/* * Copyright (c) 2015 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 "modules/rtp_rtcp/include/rtp_rtcp.h" #include "modules/rtp_rtcp/mocks/mock_rtp_rtcp.h" #include "modules/video_coding/include/video_codec_interface.h" #include "test/field_trial.h" #include "test/gmock.h" #include "test/gtest.h" #include "video/payload_router.h" using ::testing::_; using ::testing::AnyNumber; using ::testing::Invoke; using ::testing::NiceMock; using ::testing::Return; using ::testing::Unused; namespace webrtc { namespace { const int8_t kPayloadType = 96; const uint32_t kSsrc1 = 12345; const uint32_t kSsrc2 = 23456; const uint32_t kSsrc3 = 34567; const int16_t kPictureId = 123; const int16_t kTl0PicIdx = 20; const uint8_t kTemporalIdx = 1; const int16_t kInitialPictureId1 = 222; const int16_t kInitialPictureId2 = 44; const int16_t kInitialTl0PicIdx1 = 99; const int16_t kInitialTl0PicIdx2 = 199; } // namespace TEST(PayloadRouterTest, SendOnOneModule) { NiceMock rtp; std::vector modules(1, &rtp); uint8_t payload = 'a'; EncodedImage encoded_image; encoded_image._timeStamp = 1; encoded_image.capture_time_ms_ = 2; encoded_image._frameType = kVideoFrameKey; encoded_image._buffer = &payload; encoded_image._length = 1; PayloadRouter payload_router(modules, {kSsrc1}, kPayloadType, {}); EXPECT_CALL(rtp, SendOutgoingData(encoded_image._frameType, kPayloadType, encoded_image._timeStamp, encoded_image.capture_time_ms_, &payload, encoded_image._length, nullptr, _, _)) .Times(0); EXPECT_NE( EncodedImageCallback::Result::OK, payload_router.OnEncodedImage(encoded_image, nullptr, nullptr).error); payload_router.SetActive(true); EXPECT_CALL(rtp, SendOutgoingData(encoded_image._frameType, kPayloadType, encoded_image._timeStamp, encoded_image.capture_time_ms_, &payload, encoded_image._length, nullptr, _, _)) .Times(1) .WillOnce(Return(true)); EXPECT_CALL(rtp, Sending()).WillOnce(Return(true)); EXPECT_EQ( EncodedImageCallback::Result::OK, payload_router.OnEncodedImage(encoded_image, nullptr, nullptr).error); payload_router.SetActive(false); EXPECT_CALL(rtp, SendOutgoingData(encoded_image._frameType, kPayloadType, encoded_image._timeStamp, encoded_image.capture_time_ms_, &payload, encoded_image._length, nullptr, _, _)) .Times(0); EXPECT_NE( EncodedImageCallback::Result::OK, payload_router.OnEncodedImage(encoded_image, nullptr, nullptr).error); payload_router.SetActive(true); EXPECT_CALL(rtp, SendOutgoingData(encoded_image._frameType, kPayloadType, encoded_image._timeStamp, encoded_image.capture_time_ms_, &payload, encoded_image._length, nullptr, _, _)) .Times(1) .WillOnce(Return(true)); EXPECT_CALL(rtp, Sending()).WillOnce(Return(true)); EXPECT_EQ( EncodedImageCallback::Result::OK, payload_router.OnEncodedImage(encoded_image, nullptr, nullptr).error); } TEST(PayloadRouterTest, SendSimulcastSetActive) { NiceMock rtp_1; NiceMock rtp_2; std::vector modules = {&rtp_1, &rtp_2}; uint8_t payload = 'a'; EncodedImage encoded_image; encoded_image._timeStamp = 1; encoded_image.capture_time_ms_ = 2; encoded_image._frameType = kVideoFrameKey; encoded_image._buffer = &payload; encoded_image._length = 1; PayloadRouter