/* * Copyright (c) 2020 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 #include #include #include #include #include "absl/types/optional.h" #include "api/units/data_size.h" #include "api/units/time_delta.h" #include "api/video_codecs/video_codec.h" #include "api/video_codecs/video_encoder.h" #include "modules/video_coding/codecs/av1/dav1d_decoder.h" #include "modules/video_coding/codecs/av1/libaom_av1_encoder.h" #include "modules/video_coding/codecs/test/encoded_video_frame_producer.h" #include "modules/video_coding/include/video_codec_interface.h" #include "modules/video_coding/include/video_error_codes.h" #include "modules/video_coding/svc/create_scalability_structure.h" #include "modules/video_coding/svc/scalability_mode_util.h" #include "modules/video_coding/svc/scalable_video_controller.h" #include "modules/video_coding/svc/scalable_video_controller_no_layering.h" #include "test/gmock.h" #include "test/gtest.h" namespace webrtc { namespace { using ::testing::ContainerEq; using ::testing::Each; using ::testing::ElementsAreArray; using ::testing::Ge; using ::testing::IsEmpty; using ::testing::Not; using ::testing::NotNull; using ::testing::Pointwise; using ::testing::SizeIs; using ::testing::Truly; using ::testing::Values; // Use small resolution for this test to make it faster. constexpr int kWidth = 320; constexpr int kHeight = 180; constexpr int kFramerate = 30; VideoCodec DefaultCodecSettings() { VideoCodec codec_settings; codec_settings.SetScalabilityMode(ScalabilityMode::kL1T1); codec_settings.width = kWidth; codec_settings.height = kHeight; codec_settings.maxFramerate = kFramerate; codec_settings.maxBitrate = 1000; codec_settings.qpMax = 63; return codec_settings; } VideoEncoder::Settings DefaultEncoderSettings() { return VideoEncoder::Settings( VideoEncoder::Capabilities(/*loss_notification=*/false), /*number_of_cores=*/1, /*max_payload_size=*/1200); } class TestAv1Decoder { public: explicit TestAv1Decoder(int decoder_id) : decoder_id_(decoder_id), decoder_(CreateDav1dDecoder()) { if (decoder_ == nullptr) { ADD_FAILURE() << "Failed to create a decoder#" << decoder_id_; return; } EXPECT_TRUE(decoder_->Configure({})); EXPECT_EQ(decoder_->RegisterDecodeCompleteCallback(&callback_), WEBRTC_VIDEO_CODEC_OK); } // This class requires pointer stability and thus not copyable nor movable. TestAv1Decoder(const TestAv1Decoder&) = delete; TestAv1Decoder& operator=(const TestAv1Decoder&) = delete; void Decode(int64_t frame_id, const EncodedImage& image) { ASSERT_THAT(decoder_, NotNull()); int32_t error = decoder_->Decode(image, /*missing_frames=*/false, /*render_time_ms=*/image.capture_time_ms_); if (error != WEBRTC_VIDEO_CODEC_OK) { ADD_FAILURE() << "Failed to decode frame id " << frame_id << " with error code " << error << " by decoder#" << decoder_id_; return; } decoded_ids_.push_back(frame_id); } const std::vector& decoded_frame_ids() const { return decoded_ids_; } size_t num_output_frames() const { return callback_.num_called(); } private: // Decoder callback that only counts how many times it was called. // While it is tempting to replace it with a simple mock, that one requires // to set expectation on number of calls in advance. Tests below unsure about // expected number of calls until after calls are done. class DecoderCallback : public DecodedImageCallback { public: size_t num_called() const { return num_called_; } private: int32_t Decoded(VideoFrame& /*decoded_image*/) override { ++num_called_; return 0; } void Decoded(VideoFrame& /*decoded_image*/, absl::optional /*decode_time_ms*/, absl::optional /*qp*/) override { ++num_called_; } int num_called_ = 0; }; const int decoder_id_; std::vector decoded_ids_; DecoderCallback callback_; const std::unique_ptr decoder_; }; TEST(LibaomAv1Test, EncodeDecode) { TestAv1Decoder decoder(0); std::unique_ptr encoder = CreateLibaomAv1Encoder(); VideoCodec codec_settings = DefaultCodecSettings(); ASSERT_EQ(encoder->InitEncode(&codec_settings, DefaultEncoderSettings()), WEBRTC_VIDEO_CODEC_OK); VideoBitrateAllocation allocation; allocation.SetBitrate(0, 0, 300000); encoder->SetRates(VideoEncoder::RateControlParameters( allocation, codec_settings.maxFramerate)); std::vector encoded_frames = EncodedVideoFrameProducer(*encoder).SetNumInputFrames(4).Encode(); for (size_t frame_id = 0; frame_id < encoded_frames.size(); ++frame_id) { decoder.Decode(static_cast(frame_id), encoded_frames[frame_id].encoded_image); } // Check encoder produced some frames for decoder to decode. ASSERT_THAT(encoded_frames, Not(IsEmpty())); // Check decoder found all of them valid. EXPECT_THAT(decoder.decoded_frame_ids(), SizeIs(encoded_frames.size())); // Check each of them produced an output frame. EXPECT_EQ(decoder.num_output_frames(), decoder.decoded_frame_ids().size()); } struct LayerId { friend bool operator==(const LayerId& lhs, const LayerId& rhs) { return std::tie(lhs.spatial_id, lhs.temporal_id) == std::tie(rhs.spatial_id, rhs.temporal_id); } friend bool operator<(const LayerId& lhs, const LayerId& rhs) { return std::tie(lhs.spatial_id, lhs.temporal_id) < std::tie(rhs.spatial_id, rhs.temporal_id); } friend std::ostream& operator<<(std::ostream& s, const LayerId& layer) { return s << "S" << layer.spatial_id << "T" << layer.temporal_id; } int spatial_id = 0; int temporal_id = 0; }; struct SvcTestParam { ScalabilityMode GetScalabilityMode() const { absl::optional scalability_mode = ScalabilityModeFromString(name); RTC_CHECK(scalability_mode.has_value()); return *scalability_mode; } std::string name; int num_frames_to_generate; std::map configured_bitrates; }; class LibaomAv1SvcTest : public ::testing::TestWithParam {}; TEST_P(LibaomAv1SvcTest, EncodeAndDecodeAllDecodeTargets) { const SvcTestParam param = GetParam(); std::unique_ptr svc_controller = CreateScalabilityStructure(param.GetScalabilityMode()); ASSERT_TRUE(svc_controller); VideoBitrateAllocation allocation; if (param.configured_bitrates.empty()) { ScalableVideoController::StreamLayersConfig config = svc_controller->StreamConfig(); for (int sid = 0; sid < config.num_spatial_layers; ++sid) { for (int tid = 0; tid < config.num_temporal_layers; ++tid) { allocation.SetBitrate(sid, tid, 100'000); } } } else { for (const auto& kv : param.configured_bitrates) { allocation.SetBitrate(kv.first.spatial_id, kv.first.temporal_id, kv.second.bps()); } } size_t num_decode_targets = svc_controller->DependencyStructure().num_decode_targets; std::unique_ptr encoder = CreateLibaomAv1Encoder(); VideoCodec codec_settings = DefaultCodecSettings(); codec_settings.SetScalabilityMode(GetParam().GetScalabilityMode()); ASSERT_EQ(encoder->InitEncode(&codec_settings, DefaultEncoderSettings()), WEBRTC_VIDEO_CODEC_OK); encoder->SetRates(VideoEncoder::RateControlParameters( allocation, codec_settings.maxFramerate)); std::vector encoded_frames = EncodedVideoFrameProducer(*encoder) .SetNumInputFrames(GetParam().num_frames_to_generate) .SetResolution({kWidth, kHeight}) .Encode(); ASSERT_THAT( encoded_frames, Each(Truly([&](const EncodedVideoFrameProducer::EncodedFrame& frame) { return frame.codec_specific_info.generic_frame_info && frame.codec_specific_info.generic_frame_info ->decode_target_indications.size() == num_decode_targets; }))); for (size_t dt = 0; dt < num_decode_targets; ++dt) { TestAv1Decoder decoder(dt); std::vector requested_ids; for (int64_t frame_id = 0; frame_id < static_cast(encoded_frames.size()); ++frame_id) { const EncodedVideoFrameProducer::EncodedFrame& frame = encoded_frames[frame_id]; if (frame.codec_specific_info.generic_frame_info ->decode_target_indications[dt] != DecodeTargetIndication::kNotPresent) { requested_ids.push_back(frame_id); decoder.Decode(frame_id, frame.encoded_image); } } ASSERT_THAT(requested_ids, SizeIs(Ge(2u))); // Check decoder found all of them valid. EXPECT_THAT(decoder.decoded_frame_ids(), ContainerEq(requested_ids)) << "Decoder#" << dt; // Check