfo0)); |
| packets.push_back(PacketFeedback(120, 220, 2, 1500, kPacingInfo0)); |
| packets.push_back(PacketFeedback(130, 230, 3, 1500, kPacingInfo1)); |
| packets.push_back(PacketFeedback(140, 240, 4, 1500, kPacingInfo1)); |
| |
| for (const PacketFeedback& packet : packets) |
| OnSentPacket(packet); |
| |
| rtcp::TransportFeedback feedback; |
| feedback.SetBase(packets[0].sequence_number, |
| packets[0].arrival_time_ms * 1000); |
| |
| for (const PacketFeedback& packet : packets) { |
| EXPECT_TRUE(feedback.AddReceivedPacket(packet.sequence_number, |
| packet.arrival_time_ms * 1000)); |
| } |
| |
| feedback.Build(); |
| |
| clock_.AdvanceTimeMilliseconds(kFeedbackTimeoutMs - 1); |
| PacketFeedback later_packet(kFeedbackTimeoutMs + 140, |
| kFeedbackTimeoutMs + 240, 5, 1500, |
| kPacingInfo1); |
| OnSentPacket(later_packet); |
| |
| controller_->OnTransportFeedback(feedback); |
| ComparePacketFeedbackVectors(packets, |
| controller_->GetTransportFeedbackVector()); |
| } |
| } |
| |
| // Bandwidth estimation is updated when feedbacks are received. |
| // Feedbacks which show an increasing delay cause the estimation to be reduced. |
| TEST_F(LegacySendSideCongestionControllerTest, UpdatesDelayBasedEstimate) { |
| TargetBitrateTrackingSetup(); |
| |
| const int64_t kRunTimeMs = 6000; |
| uint16_t seq_num = 0; |
| |
| // The test must run and insert packets/feedback long enough that the |
| // BWE computes a valid estimate. This is first done in an environment which |
| // simulates no bandwidth limitation, and therefore not built-up delay. |
| PacketTransmissionAndFeedbackBlock(&seq_num, kRunTimeMs, 0); |
| ASSERT_TRUE(target_bitrate_bps_); |
| |
| // Repeat, but this time with a building delay, and make sure that the |
| // estimation is adjusted downwards. |
| uint32_t bitrate_before_delay = *target_bitrate_bps_; |
| PacketTransmissionAndFeedbackBlock(&seq_num, kRunTimeMs, 50); |
| EXPECT_LT(*target_bitrate_bps_, bitrate_before_delay); |
| } |
| |
| TEST_F(LegacySendSideCongestionControllerTest, PacerQueueEncodeRatePushback) { |
| ScopedFieldTrials pushback_field_trial( |
| "WebRTC-PacerPushbackExperiment/Enabled/"); |
| SetUp(); |
| |
| EXPECT_CALL(*pacer_, ExpectedQueueTimeMs()).WillOnce(Return(0)); |
| controller_->Process(); |
| |
| EXPECT_CALL(*pacer_, ExpectedQueueTimeMs()).WillOnce(Return(100)); |
| EXPECT_CALL(observer_, OnNetworkChanged(kInitialBitrateBps * 0.9, _, _, _)); |
| controller_->Process(); |
| |
| EXPECT_CALL(*pacer_, ExpectedQueueTimeMs()).WillOnce(Return(50)); |
| controller_->Process(); |
| |
| EXPECT_CALL(*pacer_, ExpectedQueueTimeMs()).WillOnce(Return(0)); |
| EXPECT_CALL(observer_, OnNetworkChanged(kInitialBitrateBps, _, _, _)); |
| controller_->Process(); |
| |
| const uint32_t kMinAdjustedBps = 50000; |
| int expected_queue_threshold = |
| 1000 - kMinAdjustedBps * 1000.0 / kInitialBitrateBps; |
| |
| EXPECT_CALL(*pacer_, ExpectedQueueTimeMs()) |
| .WillOnce(Return(expected_queue_threshold)); |
| EXPECT_CALL(observer_, OnNetworkChanged(Ge(kMinAdjustedBps), _, _, _)); |
| controller_->Process(); |
| |
| EXPECT_CALL(*pacer_, ExpectedQueueTimeMs()) |
| .WillOnce(Return(expected_queue_threshold + 1)); |
| EXPECT_CALL(observer_, OnNetworkChanged(0, _, _, _)); |
| controller_->Process(); |
| |
| EXPECT_CALL(*pacer_, ExpectedQueueTimeMs()).WillOnce(Return(0)); |
| EXPECT_CALL(observer_, OnNetworkChanged(kInitialBitrateBps, _, _, _)); |
| controller_->Process(); |
| } |
| |
| } // namespace test |
| } // namespace webrtc |
