/* * 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 "modules/rtp_rtcp/source/rtcp_receiver.h" #include #include #include #include "api/array_view.h" #include "api/units/time_delta.h" #include "api/units/timestamp.h" #include "api/video/video_bitrate_allocation.h" #include "api/video/video_bitrate_allocator.h" #include "modules/rtp_rtcp/include/report_block_data.h" #include "modules/rtp_rtcp/mocks/mock_network_link_rtcp_observer.h" #include "modules/rtp_rtcp/source/byte_io.h" #include "modules/rtp_rtcp/source/rtcp_packet.h" #include "modules/rtp_rtcp/source/rtcp_packet/app.h" #include "modules/rtp_rtcp/source/rtcp_packet/bye.h" #include "modules/rtp_rtcp/source/rtcp_packet/compound_packet.h" #include "modules/rtp_rtcp/source/rtcp_packet/extended_reports.h" #include "modules/rtp_rtcp/source/rtcp_packet/fir.h" #include "modules/rtp_rtcp/source/rtcp_packet/nack.h" #include "modules/rtp_rtcp/source/rtcp_packet/pli.h" #include "modules/rtp_rtcp/source/rtcp_packet/rapid_resync_request.h" #include "modules/rtp_rtcp/source/rtcp_packet/receiver_report.h" #include "modules/rtp_rtcp/source/rtcp_packet/remb.h" #include "modules/rtp_rtcp/source/rtcp_packet/sdes.h" #include "modules/rtp_rtcp/source/rtcp_packet/sender_report.h" #include "modules/rtp_rtcp/source/rtcp_packet/tmmbr.h" #include "modules/rtp_rtcp/source/rtcp_packet/transport_feedback.h" #include "modules/rtp_rtcp/source/time_util.h" #include "rtc_base/arraysize.h" #include "rtc_base/fake_clock.h" #include "rtc_base/random.h" #include "system_wrappers/include/ntp_time.h" #include "test/gmock.h" #include "test/gtest.h" namespace webrtc { namespace { using rtcp::ReceiveTimeInfo; using ::testing::_; using ::testing::AllOf; using ::testing::ElementsAre; using ::testing::ElementsAreArray; using ::testing::Eq; using ::testing::Field; using ::testing::Gt; using ::testing::InSequence; using ::testing::IsEmpty; using ::testing::NiceMock; using ::testing::Property; using ::testing::SizeIs; using ::testing::StrEq; using ::testing::StrictMock; using ::testing::UnorderedElementsAre; class MockRtcpPacketTypeCounterObserver : public RtcpPacketTypeCounterObserver { public: MOCK_METHOD(void, RtcpPacketTypesCounterUpdated, (uint32_t, const RtcpPacketTypeCounter&), (override)); }; class MockRtcpIntraFrameObserver : public RtcpIntraFrameObserver { public: MOCK_METHOD(void, OnReceivedIntraFrameRequest, (uint32_t), (override)); }; class MockRtcpLossNotificationObserver : public RtcpLossNotificationObserver { public: ~MockRtcpLossNotificationObserver() override = default; MOCK_METHOD(void, OnReceivedLossNotification, (uint32_t ssrc, uint16_t seq_num_of_last_decodable, uint16_t seq_num_of_last_received, bool decodability_flag), (override)); }; class MockCnameCallbackImpl : public RtcpCnameCallback { public: MOCK_METHOD(void, OnCname, (uint32_t, absl::string_view), (override)); }; class MockReportBlockDataObserverImpl : public ReportBlockDataObserver { public: MOCK_METHOD(void, OnReportBlockDataUpdated, (ReportBlockData), (override)); }; class MockModuleRtpRtcp : public RTCPReceiver::ModuleRtpRtcp { public: MOCK_METHOD(void, SetTmmbn, (std::vector), (override)); MOCK_METHOD(void, OnRequestSendReport, (), (override)); MOCK_METHOD(void, OnReceivedNack, (const std::vector&), (override)); MOCK_METHOD(void, OnReceivedRtcpReportBlocks, (rtc::ArrayView), (override)); }; class MockVideoBitrateAllocationObserver : public VideoBitrateAllocationObserver { public: MOCK_METHOD(void, OnBitrateAllocationUpdated, (const VideoBitrateAllocation& allocation), (override)); }; MATCHER_P2(Near, value, margin, "") { return value - margin <= arg && arg <= value + margin; } // SSRC of remote peer, that sends rtcp packet to the rtcp receiver under test. constexpr uint32_t kSenderSsrc = 0x10203; // SSRCs of local peer, that rtcp packet addressed to. constexpr uint32_t kReceiverMainSsrc = 0x123456; // RtcpReceiver can accept several ssrc, e.g. regular and rtx streams. constexpr uint32_t kReceiverExtraSsrc = 0x1234567; // SSRCs to ignore (i.e. not configured in RtcpReceiver). constexpr uint32_t kNotToUsSsrc = 0x654321; constexpr uint32_t kUnknownSenderSsrc = 0x54321; constexpr int64_t kRtcpIntervalMs = 1000; constexpr TimeDelta kEpsilon = TimeDelta::Millis(1); } // namespace struct ReceiverMocks { ReceiverMocks() : clock(1335900000) {} SimulatedClock clock; // Callbacks to packet_type_counter_observer are frequent but most of the time // are not interesting. NiceMock packet_type_counter_observer; StrictMock intra_frame_observer; StrictMock rtcp_loss_notification_observer; StrictMock bitrate_allocation_observer; StrictMock rtp_rtcp_impl; NiceMock network_link_rtcp_observer; }; RtpRtcpInterface::Configuration DefaultConfiguration(ReceiverMocks* mocks) { RtpRtcpInterface::Configuration config; config.clock = &mocks->clock; config.receiver_only = false; config.rtcp_packet_type_counter_observer = &mocks->packet_type_counter_observer; config.network_link_rtcp_observer = &mocks->network_link_rtcp_observer; config.intra_frame_callback = &mocks->intra_frame_observer; config.rtcp_loss_notification_observer = &mocks->rtcp_loss_notification_observer; config.bitrate_allocation_observer = &mocks->bitrate_allocation_observer; config.rtcp_report_interval_ms = kRtcpIntervalMs; config.local_media_ssrc = kReceiverMainSsrc; config.rtx_send_ssrc = kReceiverExtraSsrc; return config; } TEST(RtcpReceiverTest, BrokenPacketIsIgnored) { ReceiverMocks mocks; RTCPReceiver receiver(DefaultConfiguration(&mocks), &mocks.rtp_rtcp_impl); const uint8_t bad_packet[] = {0, 0, 0, 0}; EXPECT_CALL(mocks.packet_type_counter_observer, RtcpPacketTypesCounterUpdated) .Times(0); receiver.IncomingPacket(bad_packet); } TEST(RtcpReceiverTest, InvalidFeedbackPacketIsIgnored) { ReceiverMocks mocks; RTCPReceiver receiver(DefaultConfiguration(&mocks), &mocks.rtp_rtcp_impl); // Too short feedback packet. const uint8_t bad_packet[] = {0x81, rtcp::Rtpfb::kPacketType, 0, 0}; EXPECT_CALL(mocks.packet_type_counter_observer, RtcpPacketTypesCounterUpdated) .Times(0); receiver.IncomingPacket(bad_packet); } TEST(RtcpReceiverTest, InjectSrPacket) { ReceiverMocks mocks; RTCPReceiver receiver(DefaultConfiguration(&mocks), &mocks.rtp_rtcp_impl); receiver.SetRemoteSSRC(kSenderSsrc); EXPECT_FALSE(receiver.GetSenderReportStats()); rtcp::SenderReport sr; sr.SetSenderSsrc(kSenderSsrc); EXPECT_CALL(mocks.rtp_rtcp_impl, OnReceivedRtcpReportBlocks(IsEmpty())); receiver.IncomingPacket(sr.Build()); EXPECT_TRUE(receiver.GetSenderReportStats()); } TEST(RtcpReceiverTest, InjectSrPacketFromUnknownSender) { ReceiverMocks mocks; RTCPReceiver receiver(DefaultConfiguration(&mocks), &mocks.rtp_rtcp_impl); receiver.SetRemoteSSRC(kSenderSsrc); rtcp::SenderReport sr; sr.SetSenderSsrc(kUnknownSenderSsrc); // The parser will handle report blocks in Sender Report from other than their // expected peer. EXPECT_CALL(mocks.rtp_rtcp_impl, OnReceivedRtcpReportBlocks); receiver.IncomingPacket(sr.Build()); // But will not flag that he's gotten sender information. EXPECT_FALSE(receiver.GetSenderReportStats()); } TEST(RtcpReceiverTest, InjectSrPacketCalculatesRTT) { ReceiverMocks mocks; RTCPReceiver receiver(DefaultConfiguration(&mocks), &mocks.rtp_rtcp_impl); receiver.SetRemoteSSRC(kSenderSsrc); const TimeDelta kRtt = TimeDelta::Millis(123); const uint32_t kDelayNtp = 0x4321; const TimeDelta kDelay = CompactNtpRttToTimeDelta(kDelayNtp); EXPECT_EQ(receiver.LastRtt(), absl::nullopt); uint32_t sent_ntp = CompactNtp(mocks.clock.CurrentNtpTime()); mocks.clock.AdvanceTime(kRtt + kDelay); rtcp::SenderReport sr; sr.SetSenderSsrc(kSenderSsrc); rtcp::ReportBlock block; block.SetMediaSsrc(kReceiverMainSsrc); block.SetLastSr(sent_ntp); block.SetDelayLastSr(kDelayNtp); sr.AddReportBlock(block); EXPECT_CALL(mocks.rtp_rtcp_impl, OnReceivedRtcpReportBlocks); EXPECT_CALL(mocks.network_link_rtcp_observer, OnRttUpdate); receiver.IncomingPacket(sr.Build()); EXPECT_THAT(receiver.LastRtt(), Near(kRtt, TimeDelta::Millis(1))); } TEST(RtcpReceiverTest, InjectSrPacketCalculatesNegativeRTTAsOneMs) { ReceiverMocks mocks; RTCPReceiver receiver(DefaultConfiguration(&mocks), &mocks.rtp_rtcp_impl); receiver.SetRemoteSSRC(kSenderSsrc); const TimeDelta kRtt = TimeDelta::Millis(-13); const uint32_t kDelayNtp = 0x4321; const TimeDelta kDelay = CompactNtpRttToTimeDelta(kDelayNtp); EXPECT_EQ(receiver.LastRtt(), absl::nullopt); uint32_t sent_ntp = CompactNtp(mocks.clock.CurrentNtpTime()); mocks.clock.AdvanceTime(kRtt + kDelay); rtcp::SenderReport sr; sr.SetSenderSsrc(kSenderSsrc); rtcp::ReportBlock