each of them produced an output frame. EXPECT_EQ(decoder.num_output_frames(), decoder.decoded_frame_ids().size()) << "Decoder#" << dt; } } MATCHER(SameLayerIdAndBitrateIsNear, "") { // First check if layer id is the same. return std::get<0>(arg).first == std::get<1>(arg).first && // check measured bitrate is not much lower than requested. std::get<0>(arg).second >= std::get<1>(arg).second * 0.8 && // check measured bitrate is not much larger than requested. std::get<0>(arg).second <= std::get<1>(arg).second * 1.1; } TEST_P(LibaomAv1SvcTest, SetRatesMatchMeasuredBitrate) { const SvcTestParam param = GetParam(); if (param.configured_bitrates.empty()) { // Rates are not configured for this particular structure, skip the test. return; } constexpr TimeDelta kDuration = TimeDelta::Seconds(5); VideoBitrateAllocation allocation; for (const auto& kv : param.configured_bitrates) { allocation.SetBitrate(kv.first.spatial_id, kv.first.temporal_id, kv.second.bps()); } std::unique_ptr encoder = CreateLibaomAv1Encoder(); ASSERT_TRUE(encoder); VideoCodec codec_settings = DefaultCodecSettings(); codec_settings.SetScalabilityMode(param.GetScalabilityMode()); codec_settings.maxBitrate = allocation.get_sum_kbps(); codec_settings.maxFramerate = 30; ASSERT_EQ(encoder->InitEncode(&codec_settings, DefaultEncoderSettings()), WEBRTC_VIDEO_CODEC_OK); encoder->SetRates(VideoEncoder::RateControlParameters( allocation, codec_settings.maxFramerate)); std::vector encoded_frames = EncodedVideoFrameProducer(*encoder) .SetNumInputFrames(codec_settings.maxFramerate * kDuration.seconds()) .SetResolution({codec_settings.width, codec_settings.height}) .SetFramerateFps(codec_settings.maxFramerate) .Encode(); // Calculate size of each layer. std::map layer_size; for (const auto& frame : encoded_frames) { ASSERT_TRUE(frame.codec_specific_info.generic_frame_info); const auto& layer = *frame.codec_specific_info.generic_frame_info; LayerId layer_id = {layer.spatial_id, layer.temporal_id}; // This is almost same as // layer_size[layer_id] += DataSize::Bytes(frame.encoded_image.size()); // but avoids calling deleted default constructor for DataSize. layer_size.emplace(layer_id, DataSize::Zero()).first->second += DataSize::Bytes(frame.encoded_image.size()); } // Convert size of the layer into bitrate of that layer. std::vector> measured_bitrates; for (const auto& kv : layer_size) { measured_bitrates.emplace_back(kv.first, kv.second / kDuration); } EXPECT_THAT(measured_bitrates, Pointwise(SameLayerIdAndBitrateIsNear(), param.configured_bitrates)); } INSTANTIATE_TEST_SUITE_P( Svc, LibaomAv1SvcTest, Values(SvcTestParam{"L1T1", /*num_frames_to_generate=*/4}, SvcTestParam{"L1T2", /*num_frames_to_generate=*/4, /*configured_bitrates=*/ {{{0, 0}, DataRate::KilobitsPerSec(60)}, {{0, 1}, DataRate::KilobitsPerSec(40)}}}, SvcTestParam{"L1T3", /*num_frames_to_generate=*/8}, SvcTestParam{"L2T1", /*num_frames_to_generate=*/3, /*configured_bitrates=*/ {{{0, 0}, DataRate::KilobitsPerSec(30)}, {{1, 0}, DataRate::KilobitsPerSec(70)}}}, SvcTestParam{"L2T1h", /*num_frames_to_generate=*/3, /*configured_bitrates=*/ {{{0, 0}, DataRate::KilobitsPerSec(30)}, {{1, 0}, DataRate::KilobitsPerSec(70)}}}, SvcTestParam{"L2T1_KEY", /*num_frames_to_generate=*/3}, SvcTestParam{"L3T1", /*num_frames_to_generate=*/3}, SvcTestParam{"L3T3", /*num_frames_to_generate=*/8}, SvcTestParam{"S2T1", /*num_frames_to_generate=*/3}, SvcTestParam{"S3T3", /*num_frames_to_generate=*/8}, SvcTestParam{"L2T2", /*num_frames_to_generate=*/4}, SvcTestParam{"L2T2_KEY", /*num_frames_to_generate=*/4}, SvcTestParam{"L2T2_KEY_SHIFT", /*num_frames_to_generate=*/4, /*configured_bitrates=*/ {{{0, 0}, DataRate::KilobitsPerSec(70)}, {{0, 1}, DataRate::KilobitsPerSec(30)}, {{1, 0}, DataRate::KilobitsPerSec(110)}, {{1, 1}, DataRate::KilobitsPerSec(80)}}}), [](const testing::TestParamInfo& info) { return info.param.name; }); } // namespace } // namespace webrtc