payload_router(modules, {kSsrc1, kSsrc2}, kPayloadType, {}); CodecSpecificInfo codec_info_1; memset(&codec_info_1, 0, sizeof(CodecSpecificInfo)); codec_info_1.codecType = kVideoCodecVP8; codec_info_1.codecSpecific.VP8.simulcastIdx = 0; payload_router.SetActive(true); EXPECT_CALL(rtp_1, Sending()).WillOnce(Return(true)); EXPECT_CALL(rtp_1, SendOutgoingData(encoded_image._frameType, kPayloadType, encoded_image._timeStamp, encoded_image.capture_time_ms_, &payload, encoded_image._length, nullptr, _, _)) .Times(1) .WillOnce(Return(true)); EXPECT_CALL(rtp_2, SendOutgoingData(_, _, _, _, _, _, _, _, _)).Times(0); EXPECT_EQ(EncodedImageCallback::Result::OK, payload_router.OnEncodedImage(encoded_image, &codec_info_1, nullptr) .error); CodecSpecificInfo codec_info_2; memset(&codec_info_2, 0, sizeof(CodecSpecificInfo)); codec_info_2.codecType = kVideoCodecVP8; codec_info_2.codecSpecific.VP8.simulcastIdx = 1; EXPECT_CALL(rtp_2, Sending()).WillOnce(Return(true)); EXPECT_CALL(rtp_2, SendOutgoingData(encoded_image._frameType, kPayloadType, encoded_image._timeStamp, encoded_image.capture_time_ms_, &payload, encoded_image._length, nullptr, _, _)) .Times(1) .WillOnce(Return(true)); EXPECT_CALL(rtp_1, SendOutgoingData(_, _, _, _, _, _, _, _, _)) .Times(0); EXPECT_EQ(EncodedImageCallback::Result::OK, payload_router.OnEncodedImage(encoded_image, &codec_info_2, nullptr) .error); // Inactive. payload_router.SetActive(false); EXPECT_CALL(rtp_1, SendOutgoingData(_, _, _, _, _, _, _, _, _)) .Times(0); EXPECT_CALL(rtp_2, SendOutgoingData(_, _, _, _, _, _, _, _, _)) .Times(0); EXPECT_NE(EncodedImageCallback::Result::OK, payload_router.OnEncodedImage(encoded_image, &codec_info_1, nullptr) .error); EXPECT_NE(EncodedImageCallback::Result::OK, payload_router.OnEncodedImage(encoded_image, &codec_info_2, nullptr) .error); } // Tests how setting individual rtp modules to active affects the overall // behavior of the payload router. First sets one module to active and checks // that outgoing data can be sent on this module, and checks that no data can be // sent if both modules are inactive. TEST(PayloadRouterTest, SendSimulcastSetActiveModules) { NiceMock rtp_1; NiceMock rtp_2; std::vector modules = {&rtp_1, &rtp_2}; uint8_t payload = 'a'; EncodedImage encoded_image; encoded_image._timeStamp = 1; encoded_image.capture_time_ms_ = 2; encoded_image._frameType = kVideoFrameKey; encoded_image._buffer = &payload; encoded_image._length = 1; PayloadRouter payload_router(modules, {kSsrc1, kSsrc2}, kPayloadType, {}); CodecSpecificInfo codec_info_1; memset(&codec_info_1, 0, sizeof(CodecSpecificInfo)); codec_info_1.codecType = kVideoCodecVP8; codec_info_1.codecSpecific.VP8.simulcastIdx = 0; CodecSpecificInfo codec_info_2; memset(&codec_info_2, 0, sizeof(CodecSpecificInfo)); codec_info_2.codecType = kVideoCodecVP8; codec_info_2.codecSpecific.VP8.simulcastIdx = 1; // Only setting one stream to active will still set the payload router to // active and allow sending data on the active stream. std::vector