block; block.SetMediaSsrc(kReceiverMainSsrc); block.SetLastSr(sent_ntp); block.SetDelayLastSr(kDelayNtp); sr.AddReportBlock(block); EXPECT_CALL(mocks.rtp_rtcp_impl, OnReceivedRtcpReportBlocks(SizeIs(1))); EXPECT_CALL(mocks.network_link_rtcp_observer, OnRttUpdate(_, TimeDelta::Millis(1))); receiver.IncomingPacket(sr.Build()); EXPECT_EQ(receiver.LastRtt(), TimeDelta::Millis(1)); } TEST(RtcpReceiverTest, TwoReportBlocksWithLastOneWithoutLastSrCalculatesRtt) { ReceiverMocks mocks; RTCPReceiver receiver(DefaultConfiguration(&mocks), &mocks.rtp_rtcp_impl); receiver.SetRemoteSSRC(kSenderSsrc); const TimeDelta kRtt = TimeDelta::Millis(125); const uint32_t kDelayNtp = 123000; const TimeDelta kDelay = CompactNtpRttToTimeDelta(kDelayNtp); uint32_t sent_ntp = CompactNtp(mocks.clock.CurrentNtpTime()); mocks.clock.AdvanceTime(kRtt + kDelay); rtcp::SenderReport sr; sr.SetSenderSsrc(kSenderSsrc); rtcp::ReportBlock block; block.SetMediaSsrc(kReceiverMainSsrc); block.SetLastSr(sent_ntp); block.SetDelayLastSr(kDelayNtp); sr.AddReportBlock(block); block.SetMediaSsrc(kReceiverExtraSsrc); block.SetLastSr(0); sr.AddReportBlock(block); EXPECT_CALL(mocks.rtp_rtcp_impl, OnReceivedRtcpReportBlocks(SizeIs(2))); EXPECT_CALL(mocks.network_link_rtcp_observer, OnRttUpdate(_, kRtt)); receiver.IncomingPacket(sr.Build()); } TEST(RtcpReceiverTest, InjectRrPacket) { ReceiverMocks mocks; RTCPReceiver receiver(DefaultConfiguration(&mocks), &mocks.rtp_rtcp_impl); receiver.SetRemoteSSRC(kSenderSsrc); rtcp::ReceiverReport rr; rr.SetSenderSsrc(kSenderSsrc); EXPECT_CALL(mocks.rtp_rtcp_impl, OnReceivedRtcpReportBlocks(IsEmpty())); receiver.IncomingPacket(rr.Build()); EXPECT_THAT(receiver.GetLatestReportBlockData(), IsEmpty()); } TEST(RtcpReceiverTest, InjectRrPacketWithReportBlockNotToUsIgnored) { ReceiverMocks mocks; RTCPReceiver receiver(DefaultConfiguration(&mocks), &mocks.rtp_rtcp_impl); receiver.SetRemoteSSRC(kSenderSsrc); rtcp::ReportBlock rb; rb.SetMediaSsrc(kNotToUsSsrc); rtcp::ReceiverReport rr; rr.SetSenderSsrc(kSenderSsrc); rr.AddReportBlock(rb); EXPECT_CALL(mocks.rtp_rtcp_impl, OnReceivedRtcpReportBlocks(IsEmpty())); EXPECT_CALL(mocks.network_link_rtcp_observer, OnReport).Times(0); receiver.IncomingPacket(rr.Build()); EXPECT_EQ(0, receiver.LastReceivedReportBlockMs()); EXPECT_THAT(receiver.GetLatestReportBlockData(), IsEmpty()); } TEST(RtcpReceiverTest, InjectRrPacketWithOneReportBlock) { ReceiverMocks mocks; RTCPReceiver receiver(DefaultConfiguration(&mocks), &mocks.rtp_rtcp_impl); receiver.SetRemoteSSRC(kSenderSsrc); Timestamp now = mocks.clock.CurrentTime(); rtcp::ReportBlock rb; rb.SetMediaSsrc(kReceiverMainSsrc); rtcp::ReceiverReport rr; rr.SetSenderSsrc(kSenderSsrc); rr.AddReportBlock(rb); EXPECT_CALL(mocks.rtp_rtcp_impl, OnReceivedRtcpReportBlocks(SizeIs(1))); EXPECT_CALL(mocks.network_link_rtcp_observer, OnReport(now, SizeIs(1))); receiver.IncomingPacket(rr.Build()); EXPECT_EQ(receiver.LastReceivedReportBlockMs(), now.ms()); EXPECT_THAT(receiver.GetLatestReportBlockData(), SizeIs(1)); } TEST(RtcpReceiverTest, InjectSrPacketWithOneReportBlock) { ReceiverMocks mocks; RTCPReceiver receiver(DefaultConfiguration(&mocks), &mocks.rtp_rtcp_impl); receiver.SetRemoteSSRC(kSenderSsrc); Timestamp now = mocks.clock.CurrentTime(); rtcp::ReportBlock rb; rb.SetMediaSsrc(kReceiverMainSsrc); rtcp::SenderReport sr; sr.SetSenderSsrc(kSenderSsrc); sr.AddReportBlock(rb); EXPECT_CALL(mocks.rtp_rtcp_impl, OnReceivedRtcpReportBlocks(SizeIs(1))); EXPECT_CALL(mocks.network_link_rtcp_observer, OnReport(now, SizeIs(1))); receiver.IncomingPacket(sr.Build()); EXPECT_EQ(receiver.LastReceivedReportBlockMs(), now.ms()); EXPECT_THAT(receiver.GetLatestReportBlockData(), SizeIs(1)); } TEST(RtcpReceiverTest, InjectRrPacketWithTwoReportBlocks) { const uint16_t kSequenceNumbers[] = {10, 12423}; const uint32_t kCumLost[] = {13, 555}; const uint8_t kFracLost[] = {20, 11}; ReceiverMocks mocks; RTCPReceiver receiver(DefaultConfiguration(&mocks), &mocks.rtp_rtcp_impl); receiver.SetRemoteSSRC(kSenderSsrc); Timestamp now = mocks.clock.CurrentTime(); rtcp::ReportBlock rb1; rb1.SetMediaSsrc(kReceiverMainSsrc); rb1.SetExtHighestSeqNum(kSequenceNumbers[0]); rb1.SetFractionLost(10); rtcp::ReportBlock rb2; rb2.SetMediaSsrc(kReceiverExtraSsrc); rb2.SetExtHighestSeqNum(kSequenceNumbers[1]); rb2.SetFractionLost(0); rtcp::ReceiverReport rr1; rr1.SetSenderSsrc(kSenderSsrc); rr1.AddReportBlock(rb1); rr1.AddReportBlock(rb2); EXPECT_CALL(mocks.rtp_rtcp_impl, OnReceivedRtcpReportBlocks(SizeIs(2))); EXPECT_CALL(mocks.network_link_rtcp_observer, OnReport(now, SizeIs(2))); receiver.IncomingPacket(rr1.Build()); EXPECT_EQ(receiver.LastReceivedReportBlockMs(), now.ms()); EXPECT_THAT( receiver.GetLatestReportBlockData(), UnorderedElementsAre(Property(&ReportBlockData::fraction_lost_raw, 0), Property(&ReportBlockData::fraction_lost_raw, 10))); // Insert next receiver report with same ssrc but new values. rtcp::ReportBlock rb3; rb3.SetMediaSsrc(kReceiverMainSsrc); rb3.SetExtHighestSeqNum(kSequenceNumbers[0]); rb3.SetFractionLost(kFracLost[0]); rb3.SetCumulativeLost(kCumLost[0]); rtcp::ReportBlock rb4; rb4.SetMediaSsrc(kReceiverExtraSsrc); rb4.SetExtHighestSeqNum(kSequenceNumbers[1]); rb4.SetFractionLost(kFracLost[1]); rb4.SetCumulativeLost(kCumLost[1]); rtcp::ReceiverReport rr2; rr2.SetSenderSsrc(kSenderSsrc); rr2.AddReportBlock(rb3); rr2.AddReportBlock(rb4); // Advance time to make 1st sent time and 2nd sent time different. mocks.clock.AdvanceTimeMilliseconds(500); now = mocks.clock.CurrentTime(); EXPECT_CALL(mocks.rtp_rtcp_impl, OnReceivedRtcpReportBlocks(SizeIs(2))); EXPECT_CALL(mocks.network_link_rtcp_observer, OnReport(now, SizeIs(2))); receiver.IncomingPacket(rr2.Build()); EXPECT_THAT( receiver.GetLatestReportBlockData(), UnorderedElementsAre( AllOf(Property(&ReportBlockData::source_ssrc, kReceiverMainSsrc), Property(&ReportBlockData::fraction_lost_raw, kFracLost[0]), Property(&ReportBlockData::cumulative_lost, kCumLost[0]), Property(&ReportBlockData::extended_highest_sequence_number, kSequenceNumbers[0])), AllOf(Property(&ReportBlockData::source_ssrc, kReceiverExtraSsrc), Property(&ReportBlockData::fraction_lost_raw, kFracLost[1]), Property(&ReportBlockData::cumulative_lost, kCumLost[1]), Property(&ReportBlockData::extended_highest_sequence_number, kSequenceNumbers[1])))); } TEST(RtcpReceiverTest, InjectRrPacketsFromTwoRemoteSsrcsReturnsLatestReportBlock) { const uint32_t kSenderSsrc2 = 0x20304; const uint16_t kSequenceNumbers[] = {10, 12423}; const int32_t kCumLost[] = {13, 555}; const uint8_t kFracLost[] = {20, 11}; ReceiverMocks mocks; RTCPReceiver receiver(DefaultConfiguration(&mocks), &mocks.rtp_rtcp_impl); receiver.SetRemoteSSRC(kSenderSsrc); rtcp::ReportBlock rb1; rb1.SetMediaSsrc(kReceiverMainSsrc); rb1.SetExtHighestSeqNum(kSequenceNumbers[0]); rb1.SetFractionLost(kFracLost[0]); rb1.SetCumulativeLost(kCumLost[0]); rtcp::ReceiverReport rr1; rr1.SetSenderSsrc(kSenderSsrc); rr1.AddReportBlock(rb1); Timestamp now = mocks.clock.CurrentTime(); EXPECT_CALL(mocks.rtp_rtcp_impl, OnReceivedRtcpReportBlocks(SizeIs(1))); receiver.IncomingPacket(rr1.Build()); EXPECT_EQ(receiver.LastReceivedReportBlockMs(), now.ms()); EXPECT_THAT(receiver.GetLatestReportBlockData(), ElementsAre(AllOf( Property(&ReportBlockData::source_ssrc, kReceiverMainSsrc), Property(&ReportBlockData::sender_ssrc, kSenderSsrc), Property(&ReportBlockData::fraction_lost_raw, kFracLost[0]), Property(&ReportBlockData::cumulative_lost, kCumLost[0]), Property(&ReportBlockData::extended_highest_sequence_number, kSequenceNumbers[0])))); rtcp::ReportBlock rb2; rb2.SetMediaSsrc(kReceiverMainSsrc); rb2.SetExtHighestSeqNum(kSequenceNumbers[1]); rb2.SetFractionLost(kFracLost[1]); rb2.SetCumulativeLost(kCumLost[1]); rtcp::ReceiverReport rr2; rr2.SetSenderSsrc(kSenderSsrc2); rr2.AddReportBlock(rb2); EXPECT_CALL(mocks.rtp_rtcp_impl, OnReceivedRtcpReportBlocks(SizeIs(1))); receiver.IncomingPacket(rr2.Build()); EXPECT_THAT(receiver.GetLatestReportBlockData(), UnorderedElementsAre(AllOf( Property(&ReportBlockData::source_ssrc, kReceiverMainSsrc), Property(&ReportBlockData::sender_ssrc, kSenderSsrc2), Property(&ReportBlockData::fraction_lost_raw, kFracLost[1]), Property(&ReportBlockData::cumulative_lost, kCumLost[1]), Property(&ReportBlockData::extended_highest_sequence_number, kSequenceNumbers[1])))); } TEST(RtcpReceiverTest, NotifiesNetworkLinkObserverOnReportBlocks) { ReceiverMocks mocks; RTCPReceiver receiver(DefaultConfiguration(&mocks), &mocks.rtp_rtcp_impl); receiver.SetRemoteSSRC(kSenderSsrc); rtcp::ReportBlock rb1; rb1.SetMediaSsrc(kReceiverMainSsrc); rb1.SetFractionLost(10); rtcp::ReportBlock rb2; rb2.SetMediaSsrc(kNotToUsSsrc); rb2.SetFractionLost(20); rtcp::ReportBlock rb3; rb3.SetMediaSsrc(kReceiverExtraSsrc); rb3.SetFractionLost(0); rtcp::ReceiverReport