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Fr4nz D13trich 2025-11-22 14:04:28 +01:00
parent 81b91f4139
commit f8c34fa5ee
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/*
* Copyright (c) 2022 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 <memory>
#include <string>
#include <utility>
#include <vector>
#include "api/media_stream_interface.h"
#include "api/stats/rtcstats_objects.h"
#include "api/test/create_network_emulation_manager.h"
#include "api/test/create_peer_connection_quality_test_frame_generator.h"
#include "api/test/create_peerconnection_quality_test_fixture.h"
#include "api/test/frame_generator_interface.h"
#include "api/test/metrics/global_metrics_logger_and_exporter.h"
#include "api/test/network_emulation_manager.h"
#include "api/test/pclf/media_configuration.h"
#include "api/test/pclf/media_quality_test_params.h"
#include "api/test/pclf/peer_configurer.h"
#include "api/test/peerconnection_quality_test_fixture.h"
#include "api/test/simulated_network.h"
#include "api/test/time_controller.h"
#include "api/video_codecs/vp9_profile.h"
#include "call/simulated_network.h"
#include "modules/video_coding/codecs/vp9/include/vp9.h"
#include "modules/video_coding/svc/scalability_mode_util.h"
#include "rtc_base/containers/flat_map.h"
#include "system_wrappers/include/field_trial.h"
#include "test/field_trial.h"
#include "test/gmock.h"
#include "test/gtest.h"
#include "test/pc/e2e/analyzer/video/default_video_quality_analyzer.h"
#include "test/pc/e2e/network_quality_metrics_reporter.h"
#include "test/testsupport/file_utils.h"
namespace webrtc {
namespace {
using ::cricket::kAv1CodecName;
using ::cricket::kH264CodecName;
using ::cricket::kVp8CodecName;
using ::cricket::kVp9CodecName;
using ::testing::Combine;
using ::testing::Optional;
using ::testing::UnitTest;
using ::testing::Values;
using ::testing::ValuesIn;
using ::webrtc::webrtc_pc_e2e::EmulatedSFUConfig;
using ::webrtc::webrtc_pc_e2e::PeerConfigurer;
using ::webrtc::webrtc_pc_e2e::RunParams;
using ::webrtc::webrtc_pc_e2e::ScreenShareConfig;
using ::webrtc::webrtc_pc_e2e::VideoCodecConfig;
using ::webrtc::webrtc_pc_e2e::VideoConfig;
std::unique_ptr<webrtc_pc_e2e::PeerConnectionE2EQualityTestFixture>
CreateTestFixture(absl::string_view test_case_name,
TimeController& time_controller,
std::pair<EmulatedNetworkManagerInterface*,
EmulatedNetworkManagerInterface*> network_links,
rtc::FunctionView<void(PeerConfigurer*)> alice_configurer,
rtc::FunctionView<void(PeerConfigurer*)> bob_configurer,
std::unique_ptr<VideoQualityAnalyzerInterface>
video_quality_analyzer = nullptr) {
auto fixture = webrtc_pc_e2e::CreatePeerConnectionE2EQualityTestFixture(
std::string(test_case_name), time_controller, nullptr,
std::move(video_quality_analyzer));
auto alice = std::make_unique<PeerConfigurer>(
network_links.first->network_dependencies());
auto bob = std::make_unique<PeerConfigurer>(
network_links.second->network_dependencies());
alice_configurer(alice.get());
bob_configurer(bob.get());
fixture->AddPeer(std::move(alice));
fixture->AddPeer(std::move(bob));
return fixture;
}
// Takes the current active field trials set, and appends some new trials.