active_modules({true, false}); payload_router.SetActiveModules(active_modules); EXPECT_CALL(rtp_1, Sending()).WillOnce(Return(true)); EXPECT_CALL(rtp_1, SendOutgoingData(encoded_image._frameType, kPayloadType, encoded_image._timeStamp, encoded_image.capture_time_ms_, &payload, encoded_image._length, nullptr, _, _)) .Times(1) .WillOnce(Return(true)); EXPECT_EQ(EncodedImageCallback::Result::OK, payload_router.OnEncodedImage(encoded_image, &codec_info_1, nullptr) .error); // Setting both streams to inactive will turn the payload router to inactive. active_modules = {false, false}; payload_router.SetActiveModules(active_modules); // An incoming encoded image will not ask the module to send outgoing data // because the payload router is inactive. EXPECT_CALL(rtp_1, SendOutgoingData(_, _, _, _, _, _, _, _, _)).Times(0); EXPECT_CALL(rtp_1, Sending()).Times(0); EXPECT_CALL(rtp_2, SendOutgoingData(_, _, _, _, _, _, _, _, _)).Times(0); EXPECT_CALL(rtp_2, Sending()).Times(0); EXPECT_NE(EncodedImageCallback::Result::OK, payload_router.OnEncodedImage(encoded_image, &codec_info_1, nullptr) .error); EXPECT_NE(EncodedImageCallback::Result::OK, payload_router.OnEncodedImage(encoded_image, &codec_info_2, nullptr) .error); } TEST(PayloadRouterTest, SimulcastTargetBitrate) { NiceMock rtp_1; NiceMock rtp_2; std::vector modules = {&rtp_1, &rtp_2}; PayloadRouter payload_router(modules, {kSsrc1, kSsrc2}, kPayloadType, {}); payload_router.SetActive(true); VideoBitrateAllocation bitrate; bitrate.SetBitrate(0, 0, 10000); bitrate.SetBitrate(0, 1, 20000); bitrate.SetBitrate(1, 0, 40000); bitrate.SetBitrate(1, 1, 80000); VideoBitrateAllocation layer0_bitrate; layer0_bitrate.SetBitrate(0, 0, 10000); layer0_bitrate.SetBitrate(0, 1, 20000); VideoBitrateAllocation layer1_bitrate; layer1_bitrate.SetBitrate(0, 0, 40000); layer1_bitrate.SetBitrate(0, 1, 80000); EXPECT_CALL(rtp_1, SetVideoBitrateAllocation(layer0_bitrate)).Times(1); EXPECT_CALL(rtp_2, SetVideoBitrateAllocation(layer1_bitrate)).Times(1); payload_router.OnBitrateAllocationUpdated(bitrate); } // If the middle of three streams is inactive the first and last streams should // be asked to send the TargetBitrate message. TEST(PayloadRouterTest, SimulcastTargetBitrateWithInactiveStream) { // Set up three active rtp modules. NiceMock rtp_1; NiceMock rtp_2; NiceMock rtp_3; std::vector modules = {&rtp_1, &rtp_2, &rtp_3}; PayloadRouter payload_router(modules, {kSsrc1, kSsrc2, kSsrc3}, kPayloadType, {}); payload_router.SetActive(true); // Create bitrate allocation with bitrate only for the first and third stream. VideoBitrateAllocation bitrate; bitrate.SetBitrate(0, 0, 10000); bitrate.SetBitrate(0, 1, 20000); bitrate.SetBitrate(2, 0, 40000); bitrate.SetBitrate(2, 1, 80000); VideoBitrateAllocation layer0_bitrate; layer0_bitrate.SetBitrate(0, 0, 10000); layer0_bitrate.SetBitrate(0, 1, 20000); VideoBitrateAllocation layer2_bitrate; layer2_bitrate.SetBitrate(0, 0, 40000); layer2_bitrate.SetBitrate(0, 1, 80000); // Expect the first and third rtp module to be asked to send a TargetBitrate // message. (No target bitrate with 0bps sent from the second one.) EXPECT_CALL(rtp_1, SetVideoBitrateAllocation(layer0_bitrate)).Times(1); EXPECT_CALL(rtp_2, SetVideoBitrateAllocation(_)).Times(0); EXPECT_CALL(rtp_3, SetVideoBitrateAllocation(layer2_bitrate)).Times(1); payload_router.OnBitrateAllocationUpdated(bitrate); } TEST(PayloadRouterTest, SvcTargetBitrate) { NiceMock