/* * Copyright (c) 2012 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 #include #include "testing/gmock/include/gmock/gmock.h" #include "testing/gtest/include/gtest/gtest.h" #include "webrtc/modules/rtp_rtcp/include/rtp_rtcp.h" #include "webrtc/modules/rtp_rtcp/mocks/mock_rtp_rtcp.h" #include "webrtc/modules/utility/include/mock/mock_process_thread.h" #include "webrtc/video/vie_remb.h" using ::testing::_; using ::testing::AnyNumber; using ::testing::NiceMock; using ::testing::Return; namespace webrtc { class ViERembTest : public ::testing::Test { public: ViERembTest() : fake_clock_(12345) {} protected: virtual void SetUp() { process_thread_.reset(new NiceMock); vie_remb_.reset(new VieRemb(&fake_clock_)); } SimulatedClock fake_clock_; std::unique_ptr process_thread_; std::unique_ptr vie_remb_; }; TEST_F(ViERembTest, OneModuleTestForSendingRemb) { MockRtpRtcp rtp; vie_remb_->AddReceiveChannel(&rtp); vie_remb_->AddRembSender(&rtp); const uint32_t bitrate_estimate = 456; uint32_t ssrc = 1234; std::vector ssrcs(&ssrc, &ssrc + 1); vie_remb_->OnReceiveBitrateChanged(ssrcs, bitrate_estimate); fake_clock_.AdvanceTimeMilliseconds(1000); EXPECT_CALL(rtp, SetREMBData(bitrate_estimate, ssrcs)) .Times(1); vie_remb_->OnReceiveBitrateChanged(ssrcs, bitrate_estimate); // Lower bitrate to send another REMB packet. EXPECT_CALL(rtp, SetREMBData(bitrate_estimate - 100, ssrcs)) .Times(1); vie_remb_->OnReceiveBitrateChanged(ssrcs, bitrate_estimate - 100); vie_remb_->RemoveReceiveChannel(&rtp); vie_remb_->RemoveRembSender(&rtp); } TEST_F(ViERembTest, LowerEstimateToSendRemb) { MockRtpRtcp rtp; vie_remb_->AddReceiveChannel(&rtp); vie_remb_->AddRembSender(&rtp); uint32_t bitrate_estimate = 456; uint32_t ssrc = 1234; std::vector ssrcs(&ssrc, &ssrc + 1); vie_remb_->OnReceiveBitrateChanged(ssrcs, bitrate_estimate); // Call OnReceiveBitrateChanged twice to get a first estimate. fake_clock_.AdvanceTimeMilliseconds(1000); EXPECT_CALL(rtp, SetREMBData(bitrate_estimate, ssrcs)) .Times(1); vie_remb_->OnReceiveBitrateChanged(ssrcs, bitrate_estimate); // Lower the estimate with more than 3% to trigger a call to SetREMBData right // away. bitrate_estimate = bitrate_estimate - 100; EXPECT_CALL(rtp, SetREMBData(bitrate_estimate, ssrcs)) .Times(1); vie_remb_->OnReceiveBitrateChanged(ssrcs, bitrate_estimate); } TEST_F(ViERembTest, VerifyIncreasingAndDecreasing) { MockRtpRtcp rtp_0; MockRtpRtcp rtp_1; vie_remb_->AddReceiveChannel(&rtp_0); vie_remb_->AddRembSender(&rtp_0); vie_remb_->AddReceiveChannel(&rtp_1); uint32_t bitrate_estimate[] = {456, 789}; uint32_t ssrc[] = {1234, 5678}; std::vector ssrcs(ssrc, ssrc + sizeof(ssrc) / sizeof(ssrc[0])); vie_remb_->OnReceiveBitrateChanged(ssrcs, bitrate_estimate[0]); // Call OnReceiveBitrateChanged twice to get a first estimate. EXPECT_CALL(rtp_0, SetREMBData(bitrate_estimate[0], ssrcs)) .Times(1); fake_clock_.AdvanceTimeMilliseconds(1000); vie_remb_->OnReceiveBitrateChanged(ssrcs, bitrate_estimate[0]); vie_remb_->OnReceiveBitrateChanged(ssrcs, bitrate_estimate[1] + 100); // Lower the estimate to trigger a callback. EXPECT_CALL(rtp_0, SetREMBData(bitrate_estimate[1], ssrcs)) .Times(1); vie_remb_->OnReceiveBitrateChanged(ssrcs, bitrate_estimate[1]); vie_remb_->RemoveReceiveChannel(&rtp_0); vie_remb_->RemoveRembSender(&rtp_0); vie_remb_->RemoveReceiveChannel(&rtp_1); } TEST_F(ViERembTest, NoRembForIncreasedBitrate) { MockRtpRtcp rtp_0; MockRtpRtcp rtp_1; vie_remb_->AddReceiveChannel(&rtp_0); vie_remb_->AddRembSender(&rtp_0); vie_remb_->AddReceiveChannel(&rtp_1); uint32_t bitrate_estimate = 456; uint32_t ssrc[] = {1234, 5678}; std::vector ssrcs(ssrc, ssrc + sizeof(ssrc) / sizeof(ssrc[0])); vie_remb_->OnReceiveBitrateChanged(ssrcs, bitrate_estimate); // Call OnReceiveBitrateChanged twice to get a first