rr; rr.SetSenderSsrc(kSenderSsrc); rr.AddReportBlock(rb1); rr.AddReportBlock(rb2); rr.AddReportBlock(rb3); EXPECT_CALL(mocks.rtp_rtcp_impl, OnReceivedRtcpReportBlocks(SizeIs(2))); EXPECT_CALL(mocks.network_link_rtcp_observer, OnReport(mocks.clock.CurrentTime(), UnorderedElementsAre( Property(&ReportBlockData::fraction_lost_raw, 0), Property(&ReportBlockData::fraction_lost_raw, 10)))); receiver.IncomingPacket(rr.Build()); } TEST(RtcpReceiverTest, GetRtt) { const uint32_t kSentCompactNtp = 0x1234; const uint32_t kDelayCompactNtp = 0x222; ReceiverMocks mocks; RtpRtcpInterface::Configuration config = DefaultConfiguration(&mocks); config.network_link_rtcp_observer = &mocks.network_link_rtcp_observer; RTCPReceiver receiver(config, &mocks.rtp_rtcp_impl); receiver.SetRemoteSSRC(kSenderSsrc); // No report block received. EXPECT_EQ(receiver.LastRtt(), absl::nullopt); EXPECT_EQ(receiver.AverageRtt(), absl::nullopt); rtcp::ReportBlock rb; rb.SetMediaSsrc(kReceiverMainSsrc); rb.SetLastSr(kSentCompactNtp); rb.SetDelayLastSr(kDelayCompactNtp); rtcp::ReceiverReport rr; rr.SetSenderSsrc(kSenderSsrc); rr.AddReportBlock(rb); Timestamp now = mocks.clock.CurrentTime(); EXPECT_CALL(mocks.rtp_rtcp_impl, OnReceivedRtcpReportBlocks); EXPECT_CALL(mocks.network_link_rtcp_observer, OnRttUpdate(now, Gt(TimeDelta::Zero()))); receiver.IncomingPacket(rr.Build()); EXPECT_EQ(receiver.LastReceivedReportBlockMs(), now.ms()); EXPECT_NE(receiver.LastRtt(), absl::nullopt); EXPECT_NE(receiver.AverageRtt(), absl::nullopt); } // App packets are ignored. TEST(RtcpReceiverTest, InjectApp) { ReceiverMocks mocks; RTCPReceiver receiver(DefaultConfiguration(&mocks), &mocks.rtp_rtcp_impl); receiver.SetRemoteSSRC(kSenderSsrc); rtcp::App app; app.SetSubType(30); app.SetName(0x17a177e); const uint8_t kData[] = {'t', 'e', 's', 't', 'd', 'a', 't', 'a'}; app.SetData(kData, sizeof(kData)); receiver.IncomingPacket(app.Build()); } TEST(RtcpReceiverTest, InjectSdesWithOneChunk) { ReceiverMocks mocks; MockCnameCallbackImpl callback; RtpRtcpInterface::Configuration config = DefaultConfiguration(&mocks); config.rtcp_cname_callback = &callback; RTCPReceiver receiver(config, &mocks.rtp_rtcp_impl); receiver.SetRemoteSSRC(kSenderSsrc); const char kCname[] = "alice@host"; rtcp::Sdes sdes; sdes.AddCName(kSenderSsrc, kCname); EXPECT_CALL(callback, OnCname(kSenderSsrc, StrEq(kCname))); receiver.IncomingPacket(sdes.Build()); } TEST(RtcpReceiverTest, InjectByePacketRemovesReportBlocks) { ReceiverMocks mocks; RTCPReceiver receiver(DefaultConfiguration(&mocks), &mocks.rtp_rtcp_impl); receiver.SetRemoteSSRC(kSenderSsrc); rtcp::ReportBlock rb1; rb1.SetMediaSsrc(kReceiverMainSsrc); rtcp::ReportBlock rb2; rb2.SetMediaSsrc(kReceiverExtraSsrc); rtcp::ReceiverReport rr; rr.SetSenderSsrc(kSenderSsrc); rr.AddReportBlock(rb1); rr.AddReportBlock(rb2); EXPECT_CALL(mocks.rtp_rtcp_impl, OnReceivedRtcpReportBlocks); receiver.IncomingPacket(rr.Build()); EXPECT_THAT(receiver.GetLatestReportBlockData(), SizeIs(2)); // Verify that BYE removes the report blocks. rtcp::Bye bye; bye.SetSenderSsrc(kSenderSsrc); receiver.IncomingPacket(bye.Build()); EXPECT_THAT(receiver.GetLatestReportBlockData(), IsEmpty()); // Inject packet again. EXPECT_CALL(mocks.rtp_rtcp_impl, OnReceivedRtcpReportBlocks); receiver.IncomingPacket(rr.Build()); EXPECT_THAT(receiver.GetLatestReportBlockData(), SizeIs(2)); } TEST(RtcpReceiverTest, InjectByePacketRemovesReferenceTimeInfo) { ReceiverMocks mocks; RTCPReceiver receiver(DefaultConfiguration(&mocks), &mocks.rtp_rtcp_impl); receiver.SetRemoteSSRC(kSenderSsrc); rtcp::ExtendedReports xr; xr.SetSenderSsrc(kSenderSsrc); rtcp::Rrtr rrtr; rrtr.SetNtp(NtpTime(0x10203, 0x40506)); xr.SetRrtr(rrtr); receiver.IncomingPacket(xr.Build()); rtcp::Bye bye; bye.SetSenderSsrc(kSenderSsrc); receiver.IncomingPacket(bye.Build()); EXPECT_THAT(receiver.ConsumeReceivedXrReferenceTimeInfo(), IsEmpty()); } TEST(RtcpReceiverTest, InjectPliPacket) { ReceiverMocks mocks; RTCPReceiver receiver(DefaultConfiguration(&mocks), &mocks.rtp_rtcp_impl); receiver.SetRemoteSSRC(kSenderSsrc); rtcp::Pli pli; pli.SetMediaSsrc(kReceiverMainSsrc); EXPECT_CALL( mocks.packet_type_counter_observer, RtcpPacketTypesCounterUpdated( kReceiverMainSsrc, Field(&RtcpPacketTypeCounter::pli_packets, 1))); EXPECT_CALL(mocks.intra_frame_observer, OnReceivedIntraFrameRequest(kReceiverMainSsrc)); receiver.IncomingPacket(pli.Build()); } TEST(RtcpReceiverTest, PliPacketNotToUsIgnored) { ReceiverMocks mocks; RTCPReceiver receiver(DefaultConfiguration(&mocks), &mocks.rtp_rtcp_impl); receiver.SetRemoteSSRC(kSenderSsrc); rtcp::Pli pli; pli.SetMediaSsrc(kNotToUsSsrc); EXPECT_CALL( mocks.packet_type_counter_observer, RtcpPacketTypesCounterUpdated( kReceiverMainSsrc, Field(&RtcpPacketTypeCounter::pli_packets, 0))); EXPECT_CALL(mocks.intra_frame_observer, OnReceivedIntraFrameRequest).Times(0); receiver.IncomingPacket(pli.Build()); } TEST(RtcpReceiverTest, InjectFirPacket) { ReceiverMocks mocks; RTCPReceiver receiver(DefaultConfiguration(&mocks), &mocks.rtp_rtcp_impl); receiver.SetRemoteSSRC(kSenderSsrc); rtcp::Fir fir; fir.AddRequestTo(kReceiverMainSsrc, 13); EXPECT_CALL( mocks.packet_type_counter_observer, RtcpPacketTypesCounterUpdated( kReceiverMainSsrc, Field(&RtcpPacketTypeCounter::fir_packets, 1))); EXPECT_CALL(mocks.intra_frame_observer, OnReceivedIntraFrameRequest(kReceiverMainSsrc)); receiver.IncomingPacket(fir.Build()); } TEST(RtcpReceiverTest, FirPacketNotToUsIgnored) { ReceiverMocks mocks; RTCPReceiver receiver(DefaultConfiguration(&mocks), &mocks.rtp_rtcp_impl); receiver.SetRemoteSSRC(kSenderSsrc); rtcp::Fir fir; fir.AddRequestTo(kNotToUsSsrc, 13); EXPECT_CALL(mocks.intra_frame_observer, OnReceivedIntraFrameRequest).Times(0); receiver.IncomingPacket(fir.Build()); } TEST(RtcpReceiverTest, ExtendedReportsPacketWithZeroReportBlocksIgnored) { ReceiverMocks mocks; RTCPReceiver receiver(DefaultConfiguration(&mocks), &mocks.rtp_rtcp_impl); receiver.SetRemoteSSRC(kSenderSsrc); rtcp::ExtendedReports xr; xr.SetSenderSsrc(kSenderSsrc); receiver.IncomingPacket(xr.Build()); } TEST(RtcpReceiverTest, InjectExtendedReportsReceiverReferenceTimePacket) { ReceiverMocks mocks; RTCPReceiver receiver(DefaultConfiguration(&mocks), &mocks.rtp_rtcp_impl); receiver.SetRemoteSSRC(kSenderSsrc); const NtpTime kNtp(0x10203, 0x40506); rtcp::Rrtr rrtr; rrtr.SetNtp(kNtp); rtcp::ExtendedReports xr; xr.SetSenderSsrc(kSenderSsrc); xr.SetRrtr(rrtr); std::vector last_xr_rtis = receiver.ConsumeReceivedXrReferenceTimeInfo(); EXPECT_THAT(last_xr_rtis, IsEmpty()); receiver.IncomingPacket(xr.Build()); last_xr_rtis = receiver.ConsumeReceivedXrReferenceTimeInfo(); ASSERT_THAT(last_xr_rtis, SizeIs(1)); EXPECT_EQ(kSenderSsrc, last_xr_rtis[0].ssrc); EXPECT_EQ(CompactNtp(kNtp), last_xr_rtis[0].last_rr); EXPECT_EQ(0U, last_xr_rtis[0].delay_since_last_rr); } TEST(RtcpReceiverTest, ExtendedReportsDlrrPacketNotToUsIgnored) { ReceiverMocks mocks; auto config = DefaultConfiguration(&mocks); // Allow calculate rtt using dlrr/rrtr, simulating media receiver side. config.non_sender_rtt_measurement = true; RTCPReceiver receiver(config, &mocks.rtp_rtcp_impl); receiver.SetRemoteSSRC(kSenderSsrc); rtcp::ExtendedReports xr; xr.SetSenderSsrc(kSenderSsrc); xr.AddDlrrItem(ReceiveTimeInfo(kNotToUsSsrc, 0x12345, 0x67890)); receiver.IncomingPacket(xr.Build()); EXPECT_FALSE(receiver.GetAndResetXrRrRtt()); RTCPReceiver::NonSenderRttStats non_sender_rtt_stats = receiver.GetNonSenderRTT(); EXPECT_FALSE(non_sender_rtt_stats.round_trip_time().has_value()); EXPECT_TRUE(non_sender_rtt_stats.total_round_trip_time().IsZero()); EXPECT_EQ(non_sender_rtt_stats.round_trip_time_measurements(), 0); } TEST(RtcpReceiverTest, InjectExtendedReportsDlrrPacketWithSubBlock) { ReceiverMocks mocks; auto config = DefaultConfiguration(&mocks); config.non_sender_rtt_measurement = true; RTCPReceiver receiver(config, &mocks.rtp_rtcp_impl); receiver.SetRemoteSSRC(kSenderSsrc); const uint32_t kLastRR = 0x12345; const uint32_t kDelay = 0x23456; EXPECT_FALSE(receiver.GetAndResetXrRrRtt()); rtcp::ExtendedReports xr; xr.SetSenderSsrc(kSenderSsrc); xr.AddDlrrItem(ReceiveTimeInfo(kReceiverMainSsrc, kLastRR, kDelay)); receiver.IncomingPacket(xr.Build()); uint32_t compact_ntp_now = CompactNtp(mocks.clock.CurrentNtpTime()); uint32_t rtt_ntp = compact_ntp_now - kDelay - kLastRR; EXPECT_THAT(receiver.GetAndResetXrRrRtt(), Near(CompactNtpRttToTimeDelta(rtt_ntp), kEpsilon)); RTCPReceiver::NonSenderRttStats non_sender_rtt_stats = receiver.GetNonSenderRTT(); EXPECT_GT(non_sender_rtt_stats.round_trip_time(), TimeDelta::Zero()); EXPECT_FALSE(non_sender_rtt_stats.total_round_trip_time().IsZero()); EXPECT_GT(non_sender_rtt_stats.round_trip_time_measurements(), 