rtp_1; std::vector modules = {&rtp_1}; PayloadRouter payload_router(modules, {kSsrc1}, kPayloadType, {}); payload_router.SetActive(true); VideoBitrateAllocation bitrate; bitrate.SetBitrate(0, 0, 10000); bitrate.SetBitrate(0, 1, 20000); bitrate.SetBitrate(1, 0, 40000); bitrate.SetBitrate(1, 1, 80000); EXPECT_CALL(rtp_1, SetVideoBitrateAllocation(bitrate)).Times(1); payload_router.OnBitrateAllocationUpdated(bitrate); } TEST(PayloadRouterTest, InfoMappedToRtpVideoHeader_Vp8) { NiceMock rtp1; NiceMock rtp2; std::vector modules = {&rtp1, &rtp2}; RtpPayloadState state2; state2.picture_id = kPictureId; state2.tl0_pic_idx = kTl0PicIdx; std::map states = {{kSsrc2, state2}}; PayloadRouter payload_router(modules, {kSsrc1, kSsrc2}, kPayloadType, states); payload_router.SetActive(true); EncodedImage encoded_image; encoded_image.rotation_ = kVideoRotation_90; encoded_image.content_type_ = VideoContentType::SCREENSHARE; CodecSpecificInfo codec_info; memset(&codec_info, 0, sizeof(CodecSpecificInfo)); codec_info.codecType = kVideoCodecVP8; codec_info.codecSpecific.VP8.simulcastIdx = 1; codec_info.codecSpecific.VP8.temporalIdx = kTemporalIdx; codec_info.codecSpecific.VP8.keyIdx = kNoKeyIdx; codec_info.codecSpecific.VP8.layerSync = true; codec_info.codecSpecific.VP8.nonReference = true; EXPECT_CALL(rtp2, Sending()).WillOnce(Return(true)); EXPECT_CALL(rtp2, SendOutgoingData(_, _, _, _, _, _, nullptr, _, _)) .WillOnce(Invoke([](Unused, Unused, Unused, Unused, Unused, Unused, Unused, const RTPVideoHeader* header, Unused) { EXPECT_EQ(kVideoRotation_90, header->rotation); EXPECT_EQ(VideoContentType::SCREENSHARE, header->content_type); EXPECT_EQ(1, header->simulcastIdx); EXPECT_EQ(kRtpVideoVp8, header->codec); EXPECT_EQ(kPictureId + 1, header->codecHeader.VP8.pictureId); EXPECT_EQ(kTemporalIdx, header->codecHeader.VP8.temporalIdx); EXPECT_EQ(kTl0PicIdx, header->codecHeader.VP8.tl0PicIdx); EXPECT_EQ(kNoKeyIdx, header->codecHeader.VP8.keyIdx); EXPECT_TRUE(header->codecHeader.VP8.layerSync); EXPECT_TRUE(header->codecHeader.VP8.nonReference); return true; })); EXPECT_EQ( EncodedImageCallback::Result::OK, payload_router.OnEncodedImage(encoded_image, &codec_info, nullptr).error); } TEST(PayloadRouterTest, InfoMappedToRtpVideoHeader_Vp9) { RtpPayloadState state; state.picture_id = kPictureId; state.tl0_pic_idx = kTl0PicIdx; std::map states = {{kSsrc1, state}}; NiceMock rtp; std::vector modules = {&rtp}; PayloadRouter router(modules, {kSsrc1}, kPayloadType, states); router.SetActive(true); EncodedImage encoded_image; encoded_image.rotation_ = kVideoRotation_90; encoded_image.content_type_ = VideoContentType::SCREENSHARE; CodecSpecificInfo codec_info; memset(&codec_info, 0, sizeof(CodecSpecificInfo)); codec_info.codecType = kVideoCodecVP9; codec_info.codecSpecific.VP9.num_spatial_layers = 3; codec_info.codecSpecific.VP9.first_frame_in_picture = true; codec_info.codecSpecific.VP9.spatial_idx = 0; codec_info.codecSpecific.VP9.temporal_idx = 2; codec_info.codecSpecific.VP9.end_of_picture = false; EXPECT_CALL(rtp, SendOutgoingData(_, _, _, _, _, _, nullptr, _, _)) .WillOnce( Invoke([&codec_info](Unused, Unused, Unused, Unused, Unused, Unused, Unused, const RTPVideoHeader* header, Unused) { EXPECT_EQ(kVideoRotation_90, header->rotation); EXPECT_EQ(VideoContentType::SCREENSHARE, header->content_type); EXPECT_EQ(kRtpVideoVp9, header->codec); EXPECT_EQ(kPictureId + 1, header->codecHeader.VP9.picture_id); EXPECT_EQ(kTl0PicIdx, header->codecHeader.VP9.tl0_pic_idx); EXPECT_EQ(header->codecHeader.VP9.temporal_idx, codec_info.codecSpecific.VP9.temporal_idx); EXPECT_EQ(header->codecHeader.VP9.spatial_idx, codec_info.codecSpecific.VP9.spatial_idx); EXPECT_EQ(header->codecHeader.VP9.num_spatial_layers, codec_info.codecSpecific.VP9.num_spatial_layers); EXPECT_EQ(header->codecHeader.VP9.end_of_picture, codec_info.codecSpecific.VP9.end_of_picture); return true; })); EXPECT_CALL(rtp, Sending()).WillOnce(Return(true)); EXPECT_EQ(EncodedImageCallback::Result::OK, router.OnEncodedImage(encoded_image, &codec_info, nullptr).error); // Next spatial layer. codec_info.codecSpecific.VP9.first_frame_in_picture = false; codec_info.codecSpecific.VP9.spatial_idx += 1; codec_info.codecSpecific.VP9.end_of_picture = true; EXPECT_CALL(rtp, SendOutgoingData(_, _, _, _, _, _, nullptr, _, _)) .WillOnce( Invoke([&codec_info](Unused, Unused, Unused, Unused, Unused, Unused, Unused, const RTPVideoHeader* header, Unused) { EXPECT_EQ(kVideoRotation_90, header->rotation); EXPECT_EQ(VideoContentType::SCREENSHARE, header->content_type); EXPECT_EQ(kRtpVideoVp9, header->codec); EXPECT_EQ(kPictureId + 1, header->codecHeader.VP9.picture_id); EXPECT_EQ(kTl0PicIdx, header->codecHeader.VP9.tl0_pic_idx); EXPECT_EQ(header->codecHeader.VP9.temporal_idx, codec_info.codecSpecific.VP9.temporal_idx); EXPECT_EQ(header->codecHeader.VP9.spatial_idx, codec_info.codecSpecific.VP9.spatial_idx); EXPECT_EQ(header->codecHeader.VP9.num_spatial_layers, codec_info.codecSpecific.VP9.num_spatial_layers); EXPECT_EQ(header->codecHeader.VP9.end_of_picture, codec_info.codecSpecific.VP9.end_of_picture); return true; })); EXPECT_CALL(rtp, Sending()).WillOnce(Return(true)); EXPECT_EQ(EncodedImageCallback::Result::OK, router.OnEncodedImage(encoded_image, &codec_info, nullptr).error); } TEST(PayloadRouterTest, InfoMappedToRtpVideoHeader_H264) { NiceMock rtp1; std::vector modules = {&rtp1}; PayloadRouter payload_router(modules, {kSsrc1}, kPayloadType, {}); payload_router.SetActive(true); EncodedImage encoded_image; CodecSpecificInfo codec_info; memset(&codec_info, 0, sizeof(CodecSpecificInfo)); codec_info.codecType = kVideoCodecH264; codec_info.codecSpecific.H264.packetization_mode = H264PacketizationMode::SingleNalUnit; EXPECT_CALL(rtp1, Sending()).WillOnce(Return(true)); EXPECT_CALL(rtp1, SendOutgoingData(_, _, _, _, _, _, nullptr, _, _)) .WillOnce(Invoke([](Unused, Unused, Unused, Unused, Unused, Unused, Unused, const RTPVideoHeader* header, Unused) { EXPECT_EQ(0, header->simulcastIdx); EXPECT_EQ(kRtpVideoH264, header->codec); EXPECT_EQ(H264PacketizationMode::SingleNalUnit, header->codecHeader.H264.packetization_mode); return true; })); EXPECT_EQ( EncodedImageCallback::Result::OK, payload_router.OnEncodedImage(encoded_image, &codec_info, nullptr).error); } TEST(PayloadRouterTest, CreateWithNoPreviousStates) { NiceMock