estimate. fake_clock_.AdvanceTimeMilliseconds(1000); EXPECT_CALL(rtp_0, SetREMBData(bitrate_estimate, ssrcs)) .Times(1); vie_remb_->OnReceiveBitrateChanged(ssrcs, bitrate_estimate); // Increased estimate shouldn't trigger a callback right away. EXPECT_CALL(rtp_0, SetREMBData(_, _)) .Times(0); vie_remb_->OnReceiveBitrateChanged(ssrcs, bitrate_estimate + 1); // Decreasing the estimate less than 3% shouldn't trigger a new callback. EXPECT_CALL(rtp_0, SetREMBData(_, _)) .Times(0); int lower_estimate = bitrate_estimate * 98 / 100; vie_remb_->OnReceiveBitrateChanged(ssrcs, lower_estimate); vie_remb_->RemoveReceiveChannel(&rtp_1); vie_remb_->RemoveReceiveChannel(&rtp_0); vie_remb_->RemoveRembSender(&rtp_0); } TEST_F(ViERembTest, ChangeSendRtpModule) { MockRtpRtcp rtp_0; MockRtpRtcp rtp_1; vie_remb_->AddReceiveChannel(&rtp_0); vie_remb_->AddRembSender(&rtp_0); vie_remb_->AddReceiveChannel(&rtp_1); uint32_t bitrate_estimate = 456; uint32_t ssrc[] = {1234, 5678}; std::vector ssrcs(ssrc, ssrc + sizeof(ssrc) / sizeof(ssrc[0])); vie_remb_->OnReceiveBitrateChanged(ssrcs, bitrate_estimate); // Call OnReceiveBitrateChanged twice to get a first estimate. fake_clock_.AdvanceTimeMilliseconds(1000); EXPECT_CALL(rtp_0, SetREMBData(bitrate_estimate, ssrcs)) .Times(1); vie_remb_->OnReceiveBitrateChanged(ssrcs, bitrate_estimate); // Decrease estimate to trigger a REMB. bitrate_estimate = bitrate_estimate - 100; EXPECT_CALL(rtp_0, SetREMBData(bitrate_estimate, ssrcs)) .Times(1); vie_remb_->OnReceiveBitrateChanged(ssrcs, bitrate_estimate); // Remove the sending module, add it again -> should get remb on the second // module. vie_remb_->RemoveRembSender(&rtp_0); vie_remb_->AddRembSender(&rtp_1); vie_remb_->OnReceiveBitrateChanged(ssrcs, bitrate_estimate); bitrate_estimate = bitrate_estimate - 100; EXPECT_CALL(rtp_1, SetREMBData(bitrate_estimate, ssrcs)) .Times(1); vie_remb_->OnReceiveBitrateChanged(ssrcs, bitrate_estimate); vie_remb_->RemoveReceiveChannel(&rtp_0); vie_remb_->RemoveReceiveChannel(&rtp_1); } TEST_F(ViERembTest, OnlyOneRembForDoubleProcess) { MockRtpRtcp rtp; uint32_t bitrate_estimate = 456; uint32_t ssrc = 1234; std::vector ssrcs(&ssrc, &ssrc + 1); vie_remb_->AddReceiveChannel(&rtp); vie_remb_->AddRembSender(&rtp); vie_remb_->OnReceiveBitrateChanged(ssrcs, bitrate_estimate); // Call OnReceiveBitrateChanged twice to get a first estimate. fake_clock_.AdvanceTimeMilliseconds(1000); EXPECT_CALL(rtp, SetREMBData(_, _)) .Times(1); vie_remb_->OnReceiveBitrateChanged(ssrcs, bitrate_estimate); // Lower the estimate, should trigger a call to SetREMBData right away. bitrate_estimate = bitrate_estimate - 100; EXPECT_CALL(rtp, SetREMBData(bitrate_estimate, ssrcs)) .Times(1); vie_remb_->OnReceiveBitrateChanged(ssrcs, bitrate_estimate); // Call OnReceiveBitrateChanged again, this should not trigger a new callback. EXPECT_CALL(rtp, SetREMBData(_, _)) .Times(0); vie_remb_->OnReceiveBitrateChanged(ssrcs, bitrate_estimate); vie_remb_->RemoveReceiveChannel(&rtp); vie_remb_->RemoveRembSender(&rtp); } // Only register receiving modules and make sure we fallback to trigger a REMB // packet on this one. TEST_F(ViERembTest, NoSendingRtpModule) { MockRtpRtcp rtp; vie_remb_->AddReceiveChannel(&rtp); uint32_t bitrate_estimate = 456; uint32_t ssrc = 1234; std::vector ssrcs(&ssrc, &ssrc + 1); vie_remb_->OnReceiveBitrateChanged(ssrcs, bitrate_estimate); // Call OnReceiveBitrateChanged twice to get a first estimate. fake_clock_.AdvanceTimeMilliseconds(1000); EXPECT_CALL(rtp, SetREMBData(_, _)) .Times(1); vie_remb_->OnReceiveBitrateChanged(ssrcs, bitrate_estimate); // Lower the estimate to trigger a new packet REMB packet. bitrate_estimate = bitrate_estimate - 100; EXPECT_CALL(rtp, SetREMBData(_, _)) .Times(1); vie_remb_->OnReceiveBitrateChanged(ssrcs, bitrate_estimate); } } // namespace webrtc