0); } TEST(RtcpReceiverTest, InjectExtendedReportsDlrrPacketWithMultipleSubBlocks) { ReceiverMocks mocks; auto config = DefaultConfiguration(&mocks); config.non_sender_rtt_measurement = true; RTCPReceiver receiver(config, &mocks.rtp_rtcp_impl); receiver.SetRemoteSSRC(kSenderSsrc); const uint32_t kLastRR = 0x12345; const uint32_t kDelay = 0x56789; rtcp::ExtendedReports xr; xr.SetSenderSsrc(kSenderSsrc); xr.AddDlrrItem(ReceiveTimeInfo(kReceiverMainSsrc, kLastRR, kDelay)); xr.AddDlrrItem(ReceiveTimeInfo(kReceiverMainSsrc + 1, 0x12345, 0x67890)); xr.AddDlrrItem(ReceiveTimeInfo(kReceiverMainSsrc + 2, 0x12345, 0x67890)); receiver.IncomingPacket(xr.Build()); uint32_t compact_ntp_now = CompactNtp(mocks.clock.CurrentNtpTime()); uint32_t rtt_ntp = compact_ntp_now - kDelay - kLastRR; EXPECT_THAT(receiver.GetAndResetXrRrRtt(), Near(CompactNtpRttToTimeDelta(rtt_ntp), kEpsilon)); RTCPReceiver::NonSenderRttStats non_sender_rtt_stats = receiver.GetNonSenderRTT(); EXPECT_GT(non_sender_rtt_stats.round_trip_time(), TimeDelta::Zero()); EXPECT_FALSE(non_sender_rtt_stats.total_round_trip_time().IsZero()); EXPECT_GT(non_sender_rtt_stats.round_trip_time_measurements(), 0); } TEST(RtcpReceiverTest, InjectExtendedReportsPacketWithMultipleReportBlocks) { ReceiverMocks mocks; auto config = DefaultConfiguration(&mocks); config.non_sender_rtt_measurement = true; RTCPReceiver receiver(config, &mocks.rtp_rtcp_impl); receiver.SetRemoteSSRC(kSenderSsrc); rtcp::Rrtr rrtr; rtcp::ExtendedReports xr; xr.SetSenderSsrc(kSenderSsrc); xr.SetRrtr(rrtr); xr.AddDlrrItem(ReceiveTimeInfo(kReceiverMainSsrc, 0x12345, 0x67890)); receiver.IncomingPacket(xr.Build()); std::vector last_xr_rtis = receiver.ConsumeReceivedXrReferenceTimeInfo(); EXPECT_THAT(last_xr_rtis, SizeIs(1)); EXPECT_TRUE(receiver.GetAndResetXrRrRtt()); } TEST(RtcpReceiverTest, InjectExtendedReportsPacketWithUnknownReportBlock) { ReceiverMocks mocks; auto config = DefaultConfiguration(&mocks); config.non_sender_rtt_measurement = true; RTCPReceiver receiver(config, &mocks.rtp_rtcp_impl); receiver.SetRemoteSSRC(kSenderSsrc); rtcp::Rrtr rrtr; rtcp::ExtendedReports xr; xr.SetSenderSsrc(kSenderSsrc); xr.SetRrtr(rrtr); xr.AddDlrrItem(ReceiveTimeInfo(kReceiverMainSsrc, 0x12345, 0x67890)); rtc::Buffer packet = xr.Build(); // Modify the DLRR block to have an unsupported block type, from 5 to 6. ASSERT_EQ(5, packet.data()[20]); packet.data()[20] = 6; receiver.IncomingPacket(packet); // Validate Rrtr was received and processed. std::vector last_xr_rtis = receiver.ConsumeReceivedXrReferenceTimeInfo(); EXPECT_THAT(last_xr_rtis, SizeIs(1)); // Validate Dlrr report wasn't processed. EXPECT_FALSE(receiver.GetAndResetXrRrRtt()); RTCPReceiver::NonSenderRttStats non_sender_rtt_stats = receiver.GetNonSenderRTT(); EXPECT_FALSE(non_sender_rtt_stats.round_trip_time().has_value()); EXPECT_TRUE(non_sender_rtt_stats.total_round_trip_time().IsZero()); EXPECT_EQ(non_sender_rtt_stats.round_trip_time_measurements(), 0); } TEST(RtcpReceiverTest, TestExtendedReportsRrRttInitiallyFalse) { ReceiverMocks mocks; auto config = DefaultConfiguration(&mocks); config.non_sender_rtt_measurement = true; RTCPReceiver receiver(config, &mocks.rtp_rtcp_impl); receiver.SetRemoteSSRC(kSenderSsrc); EXPECT_FALSE(receiver.GetAndResetXrRrRtt()); RTCPReceiver::NonSenderRttStats non_sender_rtt_stats = receiver.GetNonSenderRTT(); EXPECT_FALSE(non_sender_rtt_stats.round_trip_time().has_value()); EXPECT_TRUE(non_sender_rtt_stats.total_round_trip_time().IsZero()); EXPECT_EQ(non_sender_rtt_stats.round_trip_time_measurements(), 0); } TEST(RtcpReceiverTest, RttCalculatedAfterExtendedReportsDlrr) { ReceiverMocks mocks; auto config = DefaultConfiguration(&mocks); config.non_sender_rtt_measurement = true; RTCPReceiver receiver(config, &mocks.rtp_rtcp_impl); receiver.SetRemoteSSRC(kSenderSsrc); Random rand(0x0123456789abcdef); const TimeDelta kRtt = TimeDelta::Millis(rand.Rand(1, 9 * 3600 * 1000)); const uint32_t kDelayNtp = rand.Rand(0, 0x7fffffff); const TimeDelta kDelay = CompactNtpRttToTimeDelta(kDelayNtp); NtpTime now = mocks.clock.CurrentNtpTime(); uint32_t sent_ntp = CompactNtp(now); mocks.clock.AdvanceTime(kRtt + kDelay); rtcp::ExtendedReports xr; xr.SetSenderSsrc(kSenderSsrc); xr.AddDlrrItem(ReceiveTimeInfo(kReceiverMainSsrc, sent_ntp, kDelayNtp)); receiver.IncomingPacket(xr.Build()); EXPECT_THAT(receiver.GetAndResetXrRrRtt(), Near(kRtt, kEpsilon)); RTCPReceiver::NonSenderRttStats non_sender_rtt_stats = receiver.GetNonSenderRTT(); EXPECT_TRUE(non_sender_rtt_stats.round_trip_time().has_value()); EXPECT_FALSE(non_sender_rtt_stats.round_trip_time().value().IsZero()); EXPECT_FALSE(non_sender_rtt_stats.total_round_trip_time().IsZero()); EXPECT_GT(non_sender_rtt_stats.round_trip_time_measurements(), 0); } // Same test as above but enables receive-side RTT using the setter instead of // the config struct. TEST(RtcpReceiverTest, SetterEnablesReceiverRtt) { ReceiverMocks mocks; auto config = DefaultConfiguration(&mocks); config.non_sender_rtt_measurement = false; RTCPReceiver receiver(config, &mocks.rtp_rtcp_impl); receiver.SetRemoteSSRC(kSenderSsrc); receiver.SetNonSenderRttMeasurement(true); Random rand(0x0123456789abcdef); const TimeDelta kRtt = TimeDelta::Millis(rand.Rand(1, 9 * 3600 * 1000)); const uint32_t kDelayNtp = rand.Rand(0, 0x7fffffff); const TimeDelta kDelay = CompactNtpRttToTimeDelta(kDelayNtp); NtpTime now = mocks.clock.CurrentNtpTime(); uint32_t sent_ntp = CompactNtp(now); mocks.clock.AdvanceTime(kRtt + kDelay); rtcp::ExtendedReports xr; xr.SetSenderSsrc(kSenderSsrc); xr.AddDlrrItem(ReceiveTimeInfo(kReceiverMainSsrc, sent_ntp, kDelayNtp)); receiver.IncomingPacket(xr.Build()); EXPECT_THAT(receiver.GetAndResetXrRrRtt(), Near(kRtt, kEpsilon)); RTCPReceiver::NonSenderRttStats non_sender_rtt_stats = receiver.GetNonSenderRTT(); EXPECT_TRUE(non_sender_rtt_stats.round_trip_time().has_value()); EXPECT_FALSE(non_sender_rtt_stats.round_trip_time().value().IsZero()); EXPECT_FALSE(non_sender_rtt_stats.total_round_trip_time().IsZero()); EXPECT_GT(non_sender_rtt_stats.round_trip_time_measurements(), 0); } // Same test as above but disables receive-side RTT using the setter instead of // the config struct. TEST(RtcpReceiverTest, DoesntCalculateRttOnReceivedDlrr) { ReceiverMocks mocks; auto config = DefaultConfiguration(&mocks); config.non_sender_rtt_measurement = true; RTCPReceiver receiver(config, &mocks.rtp_rtcp_impl); receiver.SetRemoteSSRC(kSenderSsrc); receiver.SetNonSenderRttMeasurement(false); Random rand(0x0123456789abcdef); const TimeDelta kRtt = TimeDelta::Millis(rand.Rand(1, 9 * 3600 * 1000)); const uint32_t kDelayNtp = rand.Rand(0, 0x7fffffff); const TimeDelta kDelay = CompactNtpRttToTimeDelta(kDelayNtp); NtpTime now = mocks.clock.CurrentNtpTime(); uint32_t sent_ntp = CompactNtp(now); mocks.clock.AdvanceTime(kRtt + kDelay); rtcp::ExtendedReports xr; xr.SetSenderSsrc(kSenderSsrc); xr.AddDlrrItem(ReceiveTimeInfo(kReceiverMainSsrc, sent_ntp, kDelayNtp)); receiver.IncomingPacket(xr.Build()); // We expect that no RTT is available (because receive-side RTT was disabled). EXPECT_FALSE(receiver.GetAndResetXrRrRtt()); RTCPReceiver::NonSenderRttStats non_sender_rtt_stats = receiver.GetNonSenderRTT(); EXPECT_FALSE(non_sender_rtt_stats.round_trip_time().has_value()); EXPECT_TRUE(non_sender_rtt_stats.total_round_trip_time().IsZero()); EXPECT_EQ(non_sender_rtt_stats.round_trip_time_measurements(), 0); } TEST(RtcpReceiverTest, XrDlrrCalculatesNegativeRttAsOneMillisecond) { ReceiverMocks mocks; auto config = DefaultConfiguration(&mocks); config.non_sender_rtt_measurement = true; RTCPReceiver receiver(config, &mocks.rtp_rtcp_impl); receiver.SetRemoteSSRC(kSenderSsrc); Random rand(0x0123456789abcdef); const TimeDelta kRtt = TimeDelta::Millis(rand.Rand(-3600 * 1000, -1)); const uint32_t kDelayNtp = rand.Rand(0, 0x7fffffff); const TimeDelta kDelay = CompactNtpRttToTimeDelta(kDelayNtp); NtpTime now = mocks.clock.CurrentNtpTime(); uint32_t sent_ntp = CompactNtp(now); mocks.clock.AdvanceTime(kRtt + kDelay); rtcp::ExtendedReports xr; xr.SetSenderSsrc(kSenderSsrc); xr.AddDlrrItem(ReceiveTimeInfo(kReceiverMainSsrc, sent_ntp, kDelayNtp)); receiver.IncomingPacket(xr.Build()); EXPECT_EQ(receiver.GetAndResetXrRrRtt(), TimeDelta::Millis(1)); RTCPReceiver::NonSenderRttStats non_sender_rtt_stats = receiver.GetNonSenderRTT(); EXPECT_TRUE(non_sender_rtt_stats.round_trip_time().has_value()); EXPECT_FALSE(non_sender_rtt_stats.round_trip_time().value().IsZero()); EXPECT_FALSE(non_sender_rtt_stats.total_round_trip_time().IsZero()); EXPECT_GT(non_sender_rtt_stats.round_trip_time_measurements(), 