rtp1; NiceMock rtp2; std::vector modules = {&rtp1, &rtp2}; PayloadRouter payload_router(modules, {kSsrc1, kSsrc2}, kPayloadType, {}); payload_router.SetActive(true); std::map initial_states = payload_router.GetRtpPayloadStates(); EXPECT_EQ(2u, initial_states.size()); EXPECT_NE(initial_states.find(kSsrc1), initial_states.end()); EXPECT_NE(initial_states.find(kSsrc2), initial_states.end()); } TEST(PayloadRouterTest, CreateWithPreviousStates) { RtpPayloadState state1; state1.picture_id = kInitialPictureId1; state1.tl0_pic_idx = kInitialTl0PicIdx1; RtpPayloadState state2; state2.picture_id = kInitialPictureId2; state2.tl0_pic_idx = kInitialTl0PicIdx2; std::map states = {{kSsrc1, state1}, {kSsrc2, state2}}; NiceMock rtp1; NiceMock rtp2; std::vector modules = {&rtp1, &rtp2}; PayloadRouter payload_router(modules, {kSsrc1, kSsrc2}, kPayloadType, states); payload_router.SetActive(true); std::map initial_states = payload_router.GetRtpPayloadStates(); EXPECT_EQ(2u, initial_states.size()); EXPECT_EQ(kInitialPictureId1, initial_states[kSsrc1].picture_id); EXPECT_EQ(kInitialTl0PicIdx1, initial_states[kSsrc1].tl0_pic_idx); EXPECT_EQ(kInitialPictureId2, initial_states[kSsrc2].picture_id); EXPECT_EQ(kInitialTl0PicIdx2, initial_states[kSsrc2].tl0_pic_idx); } TEST(PayloadRouterTest, PictureIdIsSetForVp8) { RtpPayloadState state1; state1.picture_id = kInitialPictureId1; state1.tl0_pic_idx = kInitialTl0PicIdx1; RtpPayloadState state2; state2.picture_id = kInitialPictureId2; state2.tl0_pic_idx = kInitialTl0PicIdx2; std::map states = {{kSsrc1, state1}, {kSsrc2, state2}}; NiceMock rtp1; NiceMock rtp2; std::vector modules = {&rtp1, &rtp2}; PayloadRouter router(modules, {kSsrc1, kSsrc2}, kPayloadType, states); router.SetActive(true); EncodedImage encoded_image; // Modules are sending for this test. // OnEncodedImage, simulcastIdx: 0. CodecSpecificInfo codec_info; memset(&codec_info, 0, sizeof(CodecSpecificInfo)); codec_info.codecType = kVideoCodecVP8; codec_info.codecSpecific.VP8.simulcastIdx = 0; EXPECT_CALL(rtp1, SendOutgoingData(_, _, _, _, _, _, nullptr, _, _)) .WillOnce(Invoke([](Unused, Unused, Unused, Unused, Unused, Unused, Unused, const RTPVideoHeader* header, Unused) { EXPECT_EQ(kRtpVideoVp8, header->codec); EXPECT_EQ(kInitialPictureId1 + 1, header->codecHeader.VP8.pictureId); return true; })); EXPECT_CALL(rtp1, Sending()).WillOnce(Return(true)); EXPECT_EQ(EncodedImageCallback::Result::OK, router.OnEncodedImage(encoded_image, &codec_info, nullptr).error); // OnEncodedImage, simulcastIdx: 1. codec_info.codecSpecific.VP8.simulcastIdx = 1; EXPECT_CALL(rtp2, SendOutgoingData(_, _, _, _, _, _, nullptr, _, _)) .WillOnce(Invoke([](Unused, Unused, Unused, Unused, Unused, Unused, Unused, const RTPVideoHeader* header, Unused) { EXPECT_EQ(kRtpVideoVp8, header->codec); EXPECT_EQ(kInitialPictureId2 + 1, header->codecHeader.VP8.pictureId); return true; })); EXPECT_CALL(rtp2, Sending()).WillOnce(Return(true)); EXPECT_EQ(EncodedImageCallback::Result::OK, router.OnEncodedImage(encoded_image, &codec_info, nullptr).error); // State should hold latest used