std::string AppendFieldTrials(std::string new_trial_string) {
return std::string(field_trial::GetFieldTrialString()) + new_trial_string;
}
enum class UseDependencyDescriptor {
Enabled,
Disabled,
};
struct SvcTestParameters {
static SvcTestParameters Create(const std::string& codec_name,
const std::string& scalability_mode_str) {
absl::optional<ScalabilityMode> scalability_mode =
ScalabilityModeFromString(scalability_mode_str);
RTC_CHECK(scalability_mode.has_value())
<< "Unsupported scalability mode: " << scalability_mode_str;
int num_spatial_layers =
ScalabilityModeToNumSpatialLayers(*scalability_mode);
int num_temporal_layers =
ScalabilityModeToNumTemporalLayers(*scalability_mode);
return SvcTestParameters{codec_name, scalability_mode_str,
num_spatial_layers, num_temporal_layers};
}
std::string codec_name;
std::string scalability_mode;
int expected_spatial_layers;
int expected_temporal_layers;
};
class SvcTest : public testing::TestWithParam<
std::tuple<SvcTestParameters, UseDependencyDescriptor>> {
public:
SvcTest()
: video_codec_config(ToVideoCodecConfig(SvcTestParameters().codec_name)) {
}
static VideoCodecConfig ToVideoCodecConfig(absl::string_view codec) {
if (codec == cricket::kVp9CodecName) {
return VideoCodecConfig(
cricket::kVp9CodecName,
{{kVP9FmtpProfileId, VP9ProfileToString(VP9Profile::kProfile0)}});
}
return VideoCodecConfig(codec);
}
const SvcTestParameters& SvcTestParameters() const {
return std::get<0>(GetParam());
}
bool UseDependencyDescriptor() const {
return std::get<1>(GetParam()) == UseDependencyDescriptor::Enabled;
}
bool IsSMode() const {
return SvcTestParameters().scalability_mode[0] == 'S';
}
protected:
VideoCodecConfig video_codec_config;
};
std::string SvcTestNameGenerator(
const testing::TestParamInfo<SvcTest::ParamType>& info) {
return std::get<0>(info.param).scalability_mode +
(std::get<1>(info.param) == UseDependencyDescriptor::Enabled ? "_DD"
: "");
}
} // namespace
// Records how many frames are seen for each spatial and temporal index at the
// encoder and decoder level.
class SvcVideoQualityAnalyzer : public DefaultVideoQualityAnalyzer {
public:
using SpatialTemporalLayerCounts = flat_map<int, flat_map<int, int>>;
explicit SvcVideoQualityAnalyzer(Clock* clock)
: DefaultVideoQualityAnalyzer(clock,
test::GetGlobalMetricsLogger(),
DefaultVideoQualityAnalyzerOptions{
.compute_psnr = false,
.compute_ssim = false,
}) {}
~SvcVideoQualityAnalyzer() override = default;
void OnFrameEncoded(absl::string_view peer_name,
uint16_t frame_id,
const EncodedImage& encoded_image,
const EncoderStats& stats,
bool discarded) override {
absl::optional<int> spatial_id = encoded_image.SpatialIndex();
absl::optional<int> temporal_id = encoded_image.TemporalIndex();
encoder_layers_seen_[spatial_id.value_or(0)][temporal_id.value_or(0)]++;
DefaultVideoQualityAnalyzer::OnFrameEncoded(
peer_name, frame_id, encoded_image, stats, discarded);
}
void OnFramePreDecode(absl::string_view peer_name,
uint16_t frame_id,
const EncodedImage& input_image) override {
absl::optional<int> spatial_id = input_image.SpatialIndex();
absl::optional<int> temporal_id = input_image.TemporalIndex();
if (!spatial_id) {
decoder_layers_seen_[0][temporal_id.value_or(0)]++;
} else {
for (int i = 0; i <= *spatial_id; ++i) {
// If there are no spatial layers (for example VP8), we still want to
// record the temporal index for pseudo-layer "0" frames.
if (*spatial_id == 0 ||
input_image.SpatialLayerFrameSize(i).value_or(0) > 0) {
decoder_layers_seen_[i][temporal_id.value_or(0)]++;
}
}
}
DefaultVideoQualityAnalyzer::OnFramePreDecode(peer_name, frame_id,
input_image);
}
void OnStatsReports(
absl::string_view pc_label,
const rtc::scoped_refptr<const RTCStatsReport>& report) override {
// Extract the scalability mode reported in the stats.