0); } // Test receiver RTT stats with multiple measurements. TEST(RtcpReceiverTest, ReceiverRttWithMultipleMeasurements) { ReceiverMocks mocks; auto config = DefaultConfiguration(&mocks); config.non_sender_rtt_measurement = true; RTCPReceiver receiver(config, &mocks.rtp_rtcp_impl); receiver.SetRemoteSSRC(kSenderSsrc); Random rand(0x0123456789abcdef); const TimeDelta kRtt = TimeDelta::Millis(rand.Rand(1, 9 * 3600 * 1000)); const uint32_t kDelayNtp = rand.Rand(0, 0x7fffffff); const TimeDelta kDelay = CompactNtpRttToTimeDelta(kDelayNtp); NtpTime now = mocks.clock.CurrentNtpTime(); uint32_t sent_ntp = CompactNtp(now); mocks.clock.AdvanceTime(kRtt + kDelay); rtcp::ExtendedReports xr; xr.SetSenderSsrc(kSenderSsrc); xr.AddDlrrItem(ReceiveTimeInfo(kReceiverMainSsrc, sent_ntp, kDelayNtp)); receiver.IncomingPacket(xr.Build()); // Check that the non-sender RTT stats are valid and based on a single // measurement. RTCPReceiver::NonSenderRttStats non_sender_rtt_stats = receiver.GetNonSenderRTT(); EXPECT_TRUE(non_sender_rtt_stats.round_trip_time().has_value()); EXPECT_NEAR(non_sender_rtt_stats.round_trip_time()->ms(), kRtt.ms(), 1); EXPECT_EQ(non_sender_rtt_stats.round_trip_time_measurements(), 1); EXPECT_EQ(non_sender_rtt_stats.total_round_trip_time().ms(), non_sender_rtt_stats.round_trip_time()->ms()); // Generate another XR report with the same RTT and delay. NtpTime now2 = mocks.clock.CurrentNtpTime(); uint32_t sent_ntp2 = CompactNtp(now2); mocks.clock.AdvanceTime(kRtt + kDelay); rtcp::ExtendedReports xr2; xr2.SetSenderSsrc(kSenderSsrc); xr2.AddDlrrItem(ReceiveTimeInfo(kReceiverMainSsrc, sent_ntp2, kDelayNtp)); receiver.IncomingPacket(xr2.Build()); // Check that the non-sender RTT stats are based on 2 measurements, and that // the values are as expected. non_sender_rtt_stats = receiver.GetNonSenderRTT(); EXPECT_TRUE(non_sender_rtt_stats.round_trip_time().has_value()); EXPECT_NEAR(non_sender_rtt_stats.round_trip_time()->ms(), kRtt.ms(), 1); EXPECT_EQ(non_sender_rtt_stats.round_trip_time_measurements(), 2); EXPECT_NEAR(non_sender_rtt_stats.total_round_trip_time().ms(), 2 * kRtt.ms(), 2); } // Test that the receiver RTT stat resets when receiving a SR without XR. This // behavior is described in the standard, see // https://www.w3.org/TR/webrtc-stats/#dom-rtcremoteoutboundrtpstreamstats-roundtriptime. TEST(RtcpReceiverTest, ReceiverRttResetOnSrWithoutXr) { ReceiverMocks mocks; auto config = DefaultConfiguration(&mocks); config.non_sender_rtt_measurement = true; RTCPReceiver receiver(config, &mocks.rtp_rtcp_impl); receiver.SetRemoteSSRC(kSenderSsrc); Random rand(0x0123456789abcdef); const TimeDelta kRtt = TimeDelta::Millis(rand.Rand(1, 9 * 3600 * 1000)); const uint32_t kDelayNtp = rand.Rand(0, 0x7fffffff); const TimeDelta kDelay = CompactNtpRttToTimeDelta(kDelayNtp); NtpTime now = mocks.clock.CurrentNtpTime(); uint32_t sent_ntp = CompactNtp(now); mocks.clock.AdvanceTime(kRtt + kDelay); rtcp::ExtendedReports xr; xr.SetSenderSsrc(kSenderSsrc); xr.AddDlrrItem(ReceiveTimeInfo(kReceiverMainSsrc, sent_ntp, kDelayNtp)); receiver.IncomingPacket(xr.Build()); RTCPReceiver::NonSenderRttStats non_sender_rtt_stats = receiver.GetNonSenderRTT(); EXPECT_TRUE(non_sender_rtt_stats.round_trip_time().has_value()); EXPECT_NEAR(non_sender_rtt_stats.round_trip_time()->ms(), kRtt.ms(), 1); // Generate a SR without XR. rtcp::ReportBlock rb; rb.SetMediaSsrc(kReceiverMainSsrc); rtcp::SenderReport sr; sr.SetSenderSsrc(kSenderSsrc); sr.AddReportBlock(rb); EXPECT_CALL(mocks.rtp_rtcp_impl, OnReceivedRtcpReportBlocks); receiver.IncomingPacket(sr.Build()); // Check that the non-sender RTT stat is not set. non_sender_rtt_stats = receiver.GetNonSenderRTT(); EXPECT_FALSE(non_sender_rtt_stats.round_trip_time().has_value()); } // Test that the receiver RTT stat resets when receiving a DLRR with a timestamp // of zero. This behavior is described in the standard, see // https://www.w3.org/TR/webrtc-stats/#dom-rtcremoteoutboundrtpstreamstats-roundtriptime. TEST(RtcpReceiverTest, ReceiverRttResetOnDlrrWithZeroTimestamp) { ReceiverMocks mocks; auto config = DefaultConfiguration(&mocks); config.non_sender_rtt_measurement = true; RTCPReceiver receiver(config, &mocks.rtp_rtcp_impl); receiver.SetRemoteSSRC(kSenderSsrc); Random rand(0x0123456789abcdef); const TimeDelta kRtt = TimeDelta::Millis(rand.Rand(1, 9 * 3600 * 1000)); const uint32_t kDelayNtp = rand.Rand(0, 0x7fffffff); const TimeDelta kDelay = CompactNtpRttToTimeDelta(kDelayNtp); NtpTime now = mocks.clock.CurrentNtpTime(); uint32_t sent_ntp = CompactNtp(now); mocks.clock.AdvanceTime(kRtt + kDelay); rtcp::ExtendedReports xr; xr.SetSenderSsrc(kSenderSsrc); xr.AddDlrrItem(ReceiveTimeInfo(kReceiverMainSsrc, sent_ntp, kDelayNtp)); receiver.IncomingPacket(xr.Build()); RTCPReceiver::NonSenderRttStats non_sender_rtt_stats = receiver.GetNonSenderRTT(); EXPECT_TRUE(non_sender_rtt_stats.round_trip_time().has_value()); EXPECT_NEAR(non_sender_rtt_stats.round_trip_time()->ms(), kRtt.ms(), 1); // Generate an XR+DLRR with zero timestamp. rtcp::ExtendedReports xr2; xr2.SetSenderSsrc(kSenderSsrc); xr2.AddDlrrItem(ReceiveTimeInfo(kReceiverMainSsrc, 0, kDelayNtp)); receiver.IncomingPacket(xr2.Build()); // Check that the non-sender RTT stat is not set. non_sender_rtt_stats = receiver.GetNonSenderRTT(); EXPECT_FALSE(non_sender_rtt_stats.round_trip_time().has_value()); } // Check that the receiver RTT works correctly when the remote SSRC changes. TEST(RtcpReceiverTest, ReceiverRttWithMultipleRemoteSsrcs) { ReceiverMocks mocks; auto config = DefaultConfiguration(&mocks); config.non_sender_rtt_measurement = false; RTCPReceiver receiver(config, &mocks.rtp_rtcp_impl); receiver.SetRemoteSSRC(kSenderSsrc); receiver.SetNonSenderRttMeasurement(true); Random rand(0x0123456789abcdef); const TimeDelta kRtt = TimeDelta::Millis(rand.Rand(1, 9 * 3600 * 1000)); const uint32_t kDelayNtp = rand.Rand(0, 0x7fffffff); const TimeDelta kDelay = CompactNtpRttToTimeDelta(kDelayNtp); NtpTime now = mocks.clock.CurrentNtpTime(); uint32_t sent_ntp = CompactNtp(now); mocks.clock.AdvanceTime(kRtt + kDelay); rtcp::ExtendedReports xr; xr.SetSenderSsrc(kSenderSsrc); xr.AddDlrrItem(ReceiveTimeInfo(kReceiverMainSsrc, sent_ntp, kDelayNtp)); receiver.IncomingPacket(xr.Build()); // Generate an XR report for another SSRC. const TimeDelta kRtt2 = TimeDelta::Millis(rand.Rand(1, 9 * 3600 * 1000)); const uint32_t kDelayNtp2 = rand.Rand(0, 0x7fffffff); const TimeDelta kDelay2 = CompactNtpRttToTimeDelta(kDelayNtp2); NtpTime now2 = mocks.clock.CurrentNtpTime(); uint32_t sent_ntp2 = CompactNtp(now2); mocks.clock.AdvanceTime(kRtt2 + kDelay2); rtcp::ExtendedReports xr2; xr2.SetSenderSsrc(kSenderSsrc + 1); xr2.AddDlrrItem(ReceiveTimeInfo(kReceiverMainSsrc, sent_ntp2, kDelayNtp2)); receiver.IncomingPacket(xr2.Build()); // Check that the non-sender RTT stats match the first XR. RTCPReceiver::NonSenderRttStats non_sender_rtt_stats = receiver.GetNonSenderRTT(); EXPECT_TRUE(non_sender_rtt_stats.round_trip_time().has_value()); EXPECT_NEAR(non_sender_rtt_stats.round_trip_time()->ms(), kRtt.ms(), 1); EXPECT_FALSE(non_sender_rtt_stats.total_round_trip_time().IsZero()); EXPECT_GT(non_sender_rtt_stats.round_trip_time_measurements(), 0); // Change the remote SSRC and check that the stats match the second XR. receiver.SetRemoteSSRC(kSenderSsrc + 1); RTCPReceiver::NonSenderRttStats non_sender_rtt_stats2 = receiver.GetNonSenderRTT(); EXPECT_TRUE(non_sender_rtt_stats2.round_trip_time().has_value()); EXPECT_NEAR(non_sender_rtt_stats2.round_trip_time()->ms(), kRtt2.ms(), 1); EXPECT_FALSE(non_sender_rtt_stats2.total_round_trip_time().IsZero()); EXPECT_GT(non_sender_rtt_stats2.round_trip_time_measurements(), 0); } TEST(RtcpReceiverTest, ConsumeReceivedXrReferenceTimeInfoInitiallyEmpty) { ReceiverMocks mocks; RTCPReceiver receiver(DefaultConfiguration(&mocks), &mocks.rtp_rtcp_impl); receiver.SetRemoteSSRC(kSenderSsrc); EXPECT_THAT(receiver.ConsumeReceivedXrReferenceTimeInfo(), IsEmpty()); } TEST(RtcpReceiverTest, ConsumeReceivedXrReferenceTimeInfo) { ReceiverMocks mocks; RTCPReceiver receiver(DefaultConfiguration(&mocks), &mocks.rtp_rtcp_impl); receiver.SetRemoteSSRC(kSenderSsrc); const NtpTime kNtp(0x10203, 0x40506); const uint32_t kNtpMid = CompactNtp(kNtp); rtcp::Rrtr rrtr; rrtr.SetNtp(kNtp); rtcp::ExtendedReports xr; xr.SetSenderSsrc(kSenderSsrc); xr.SetRrtr(rrtr); receiver.IncomingPacket(xr.Build()); mocks.clock.AdvanceTimeMilliseconds(1000); std::vector last_xr_rtis = receiver.ConsumeReceivedXrReferenceTimeInfo(); ASSERT_THAT(last_xr_rtis, SizeIs(1)); EXPECT_EQ(kSenderSsrc, last_xr_rtis[0].ssrc); EXPECT_EQ(kNtpMid, last_xr_rtis[0].last_rr); EXPECT_EQ(65536U, last_xr_rtis[0].delay_since_last_rr); } TEST(RtcpReceiverTest, ReceivedRrtrFromSameSsrcUpdatesReceivedReferenceTimeInfo) { ReceiverMocks