picture id and tl0_pic_idx. states = router.GetRtpPayloadStates(); EXPECT_EQ(2u, states.size()); EXPECT_EQ(kInitialPictureId1 + 1, states[kSsrc1].picture_id); EXPECT_EQ(kInitialTl0PicIdx1 + 1, states[kSsrc1].tl0_pic_idx); EXPECT_EQ(kInitialPictureId2 + 1, states[kSsrc2].picture_id); EXPECT_EQ(kInitialTl0PicIdx2 + 1, states[kSsrc2].tl0_pic_idx); } TEST(PayloadRouterTest, PictureIdWraps) { RtpPayloadState state1; state1.picture_id = kMaxTwoBytePictureId; state1.tl0_pic_idx = kInitialTl0PicIdx1; NiceMock rtp; std::vector modules = {&rtp}; PayloadRouter router(modules, {kSsrc1}, kPayloadType, {{kSsrc1, state1}}); router.SetActive(true); EncodedImage encoded_image; CodecSpecificInfo codec_info; memset(&codec_info, 0, sizeof(CodecSpecificInfo)); codec_info.codecType = kVideoCodecVP8; codec_info.codecSpecific.VP8.temporalIdx = kNoTemporalIdx; EXPECT_CALL(rtp, SendOutgoingData(_, _, _, _, _, _, nullptr, _, _)) .WillOnce(Invoke([](Unused, Unused, Unused, Unused, Unused, Unused, Unused, const RTPVideoHeader* header, Unused) { EXPECT_EQ(kRtpVideoVp8, header->codec); EXPECT_EQ(0, header->codecHeader.VP8.pictureId); return true; })); EXPECT_CALL(rtp, Sending()).WillOnce(Return(true)); EXPECT_EQ(EncodedImageCallback::Result::OK, router.OnEncodedImage(encoded_image, &codec_info, nullptr).error); // State should hold latest used picture id and tl0_pic_idx. std::map states = router.GetRtpPayloadStates(); EXPECT_EQ(1u, states.size()); EXPECT_EQ(0, states[kSsrc1].picture_id); // Wrapped. EXPECT_EQ(kInitialTl0PicIdx1, states[kSsrc1].tl0_pic_idx); } TEST(PayloadRouterTest, Tl0PicIdxUpdatedForVp8) { RtpPayloadState state; state.picture_id = kInitialPictureId1; state.tl0_pic_idx = kInitialTl0PicIdx1; std::map states = {{kSsrc1, state}}; NiceMock rtp; std::vector modules = {&rtp}; PayloadRouter router(modules, {kSsrc1}, kPayloadType, states); router.SetActive(true); EncodedImage encoded_image; // Modules are sending for this test. // OnEncodedImage, temporalIdx: 1. CodecSpecificInfo codec_info; memset(&codec_info, 0, sizeof(CodecSpecificInfo)); codec_info.codecType = kVideoCodecVP8; codec_info.codecSpecific.VP8.temporalIdx = 1; EXPECT_CALL(rtp, SendOutgoingData(_, _, _, _, _, _, nullptr, _, _)) .WillOnce(Invoke([](Unused, Unused, Unused, Unused, Unused, Unused, Unused, const RTPVideoHeader* header, Unused) { EXPECT_EQ(kRtpVideoVp8, header->codec); EXPECT_EQ(kInitialPictureId1 + 1, header->codecHeader.VP8.pictureId); EXPECT_EQ(kInitialTl0PicIdx1, header->codecHeader.VP8.tl0PicIdx); return true; })); EXPECT_CALL(rtp, Sending()).WillOnce(Return(true)); EXPECT_EQ(EncodedImageCallback::Result::OK, router.OnEncodedImage(encoded_image, &codec_info, nullptr).error); // OnEncodedImage, temporalIdx: 0. codec_info.codecSpecific.VP8.temporalIdx = 0; EXPECT_CALL(rtp, SendOutgoingData(_, _, _, _, _, _, nullptr, _, _)) .WillOnce(Invoke([](Unused, Unused, Unused, Unused, Unused, Unused, Unused, const RTPVideoHeader* header, Unused) { EXPECT_EQ(kRtpVideoVp8, header->codec); EXPECT_EQ(kInitialPictureId1 + 2, header->codecHeader.VP8.pictureId); EXPECT_EQ(kInitialTl0PicIdx1 + 1, header->codecHeader.VP8.tl0PicIdx); return