auto outbound_stats = report->GetStatsOfType<RTCOutboundRtpStreamStats>();
for (const auto& stat : outbound_stats) {
if (stat->scalability_mode.has_value()) {
reported_scalability_mode_ = *stat->scalability_mode;
}
}
}
const SpatialTemporalLayerCounts& encoder_layers_seen() const {
return encoder_layers_seen_;
}
const SpatialTemporalLayerCounts& decoder_layers_seen() const {
return decoder_layers_seen_;
}
const absl::optional<std::string> reported_scalability_mode() const {
return reported_scalability_mode_;
}
private:
SpatialTemporalLayerCounts encoder_layers_seen_;
SpatialTemporalLayerCounts decoder_layers_seen_;
absl::optional<std::string> reported_scalability_mode_;
};
MATCHER_P2(HasSpatialAndTemporalLayers,
expected_spatial_layers,
expected_temporal_layers,
"") {
if (arg.size() != static_cast<size_t>(expected_spatial_layers)) {
*result_listener << "spatial layer count mismatch expected "
<< expected_spatial_layers << " but got " << arg.size();
return false;
}
for (const auto& [spatial_layer_index, temporal_layers] : arg) {
if (spatial_layer_index < 0 ||
spatial_layer_index >= expected_spatial_layers) {
*result_listener << "spatial layer index is not in range [0,"
<< expected_spatial_layers << "[.";
return false;
}
if (temporal_layers.size() !=
static_cast<size_t>(expected_temporal_layers)) {
*result_listener << "temporal layer count mismatch on spatial layer "
<< spatial_layer_index << ", expected "
<< expected_temporal_layers << " but got "
<< temporal_layers.size();
return false;
}
for (const auto& [temporal_layer_index, temporal_layer_frame_count] :
temporal_layers) {
if (temporal_layer_index < 0 ||
temporal_layer_index >= expected_temporal_layers) {
*result_listener << "temporal layer index on spatial layer "
<< spatial_layer_index << " is not in range [0,"
<< expected_temporal_layers << "[.";
return false;
}
}
}
return true;
}
MATCHER_P2(HasSpatialAndTemporalLayersSMode,
expected_spatial_layers,
expected_temporal_layers,
"") {
if (arg.size() != 1) {
*result_listener << "spatial layer count mismatch expected 1 but got "
<< arg.size();
return false;
}
for (const auto& [spatial_layer_index, temporal_layers] : arg) {
if (spatial_layer_index != expected_spatial_layers - 1) {
*result_listener << "spatial layer index is not equal to "
<< expected_spatial_layers - 1 << ".";
return false;
}
if (temporal_layers.size() !=
static_cast<size_t>(expected_temporal_layers)) {
*result_listener << "temporal layer count mismatch on spatial layer "
<< spatial_layer_index << ", expected "
<< expected_temporal_layers << " but got "
<< temporal_layers.size();
return false;
}
for (const auto& [temporal_layer_index, temporal_layer_frame_count] :
temporal_layers) {
if (temporal_layer_index < 0 ||
temporal_layer_index >= expected_temporal_layers) {
*result_listener << "temporal layer index on spatial layer "
<< spatial_layer_index << " is not in range [0,"
<< expected_temporal_layers << "[.";
return false;
}
}
}
return true;
}
TEST_P(SvcTest, ScalabilityModeSupported) {
std::string trials;
if (UseDependencyDescriptor()) {
trials += "WebRTC-DependencyDescriptorAdvertised/Enabled/";
}
test::ScopedFieldTrials override_trials(AppendFieldTrials(trials));
std::unique_ptr<NetworkEmulationManager> network_emulation_manager =