mocks; RTCPReceiver receiver(DefaultConfiguration(&mocks), &mocks.rtp_rtcp_impl); receiver.SetRemoteSSRC(kSenderSsrc); const NtpTime kNtp1(0x10203, 0x40506); const NtpTime kNtp2(0x11223, 0x44556); const int64_t kDelayMs = 2000; rtcp::ExtendedReports xr; xr.SetSenderSsrc(kSenderSsrc); rtcp::Rrtr rrtr1; rrtr1.SetNtp(kNtp1); xr.SetRrtr(rrtr1); receiver.IncomingPacket(xr.Build()); mocks.clock.AdvanceTimeMilliseconds(kDelayMs); rtcp::Rrtr rrtr2; rrtr2.SetNtp(kNtp2); xr.SetRrtr(rrtr2); receiver.IncomingPacket(xr.Build()); mocks.clock.AdvanceTimeMilliseconds(kDelayMs); std::vector last_xr_rtis = receiver.ConsumeReceivedXrReferenceTimeInfo(); ASSERT_THAT(last_xr_rtis, SizeIs(1)); EXPECT_EQ(kSenderSsrc, last_xr_rtis[0].ssrc); EXPECT_EQ(CompactNtp(kNtp2), last_xr_rtis[0].last_rr); EXPECT_EQ(kDelayMs * 65536 / 1000, last_xr_rtis[0].delay_since_last_rr); } TEST(RtcpReceiverTest, StoresLastReceivedRrtrPerSsrc) { ReceiverMocks mocks; RTCPReceiver receiver(DefaultConfiguration(&mocks), &mocks.rtp_rtcp_impl); receiver.SetRemoteSSRC(kSenderSsrc); const size_t kNumBufferedReports = 1; const size_t kNumReports = rtcp::ExtendedReports::kMaxNumberOfDlrrItems + kNumBufferedReports; for (size_t i = 0; i < kNumReports; ++i) { rtcp::ExtendedReports xr; xr.SetSenderSsrc(i * 100); rtcp::Rrtr rrtr; rrtr.SetNtp(NtpTime(i * 200, i * 300)); xr.SetRrtr(rrtr); receiver.IncomingPacket(xr.Build()); mocks.clock.AdvanceTimeMilliseconds(1000); } std::vector last_xr_rtis = receiver.ConsumeReceivedXrReferenceTimeInfo(); ASSERT_THAT(last_xr_rtis, SizeIs(rtcp::ExtendedReports::kMaxNumberOfDlrrItems)); for (size_t i = 0; i < rtcp::ExtendedReports::kMaxNumberOfDlrrItems; ++i) { EXPECT_EQ(i * 100, last_xr_rtis[i].ssrc); EXPECT_EQ(CompactNtp(NtpTime(i * 200, i * 300)), last_xr_rtis[i].last_rr); EXPECT_EQ(65536U * (kNumReports - i), last_xr_rtis[i].delay_since_last_rr); } last_xr_rtis = receiver.ConsumeReceivedXrReferenceTimeInfo(); ASSERT_THAT(last_xr_rtis, SizeIs(kNumBufferedReports)); } TEST(RtcpReceiverTest, ReceiveReportTimeout) { ReceiverMocks mocks; RTCPReceiver receiver(DefaultConfiguration(&mocks), &mocks.rtp_rtcp_impl); receiver.SetRemoteSSRC(kSenderSsrc); const uint16_t kSequenceNumber = 1234; mocks.clock.AdvanceTimeMilliseconds(3 * kRtcpIntervalMs); // No RR received, shouldn't trigger a timeout. EXPECT_FALSE(receiver.RtcpRrTimeout()); EXPECT_FALSE(receiver.RtcpRrSequenceNumberTimeout()); // Add a RR and advance the clock just enough to not trigger a timeout. rtcp::ReportBlock rb1; rb1.SetMediaSsrc(kReceiverMainSsrc); rb1.SetExtHighestSeqNum(kSequenceNumber); rtcp::ReceiverReport rr1; rr1.SetSenderSsrc(kSenderSsrc); rr1.AddReportBlock(rb1); EXPECT_CALL(mocks.rtp_rtcp_impl, OnReceivedRtcpReportBlocks); receiver.IncomingPacket(rr1.Build()); mocks.clock.AdvanceTimeMilliseconds(3 * kRtcpIntervalMs - 1); EXPECT_FALSE(receiver.RtcpRrTimeout()); EXPECT_FALSE(receiver.RtcpRrSequenceNumberTimeout()); // Add a RR with the same extended max as the previous RR to trigger a // sequence number timeout, but not a RR timeout. EXPECT_CALL(mocks.rtp_rtcp_impl, OnReceivedRtcpReportBlocks); receiver.IncomingPacket(rr1.Build()); mocks.clock.AdvanceTimeMilliseconds(2); EXPECT_FALSE(receiver.RtcpRrTimeout()); EXPECT_TRUE(receiver.RtcpRrSequenceNumberTimeout()); // Advance clock enough to trigger an RR timeout too. mocks.clock.AdvanceTimeMilliseconds(3 * kRtcpIntervalMs); EXPECT_TRUE(receiver.RtcpRrTimeout()); // We should only get one timeout even though we still haven't received a new // RR. EXPECT_FALSE(receiver.RtcpRrTimeout()); EXPECT_FALSE(receiver.RtcpRrSequenceNumberTimeout()); // Add a new RR with increase sequence number to reset timers. rtcp::ReportBlock rb2; rb2.SetMediaSsrc(kReceiverMainSsrc); rb2.SetExtHighestSeqNum(kSequenceNumber + 1); rtcp::ReceiverReport rr2; rr2.SetSenderSsrc(kSenderSsrc); rr2.AddReportBlock(rb2); EXPECT_CALL(mocks.rtp_rtcp_impl, OnReceivedRtcpReportBlocks); receiver.IncomingPacket(rr2.Build()); EXPECT_FALSE(receiver.RtcpRrTimeout()); EXPECT_FALSE(receiver.RtcpRrSequenceNumberTimeout()); // Verify we can get a timeout again once we've received new RR. mocks.clock.AdvanceTimeMilliseconds(2 * kRtcpIntervalMs); EXPECT_CALL(mocks.rtp_rtcp_impl, OnReceivedRtcpReportBlocks); receiver.IncomingPacket(rr2.Build()); mocks.clock.AdvanceTimeMilliseconds(kRtcpIntervalMs + 1); EXPECT_FALSE(receiver.RtcpRrTimeout()); EXPECT_TRUE(receiver.RtcpRrSequenceNumberTimeout()); mocks.clock.AdvanceTimeMilliseconds(2 * kRtcpIntervalMs); EXPECT_TRUE(receiver.RtcpRrTimeout()); } TEST(RtcpReceiverTest, TmmbrReceivedWithNoIncomingPacket) { ReceiverMocks mocks; RTCPReceiver receiver(DefaultConfiguration(&mocks), &mocks.rtp_rtcp_impl); receiver.SetRemoteSSRC(kSenderSsrc); EXPECT_THAT(receiver.TmmbrReceived(), IsEmpty()); } TEST(RtcpReceiverTest, TmmbrPacketAccepted) { ReceiverMocks mocks; RTCPReceiver receiver(DefaultConfiguration(&mocks), &mocks.rtp_rtcp_impl); receiver.SetRemoteSSRC(kSenderSsrc); const DataRate kBitrate = DataRate::BitsPerSec(30'000); auto tmmbr = std::make_unique(); tmmbr->SetSenderSsrc(kSenderSsrc); tmmbr->AddTmmbr(rtcp::TmmbItem(kReceiverMainSsrc, kBitrate.bps(), 0)); auto sr = std::make_unique(); sr->SetSenderSsrc(kSenderSsrc); rtcp::CompoundPacket compound; compound.Append(std::move(sr)); compound.Append(std::move(tmmbr)); EXPECT_CALL(mocks.rtp_rtcp_impl, OnReceivedRtcpReportBlocks); EXPECT_CALL(mocks.rtp_rtcp_impl, SetTmmbn(SizeIs(1))); EXPECT_CALL(mocks.network_link_rtcp_observer, OnReceiverEstimatedMaxBitrate(_, kBitrate)); receiver.IncomingPacket(compound.Build()); EXPECT_THAT( receiver.TmmbrReceived(), ElementsAre(AllOf( Property(&rtcp::TmmbItem::bitrate_bps, Eq(kBitrate.bps())), Property(&rtcp::TmmbItem::ssrc, Eq(kSenderSsrc))))); } TEST(RtcpReceiverTest, TmmbrPacketNotForUsIgnored) { ReceiverMocks mocks; RTCPReceiver receiver(DefaultConfiguration(&mocks), &mocks.rtp_rtcp_impl); receiver.SetRemoteSSRC(kSenderSsrc); const uint32_t kBitrateBps = 30000; auto tmmbr = std::make_unique(); tmmbr->SetSenderSsrc(kSenderSsrc); tmmbr->AddTmmbr(rtcp::TmmbItem(kNotToUsSsrc, kBitrateBps, 0)); auto sr = std::make_unique(); sr->SetSenderSsrc(kSenderSsrc); rtcp::CompoundPacket compound; compound.Append(std::move(sr)); compound.Append(std::move(tmmbr)); EXPECT_CALL(mocks.rtp_rtcp_impl, OnReceivedRtcpReportBlocks); EXPECT_CALL(mocks.network_link_rtcp_observer, OnReceiverEstimatedMaxBitrate) .Times(0); receiver.IncomingPacket(compound.Build()); EXPECT_EQ(0u, receiver.TmmbrReceived().size()); } TEST(RtcpReceiverTest, TmmbrPacketZeroRateIgnored) { ReceiverMocks mocks; RTCPReceiver receiver(DefaultConfiguration(&mocks), &mocks.rtp_rtcp_impl); receiver.SetRemoteSSRC(kSenderSsrc); auto tmmbr = std::make_unique(); tmmbr->SetSenderSsrc(kSenderSsrc); tmmbr->AddTmmbr(rtcp::TmmbItem(kReceiverMainSsrc, 0, 0)); auto sr = std::make_unique(); sr->SetSenderSsrc(kSenderSsrc); rtcp::CompoundPacket compound; compound.Append(std::move(sr)); compound.Append(std::move(tmmbr)); EXPECT_CALL(mocks.rtp_rtcp_impl, OnReceivedRtcpReportBlocks); EXPECT_CALL(mocks.network_link_rtcp_observer, OnReceiverEstimatedMaxBitrate) .Times(0); receiver.IncomingPacket(compound.Build()); EXPECT_EQ(0u, receiver.TmmbrReceived().size()); } TEST(RtcpReceiverTest, TmmbrThreeConstraintsTimeOut) { ReceiverMocks mocks; RTCPReceiver receiver(DefaultConfiguration(&mocks), &mocks.rtp_rtcp_impl); receiver.SetRemoteSSRC(kSenderSsrc); // Inject 3 packets "from" kSenderSsrc, kSenderSsrc+1, kSenderSsrc+2. // The times of arrival are starttime + 0, starttime + 5 and starttime + 10. for (uint32_t ssrc = kSenderSsrc; ssrc < kSenderSsrc + 3; ++ssrc) { auto tmmbr = std::make_unique(); tmmbr->SetSenderSsrc(ssrc); tmmbr->AddTmmbr(rtcp::TmmbItem(kReceiverMainSsrc, 30000, 0)); auto sr = std::make_unique(); sr->SetSenderSsrc(ssrc); rtcp::CompoundPacket compound; compound.Append(std::move(sr)); compound.Append(std::move(tmmbr)); EXPECT_CALL(mocks.rtp_rtcp_impl, OnReceivedRtcpReportBlocks); EXPECT_CALL(mocks.rtp_rtcp_impl, SetTmmbn); EXPECT_CALL(mocks.network_link_rtcp_observer, OnReceiverEstimatedMaxBitrate); receiver.IncomingPacket(compound.Build()); // 5 seconds between each packet. mocks.clock.AdvanceTimeMilliseconds(5000); } // It is now starttime + 15. EXPECT_THAT(receiver.TmmbrReceived(), AllOf(SizeIs(3), Each(Property(&rtcp::TmmbItem::bitrate_bps, Eq(30'000U))))); // We expect the timeout to be 25 seconds. Advance the clock by 12 // seconds, timing out the first