true; })); EXPECT_CALL(rtp, Sending()).WillOnce(Return(true)); EXPECT_EQ(EncodedImageCallback::Result::OK, router.OnEncodedImage(encoded_image, &codec_info, nullptr).error); // State should hold latest used picture id and tl0_pic_idx. states = router.GetRtpPayloadStates(); EXPECT_EQ(1u, states.size()); EXPECT_EQ(kInitialPictureId1 + 2, states[kSsrc1].picture_id); EXPECT_EQ(kInitialTl0PicIdx1 + 1, states[kSsrc1].tl0_pic_idx); } TEST(PayloadRouterTest, Tl0PicIdxUpdatedForVp9) { RtpPayloadState state; state.picture_id = kInitialPictureId1; state.tl0_pic_idx = kInitialTl0PicIdx1; std::map states = {{kSsrc1, state}}; NiceMock rtp; std::vector modules = {&rtp}; PayloadRouter router(modules, {kSsrc1}, kPayloadType, states); router.SetActive(true); EncodedImage encoded_image; // Modules are sending for this test. // OnEncodedImage, temporalIdx: 1. CodecSpecificInfo codec_info; memset(&codec_info, 0, sizeof(CodecSpecificInfo)); codec_info.codecType = kVideoCodecVP9; codec_info.codecSpecific.VP9.temporal_idx = 1; codec_info.codecSpecific.VP9.first_frame_in_picture = true; EXPECT_CALL(rtp, SendOutgoingData(_, _, _, _, _, _, nullptr, _, _)) .WillOnce(Invoke([](Unused, Unused, Unused, Unused, Unused, Unused, Unused, const RTPVideoHeader* header, Unused) { EXPECT_EQ(kRtpVideoVp9, header->codec); EXPECT_EQ(kInitialPictureId1 + 1, header->codecHeader.VP9.picture_id); EXPECT_EQ(kInitialTl0PicIdx1, header->codecHeader.VP9.tl0_pic_idx); return true; })); EXPECT_CALL(rtp, Sending()).WillOnce(Return(true)); EXPECT_EQ(EncodedImageCallback::Result::OK, router.OnEncodedImage(encoded_image, &codec_info, nullptr).error); // OnEncodedImage, temporalIdx: 0. codec_info.codecSpecific.VP9.temporal_idx = 0; EXPECT_CALL(rtp, SendOutgoingData(_, _, _, _, _, _, nullptr, _, _)) .WillOnce(Invoke([](Unused, Unused, Unused, Unused, Unused, Unused, Unused, const RTPVideoHeader* header, Unused) { EXPECT_EQ(kRtpVideoVp9, header->codec); EXPECT_EQ(kInitialPictureId1 + 2, header->codecHeader.VP9.picture_id); EXPECT_EQ(kInitialTl0PicIdx1 + 1, header->codecHeader.VP9.tl0_pic_idx); return true; })); EXPECT_CALL(rtp, Sending()).WillOnce(Return(true)); EXPECT_EQ(EncodedImageCallback::Result::OK, router.OnEncodedImage(encoded_image, &codec_info, nullptr).error); // OnEncodedImage, first_frame_in_picture = false codec_info.codecSpecific.VP9.first_frame_in_picture = false; EXPECT_CALL(rtp, SendOutgoingData(_, _, _, _, _, _, nullptr, _, _)) .WillOnce(Invoke([](Unused, Unused, Unused, Unused, Unused, Unused, Unused, const RTPVideoHeader* header, Unused) { EXPECT_EQ(kRtpVideoVp9, header->codec); EXPECT_EQ(kInitialPictureId1 + 2, header->codecHeader.VP9.picture_id); EXPECT_EQ(kInitialTl0PicIdx1 + 1, header->codecHeader.VP9.tl0_pic_idx); return true; })); EXPECT_CALL(rtp, Sending()).WillOnce(Return(true)); EXPECT_EQ(EncodedImageCallback::Result::OK, router.OnEncodedImage(encoded_image, &codec_info, nullptr).error); // State should hold latest used picture id and tl0_pic_idx. states = router.GetRtpPayloadStates(); EXPECT_EQ(1u, states.size()); EXPECT_EQ(kInitialPictureId1 + 2, states[kSsrc1].picture_id); EXPECT_EQ(kInitialTl0PicIdx1 + 1, states[kSsrc1].tl0_pic_idx); } } // namespace webrtc