CreateNetworkEmulationManager(TimeMode::kSimulated);
auto analyzer = std::make_unique<SvcVideoQualityAnalyzer>(
network_emulation_manager->time_controller()->GetClock());
SvcVideoQualityAnalyzer* analyzer_ptr = analyzer.get();
auto fixture = CreateTestFixture(
UnitTest::GetInstance()->current_test_info()->name(),
*network_emulation_manager->time_controller(),
network_emulation_manager->CreateEndpointPairWithTwoWayRoutes(
BuiltInNetworkBehaviorConfig()),
[this](PeerConfigurer* alice) {
VideoConfig video(/*stream_label=*/"alice-video", /*width=*/1850,
/*height=*/1110, /*fps=*/30);
if (IsSMode()) {
video.emulated_sfu_config = EmulatedSFUConfig(
SvcTestParameters().expected_spatial_layers - 1,
SvcTestParameters().expected_temporal_layers - 1);
}
RtpEncodingParameters parameters;
parameters.scalability_mode = SvcTestParameters().scalability_mode;
video.encoding_params.push_back(parameters);
auto generator = CreateScreenShareFrameGenerator(
video, ScreenShareConfig(TimeDelta::Seconds(5)));
alice->AddVideoConfig(std::move(video), std::move(generator));
alice->SetVideoCodecs({video_codec_config});
},
[](PeerConfigurer* bob) {}, std::move(analyzer));
fixture->Run(RunParams(TimeDelta::Seconds(10)));
EXPECT_THAT(analyzer_ptr->encoder_layers_seen(),
HasSpatialAndTemporalLayers(
SvcTestParameters().expected_spatial_layers,
SvcTestParameters().expected_temporal_layers));
if (IsSMode()) {
EXPECT_THAT(analyzer_ptr->decoder_layers_seen(),
HasSpatialAndTemporalLayersSMode(
SvcTestParameters().expected_spatial_layers,
SvcTestParameters().expected_temporal_layers));
} else {
EXPECT_THAT(analyzer_ptr->decoder_layers_seen(),
HasSpatialAndTemporalLayers(
SvcTestParameters().expected_spatial_layers,
SvcTestParameters().expected_temporal_layers));
}
EXPECT_THAT(analyzer_ptr->reported_scalability_mode(),
Optional(SvcTestParameters().scalability_mode));
RTC_LOG(LS_INFO) << "Encoder layers seen: "
<< analyzer_ptr->encoder_layers_seen().size();
for (auto& [spatial_index, temporal_layers] :
analyzer_ptr->encoder_layers_seen()) {
for (auto& [temporal_index, frame_count] : temporal_layers) {
RTC_LOG(LS_INFO) << " Layer: " << spatial_index << "," << temporal_index
<< " frames: " << frame_count;
}
}
RTC_LOG(LS_INFO) << "Decoder layers seen: "
<< analyzer_ptr->decoder_layers_seen().size();
for (auto& [spatial_index, temporal_layers] :
analyzer_ptr->decoder_layers_seen()) {
for (auto& [temporal_index, frame_count] : temporal_layers) {
RTC_LOG(LS_INFO) << " Layer: " << spatial_index << "," << temporal_index
<< " frames: " << frame_count;
}
}
}
INSTANTIATE_TEST_SUITE_P(
SvcTestVP8,
SvcTest,
Combine(Values(SvcTestParameters::Create(kVp8CodecName, "L1T1"),
SvcTestParameters::Create(kVp8CodecName, "L1T2"),
SvcTestParameters::Create(kVp8CodecName, "L1T3")),
Values(UseDependencyDescriptor::Disabled,
UseDependencyDescriptor::Enabled)),
SvcTestNameGenerator);
#if defined(WEBRTC_USE_H264)
INSTANTIATE_TEST_SUITE_P(
SvcTestH264,
SvcTest,
Combine(ValuesIn({
SvcTestParameters::Create(kH264CodecName, "L1T1"),
SvcTestParameters::Create(kH264CodecName, "L1T2"),
SvcTestParameters::Create(kH264CodecName, "L1T3"),
}),
// Like AV1, H.264 RTP format does not include SVC related
// information, so always use Dependency Descriptor.