packet. mocks.clock.AdvanceTimeMilliseconds(12000); EXPECT_THAT(receiver.TmmbrReceived(), UnorderedElementsAre( Property(&rtcp::TmmbItem::ssrc, Eq(kSenderSsrc + 1)), Property(&rtcp::TmmbItem::ssrc, Eq(kSenderSsrc + 2)))); } TEST(RtcpReceiverTest, VerifyBlockAndTimestampObtainedFromReportBlockDataObserver) { ReceiverMocks mocks; MockReportBlockDataObserverImpl observer; RtpRtcpInterface::Configuration config = DefaultConfiguration(&mocks); config.report_block_data_observer = &observer; RTCPReceiver receiver(config, &mocks.rtp_rtcp_impl); receiver.SetRemoteSSRC(kSenderSsrc); const uint8_t kFractionLoss = 3; const uint32_t kCumulativeLoss = 7; const uint32_t kJitter = 9; const uint16_t kSequenceNumber = 1234; const int64_t kNtpNowMs = mocks.clock.CurrentNtpInMilliseconds() - rtc::kNtpJan1970Millisecs; rtcp::ReportBlock rtcp_block; rtcp_block.SetMediaSsrc(kReceiverMainSsrc); rtcp_block.SetExtHighestSeqNum(kSequenceNumber); rtcp_block.SetFractionLost(kFractionLoss); rtcp_block.SetCumulativeLost(kCumulativeLoss); rtcp_block.SetJitter(kJitter); rtcp::ReceiverReport rtcp_report; rtcp_report.SetSenderSsrc(kSenderSsrc); rtcp_report.AddReportBlock(rtcp_block); EXPECT_CALL(observer, OnReportBlockDataUpdated) .WillOnce([&](ReportBlockData report_block) { EXPECT_EQ(rtcp_block.source_ssrc(), report_block.source_ssrc()); EXPECT_EQ(kSenderSsrc, report_block.sender_ssrc()); EXPECT_EQ(rtcp_block.fraction_lost(), report_block.fraction_lost_raw()); EXPECT_EQ(rtcp_block.cumulative_lost(), report_block.cumulative_lost()); EXPECT_EQ(rtcp_block.extended_high_seq_num(), report_block.extended_highest_sequence_number()); EXPECT_EQ(rtcp_block.jitter(), report_block.jitter()); EXPECT_EQ(report_block.report_block_timestamp_utc(), Timestamp::Millis(kNtpNowMs)); // No RTT is calculated in this test. EXPECT_EQ(0u, report_block.num_rtts()); }); EXPECT_CALL(mocks.rtp_rtcp_impl, OnReceivedRtcpReportBlocks); receiver.IncomingPacket(rtcp_report.Build()); } TEST(RtcpReceiverTest, VerifyRttObtainedFromReportBlockDataObserver) { ReceiverMocks mocks; MockReportBlockDataObserverImpl observer; RtpRtcpInterface::Configuration config = DefaultConfiguration(&mocks); config.report_block_data_observer = &observer; RTCPReceiver receiver(config, &mocks.rtp_rtcp_impl); receiver.SetRemoteSSRC(kSenderSsrc); // To avoid issues with rounding due to different way to represent time units, // use RTT that can be precisly represented both with // TimeDelta units (i.e. integer number of microseconds), and // ntp units (i.e. integer number of 2^(-32) seconds) const TimeDelta kRtt = TimeDelta::Millis(125); const uint32_t kDelayNtp = 123'000; const TimeDelta kDelay = CompactNtpRttToTimeDelta(kDelayNtp); uint32_t sent_ntp = CompactNtp(mocks.clock.CurrentNtpTime()); mocks.clock.AdvanceTime(kRtt + kDelay); rtcp::SenderReport sr; sr.SetSenderSsrc(kSenderSsrc); rtcp::ReportBlock block; block.SetMediaSsrc(kReceiverMainSsrc); block.SetLastSr(sent_ntp); block.SetDelayLastSr(kDelayNtp); sr.AddReportBlock(block); block.SetMediaSsrc(kReceiverExtraSsrc); block.SetLastSr(0); sr.AddReportBlock(block); EXPECT_CALL(mocks.rtp_rtcp_impl, OnReceivedRtcpReportBlocks); InSequence sequence; EXPECT_CALL(observer, OnReportBlockDataUpdated) .WillOnce([&](ReportBlockData report_block_data) { EXPECT_EQ(kReceiverMainSsrc, report_block_data.source_ssrc()); EXPECT_EQ(1u, report_block_data.num_rtts()); EXPECT_EQ(kRtt, report_block_data.sum_rtts()); EXPECT_EQ(kRtt, report_block_data.last_rtt()); }); EXPECT_CALL(observer, OnReportBlockDataUpdated) .WillOnce([](ReportBlockData report_block_data) { EXPECT_EQ(kReceiverExtraSsrc, report_block_data.source_ssrc()); EXPECT_EQ(0u, report_block_data.num_rtts()); }); receiver.IncomingPacket(sr.Build()); } TEST(RtcpReceiverTest, GetReportBlockDataAfterOneReportBlock) { ReceiverMocks mocks; RTCPReceiver receiver(DefaultConfiguration(&mocks), &mocks.rtp_rtcp_impl); receiver.SetRemoteSSRC(kSenderSsrc); const uint16_t kSequenceNumber = 1234; rtcp::ReportBlock rtcp_block; rtcp_block.SetMediaSsrc(kReceiverMainSsrc); rtcp_block.SetExtHighestSeqNum(kSequenceNumber); rtcp::ReceiverReport rtcp_report; rtcp_report.SetSenderSsrc(kSenderSsrc); rtcp_report.AddReportBlock(rtcp_block); EXPECT_CALL(mocks.rtp_rtcp_impl, OnReceivedRtcpReportBlocks); receiver.IncomingPacket(rtcp_report.Build()); auto report_block_datas = receiver.GetLatestReportBlockData(); ASSERT_THAT(report_block_datas, SizeIs(1)); EXPECT_EQ(kReceiverMainSsrc, report_block_datas[0].source_ssrc()); EXPECT_EQ(kSequenceNumber, report_block_datas[0].extended_highest_sequence_number()); } TEST(RtcpReceiverTest, GetReportBlockDataAfterTwoReportBlocksOfSameSsrc) { ReceiverMocks mocks; RTCPReceiver receiver(DefaultConfiguration(&mocks), &mocks.rtp_rtcp_impl); receiver.SetRemoteSSRC(kSenderSsrc); const uint16_t kSequenceNumber1 = 1234; const uint16_t kSequenceNumber2 = 1235; rtcp::ReportBlock rtcp_block1; rtcp_block1.SetMediaSsrc(kReceiverMainSsrc); rtcp_block1.SetExtHighestSeqNum(kSequenceNumber1); rtcp::ReceiverReport rtcp_report1; rtcp_report1.SetSenderSsrc(kSenderSsrc); rtcp_report1.AddReportBlock(rtcp_block1); EXPECT_CALL(mocks.rtp_rtcp_impl, OnReceivedRtcpReportBlocks); receiver.IncomingPacket(rtcp_report1.Build()); // Inject a report block with an increased the sequence number for the same // source SSRC. rtcp::ReportBlock rtcp_block2; rtcp_block2.SetMediaSsrc(kReceiverMainSsrc); rtcp_block2.SetExtHighestSeqNum(kSequenceNumber2); rtcp::ReceiverReport rtcp_report2; rtcp_report2.SetSenderSsrc(kSenderSsrc); rtcp_report2.AddReportBlock(rtcp_block2); EXPECT_CALL(mocks.rtp_rtcp_impl, OnReceivedRtcpReportBlocks); receiver.IncomingPacket(rtcp_report2.Build()); // Only the latest block should be returned. auto report_block_datas = receiver.GetLatestReportBlockData(); ASSERT_THAT(report_block_datas, SizeIs(1)); EXPECT_EQ(kReceiverMainSsrc, report_block_datas[0].source_ssrc()); EXPECT_EQ(kSequenceNumber2, report_block_datas[0].extended_highest_sequence_number()); } TEST(RtcpReceiverTest, GetReportBlockDataAfterTwoReportBlocksOfDifferentSsrcs) { ReceiverMocks mocks; RTCPReceiver receiver(DefaultConfiguration(&mocks), &mocks.rtp_rtcp_impl); receiver.SetRemoteSSRC(kSenderSsrc); const uint16_t kSequenceNumber1 = 1234; const uint16_t kSequenceNumber2 = 42; rtcp::ReportBlock rtcp_block1; rtcp_block1.SetMediaSsrc(kReceiverMainSsrc); rtcp_block1.SetExtHighestSeqNum(kSequenceNumber1); rtcp::ReceiverReport rtcp_report1; rtcp_report1.SetSenderSsrc(kSenderSsrc); rtcp_report1.AddReportBlock(rtcp_block1); EXPECT_CALL(mocks.rtp_rtcp_impl, OnReceivedRtcpReportBlocks); receiver.IncomingPacket(rtcp_report1.Build()); // Inject a report block for a different source SSRC. rtcp::ReportBlock rtcp_block2; rtcp_block2.SetMediaSsrc(kReceiverExtraSsrc); rtcp_block2.SetExtHighestSeqNum(kSequenceNumber2); rtcp::ReceiverReport rtcp_report2; rtcp_report2.SetSenderSsrc(kSenderSsrc); rtcp_report2.AddReportBlock(rtcp_block2); EXPECT_CALL(mocks.rtp_rtcp_impl, OnReceivedRtcpReportBlocks); receiver.IncomingPacket(rtcp_report2.Build()); // Both report blocks should be returned. auto report_block_datas = receiver.GetLatestReportBlockData(); ASSERT_THAT(report_block_datas, SizeIs(2)); EXPECT_EQ(kReceiverMainSsrc, report_block_datas[0].source_ssrc()); EXPECT_EQ(kSequenceNumber1, report_block_datas[0].extended_highest_sequence_number()); EXPECT_EQ(kReceiverExtraSsrc, report_block_datas[1].source_ssrc()); EXPECT_EQ(kSequenceNumber2, report_block_datas[1].extended_highest_sequence_number()); } TEST(RtcpReceiverTest, NotifiesNetworkLinkObserverOnTransportFeedback) { ReceiverMocks mocks; RtpRtcpInterface::Configuration config = DefaultConfiguration(&mocks); RTCPReceiver receiver(config, &mocks.rtp_rtcp_impl); receiver.SetRemoteSSRC(kSenderSsrc); rtcp::TransportFeedback packet; packet.SetMediaSsrc(config.local_media_ssrc); packet.SetSenderSsrc(kSenderSsrc); packet.SetBase(123, Timestamp::Millis(1)); packet.AddReceivedPacket(123, Timestamp::Millis(1)); EXPECT_CALL( mocks.network_link_rtcp_observer, OnTransportFeedback( mocks.clock.CurrentTime(), AllOf(Property(&rtcp::TransportFeedback::GetBaseSequence, 123), Property(&rtcp::TransportFeedback::GetReceivedPackets, SizeIs(1))))); receiver.IncomingPacket(packet.Build()); } TEST(RtcpReceiverTest, NotifiesNetworkLinkObserverOnTransportFeedbackOnRtxSsrc) { ReceiverMocks mocks; RtpRtcpInterface::Configuration config = DefaultConfiguration(&mocks); RTCPReceiver receiver(config, &mocks.rtp_rtcp_impl); receiver.SetRemoteSSRC(kSenderSsrc); rtcp::TransportFeedback packet; packet.SetMediaSsrc(*config.rtx_send_ssrc); packet.SetSenderSsrc(kSenderSsrc); packet.SetBase(1, Timestamp::Millis(1)); packet.AddReceivedPacket(1, Timestamp::Millis(1)); EXPECT_CALL(mocks.network_link_rtcp_observer, OnTransportFeedback); receiver.IncomingPacket(packet.Build()); } TEST(RtcpReceiverTest, DoesNotNotifyNetworkLinkObserverOnTransportFeedbackForUnregistedSsrc) { ReceiverMocks mocks; RTCPReceiver receiver(DefaultConfiguration(&mocks), &mocks.rtp_rtcp_impl); receiver.SetRemoteSSRC(kSenderSsrc); rtcp::TransportFeedback packet; packet.SetMediaSsrc(kNotToUsSsrc); packet.SetSenderSsrc(kSenderSsrc); packet.SetBase(1, Timestamp::Millis(1)); packet.AddReceivedPacket(1, Timestamp::Millis(1)); EXPECT_CALL(mocks.network_link_rtcp_observer, OnTransportFeedback).Times(0); receiver.IncomingPacket(packet.Build()); } TEST(RtcpReceiverTest, NotifiesNetworkLinkObserverOnRemb) { ReceiverMocks mocks; RTCPReceiver receiver(DefaultConfiguration(&mocks), &mocks.rtp_rtcp_impl); receiver.SetRemoteSSRC(kSenderSsrc); rtcp::Remb remb; remb.SetSenderSsrc(kSenderSsrc); remb.SetBitrateBps(500'000); EXPECT_CALL(mocks.network_link_rtcp_observer, OnReceiverEstimatedMaxBitrate(mocks.clock.CurrentTime(), DataRate::BitsPerSec(500'000))); receiver.IncomingPacket(remb.Build()); } TEST(RtcpReceiverTest, HandlesInvalidTransportFeedback) { ReceiverMocks mocks; RTCPReceiver receiver(DefaultConfiguration(&mocks), &mocks.rtp_rtcp_impl); receiver.SetRemoteSSRC(kSenderSsrc); // Send a compound packet with a TransportFeedback followed by something else. auto packet = std::make_unique(); packet->SetMediaSsrc(kReceiverMainSsrc); packet->SetSenderSsrc(kSenderSsrc); packet->SetBase(1, Timestamp::Millis(1)); packet->AddReceivedPacket(1, Timestamp::Millis(1)); static constexpr DataRate kBitrate = DataRate::BitsPerSec(50'000); auto remb = std::make_unique(); remb->SetSenderSsrc(kSenderSsrc); remb->SetBitrateBps(kBitrate.bps()); rtcp::CompoundPacket compound; compound.Append(std::move(packet)); compound.Append(std::move(remb)); rtc::Buffer built_packet = compound.Build(); // Modify the TransportFeedback packet so that it is invalid. const size_t kStatusCountOffset = 14; ByteWriter::WriteBigEndian(&built_packet.data()[kStatusCountOffset], 42); // Stress no transport feedback is expected. EXPECT_CALL(mocks.network_link_rtcp_observer, OnTransportFeedback).Times(0); // But remb should be processed and cause a callback EXPECT_CALL(mocks.network_link_rtcp_observer, OnReceiverEstimatedMaxBitrate(_, kBitrate)); receiver.IncomingPacket(built_packet); } TEST(RtcpReceiverTest, Nack) { ReceiverMocks mocks; RTCPReceiver receiver(DefaultConfiguration(&mocks), &mocks.rtp_rtcp_impl); receiver.SetRemoteSSRC(kSenderSsrc); const uint16_t kNackList1[] = {1, 2, 3, 5}; const uint16_t kNackList23[] = {5, 7, 30, 40, 41, 58, 59, 61, 63}; const size_t kNackListLength2 = 4; const size_t kNackListLength3 = arraysize(kNackList23) - kNackListLength2; std::set nack_set; nack_set.insert(std::begin(kNackList1), std::end(kNackList1)); nack_set.insert(std::begin(kNackList23), std::end(kNackList23)); auto nack1 = std::make_unique(); nack1->SetSenderSsrc(kSenderSsrc); nack1->SetMediaSsrc(kReceiverMainSsrc); nack1->SetPacketIds(kNackList1, arraysize(kNackList1)); EXPECT_CALL(mocks.rtp_rtcp_impl, OnReceivedNack(ElementsAreArray(kNackList1))); EXPECT_CALL(mocks.packet_type_counter_observer, RtcpPacketTypesCounterUpdated( kReceiverMainSsrc, AllOf(Field(&RtcpPacketTypeCounter::nack_requests, arraysize(kNackList1)), Field(&RtcpPacketTypeCounter::unique_nack_requests, arraysize(kNackList1))))); receiver.IncomingPacket(nack1->Build()); auto nack2 = std::make_unique(); nack2->SetSenderSsrc(kSenderSsrc); nack2->SetMediaSsrc(kReceiverMainSsrc); nack2->SetPacketIds(kNackList23, kNackListLength2); auto nack3 = std::make_unique(); nack3->SetSenderSsrc(kSenderSsrc); nack3->SetMediaSsrc(kReceiverMainSsrc); nack3->SetPacketIds(kNackList23 + kNackListLength2, kNackListLength3); rtcp::CompoundPacket two_nacks; two_nacks.Append(std::move(nack2)); two_nacks.Append(std::move(nack3)); EXPECT_CALL(mocks.rtp_rtcp_impl, OnReceivedNack(ElementsAreArray(kNackList23))); EXPECT_CALL(mocks.packet_type_counter_observer, RtcpPacketTypesCounterUpdated( kReceiverMainSsrc, AllOf(Field(&RtcpPacketTypeCounter::nack_requests, arraysize(kNackList1) + arraysize(kNackList23)), Field(&RtcpPacketTypeCounter::unique_nack_requests, nack_set.size())))); receiver.IncomingPacket(two_nacks.Build()); } TEST(RtcpReceiverTest, NackNotForUsIgnored) { ReceiverMocks mocks; RTCPReceiver receiver(DefaultConfiguration(&mocks), &mocks.rtp_rtcp_impl); receiver.SetRemoteSSRC(kSenderSsrc); const uint16_t kNackList1[] = {1, 2, 3, 5}; const size_t kNackListLength1 = std::end(kNackList1) - std::begin(kNackList1); rtcp::Nack nack; nack.SetSenderSsrc(kSenderSsrc); nack.SetMediaSsrc(kNotToUsSsrc); nack.SetPacketIds(kNackList1, kNackListLength1); EXPECT_CALL(mocks.packet_type_counter_observer, RtcpPacketTypesCounterUpdated( _, Field(&RtcpPacketTypeCounter::nack_requests, 0))); receiver.IncomingPacket(nack.Build()); } TEST(RtcpReceiverTest, ForceSenderReport) { ReceiverMocks mocks; RTCPReceiver receiver(DefaultConfiguration(&mocks), &mocks.rtp_rtcp_impl); receiver.SetRemoteSSRC(kSenderSsrc); rtcp::RapidResyncRequest rr; rr.SetSenderSsrc(kSenderSsrc); rr.SetMediaSsrc(kReceiverMainSsrc); EXPECT_CALL(mocks.rtp_rtcp_impl, OnRequestSendReport()); receiver.IncomingPacket(rr.Build()); } TEST(RtcpReceiverTest, ReceivesTargetBitrate) { ReceiverMocks mocks; RTCPReceiver receiver(DefaultConfiguration(&mocks), &mocks.rtp_rtcp_impl); receiver.SetRemoteSSRC(kSenderSsrc); VideoBitrateAllocation expected_allocation; expected_allocation.SetBitrate(0, 0, 10000); expected_allocation.SetBitrate(0, 1, 20000); expected_allocation.SetBitrate(1, 0, 40000); expected_allocation.SetBitrate(1, 1, 80000); rtcp::TargetBitrate bitrate; bitrate.AddTargetBitrate(0, 0, expected_allocation.GetBitrate(0, 0) / 1000); bitrate.AddTargetBitrate(0, 1, expected_allocation.GetBitrate(0, 1) / 1000); bitrate.AddTargetBitrate(1, 0, expected_allocation.GetBitrate(1, 0) / 1000); bitrate.AddTargetBitrate(1, 1, expected_allocation.GetBitrate(1, 1) / 1000); rtcp::ExtendedReports xr; xr.SetTargetBitrate(bitrate); // Wrong sender ssrc, target bitrate should be discarded. xr.SetSenderSsrc(kSenderSsrc + 1); EXPECT_CALL(mocks.bitrate_allocation_observer, OnBitrateAllocationUpdated(expected_allocation)) .Times(0); receiver.IncomingPacket(xr.Build()); // Set correct ssrc, callback should be called once. xr.SetSenderSsrc(kSenderSsrc); EXPECT_CALL(mocks.bitrate_allocation_observer, OnBitrateAllocationUpdated(expected_allocation)); receiver.IncomingPacket(xr.Build()); } TEST(RtcpReceiverTest, HandlesIncorrectTargetBitrate) { ReceiverMocks mocks; RTCPReceiver receiver(DefaultConfiguration(&mocks), &mocks.rtp_rtcp_impl); receiver.SetRemoteSSRC(kSenderSsrc); VideoBitrateAllocation expected_allocation; expected_allocation.SetBitrate(0, 0, 10000); rtcp::TargetBitrate bitrate; bitrate.AddTargetBitrate(0, 0, expected_allocation.GetBitrate(0, 0) / 1000); bitrate.AddTargetBitrate(0, kMaxTemporalStreams, 20000); bitrate.AddTargetBitrate(kMaxSpatialLayers, 0, 40000); rtcp::ExtendedReports xr; xr.SetTargetBitrate(bitrate); xr.SetSenderSsrc(kSenderSsrc); EXPECT_CALL(mocks.bitrate_allocation_observer, OnBitrateAllocationUpdated(expected_allocation)); receiver.IncomingPacket(xr.Build()); } TEST(RtcpReceiverTest, ChangeLocalMediaSsrc) { ReceiverMocks mocks; // Construct a receiver with `kReceiverMainSsrc` (default) local media ssrc. RTCPReceiver receiver(DefaultConfiguration(&mocks), &mocks.rtp_rtcp_impl); receiver.SetRemoteSSRC(kSenderSsrc); constexpr uint32_t kSecondarySsrc = kReceiverMainSsrc + 1; // Expect to only get the `OnReceivedNack()` callback once since we'll // configure it for the `kReceiverMainSsrc` media ssrc. EXPECT_CALL(mocks.rtp_rtcp_impl, OnReceivedNack); // We'll get two callbacks to RtcpPacketTypesCounterUpdated, one for each // call to `IncomingPacket`, differentiated by the local media ssrc. EXPECT_CALL(mocks.packet_type_counter_observer, RtcpPacketTypesCounterUpdated(kReceiverMainSsrc, _)); EXPECT_CALL(mocks.packet_type_counter_observer, RtcpPacketTypesCounterUpdated(kSecondarySsrc, _)); // Construct a test nack packet with media ssrc set to `kReceiverMainSsrc`. rtcp::Nack nack; nack.SetSenderSsrc(kSenderSsrc); nack.SetMediaSsrc(kReceiverMainSsrc); const uint16_t kNackList[] = {1, 2, 3, 5}; nack.SetPacketIds(kNackList, std::size(kNackList)); // Deliver the first callback. receiver.IncomingPacket(nack.Build()); // Change the set local media ssrc. receiver.set_local_media_ssrc(kSecondarySsrc); // Deliver another packet - this time there will be no callback to // OnReceivedNack due to the ssrc not matching. receiver.IncomingPacket(nack.Build()); } } // namespace webrtc