Values(UseDependencyDescriptor::Enabled)),
SvcTestNameGenerator);
#endif
#if defined(RTC_ENABLE_VP9)
INSTANTIATE_TEST_SUITE_P(
SvcTestVP9,
SvcTest,
Combine(
// TODO(bugs.webrtc.org/13960): Fix and enable remaining VP9 modes
ValuesIn({
SvcTestParameters::Create(kVp9CodecName, "L1T1"),
SvcTestParameters::Create(kVp9CodecName, "L1T2"),
SvcTestParameters::Create(kVp9CodecName, "L1T3"),
SvcTestParameters::Create(kVp9CodecName, "L2T1"),
SvcTestParameters::Create(kVp9CodecName, "L2T1h"),
SvcTestParameters::Create(kVp9CodecName, "L2T1_KEY"),
SvcTestParameters::Create(kVp9CodecName, "L2T2"),
SvcTestParameters::Create(kVp9CodecName, "L2T2h"),
SvcTestParameters::Create(kVp9CodecName, "L2T2_KEY"),
SvcTestParameters::Create(kVp9CodecName, "L2T2_KEY_SHIFT"),
SvcTestParameters::Create(kVp9CodecName, "L2T3"),
SvcTestParameters::Create(kVp9CodecName, "L2T3h"),
SvcTestParameters::Create(kVp9CodecName, "L2T3_KEY"),
// SvcTestParameters::Create(kVp9CodecName, "L2T3_KEY_SHIFT"),
SvcTestParameters::Create(kVp9CodecName, "L3T1"),
SvcTestParameters::Create(kVp9CodecName, "L3T1h"),
SvcTestParameters::Create(kVp9CodecName, "L3T1_KEY"),
SvcTestParameters::Create(kVp9CodecName, "L3T2"),
SvcTestParameters::Create(kVp9CodecName, "L3T2h"),
SvcTestParameters::Create(kVp9CodecName, "L3T2_KEY"),
// SvcTestParameters::Create(kVp9CodecName, "L3T2_KEY_SHIFT"),
SvcTestParameters::Create(kVp9CodecName, "L3T3"),
SvcTestParameters::Create(kVp9CodecName, "L3T3h"),
SvcTestParameters::Create(kVp9CodecName, "L3T3_KEY"),
// SvcTestParameters::Create(kVp9CodecName, "L3T3_KEY_SHIFT"),
SvcTestParameters::Create(kVp9CodecName, "S2T1"),
SvcTestParameters::Create(kVp9CodecName, "S2T1h"),
SvcTestParameters::Create(kVp9CodecName, "S2T2"),
SvcTestParameters::Create(kVp9CodecName, "S2T2h"),
SvcTestParameters::Create(kVp9CodecName, "S2T3"),
SvcTestParameters::Create(kVp9CodecName, "S2T3h"),
SvcTestParameters::Create(kVp9CodecName, "S3T1"),
SvcTestParameters::Create(kVp9CodecName, "S3T1h"),
SvcTestParameters::Create(kVp9CodecName, "S3T2"),
SvcTestParameters::Create(kVp9CodecName, "S3T2h"),
SvcTestParameters::Create(kVp9CodecName, "S3T3"),
SvcTestParameters::Create(kVp9CodecName, "S3T3h"),
}),
Values(UseDependencyDescriptor::Disabled,
UseDependencyDescriptor::Enabled)),
SvcTestNameGenerator);
#endif
INSTANTIATE_TEST_SUITE_P(
SvcTestAV1,
SvcTest,
Combine(ValuesIn({
SvcTestParameters::Create(kAv1CodecName, "L1T1"),
SvcTestParameters::Create(kAv1CodecName, "L1T2"),
SvcTestParameters::Create(kAv1CodecName, "L1T3"),
SvcTestParameters::Create(kAv1CodecName, "L2T1"),
SvcTestParameters::Create(kAv1CodecName, "L2T1h"),
SvcTestParameters::Create(kAv1CodecName, "L2T1_KEY"),
SvcTestParameters::Create(kAv1CodecName, "L2T2"),
SvcTestParameters::Create(kAv1CodecName, "L2T2h"),
SvcTestParameters::Create(kAv1CodecName, "L2T2_KEY"),
SvcTestParameters::Create(kAv1CodecName, "L2T2_KEY_SHIFT"),
SvcTestParameters::Create(kAv1CodecName, "L2T3"),
SvcTestParameters::Create(kAv1CodecName, "L2T3h"),
SvcTestParameters::Create(kAv1CodecName, "L2T3_KEY"),
// SvcTestParameters::Create(kAv1CodecName, "L2T3_KEY_SHIFT"),
// TODO(bugs.webrtc.org/15666): Investigate and reenable AV1
// L3 tests. SvcTestParameters::Create(kAv1CodecName, "L3T1"),
// SvcTestParameters::Create(kAv1CodecName, "L3T1h"),
// SvcTestParameters::Create(kAv1CodecName, "L3T1_KEY"),
// SvcTestParameters::Create(kAv1CodecName, "L3T2"),
// SvcTestParameters::Create(kAv1CodecName, "L3T2h"),
// SvcTestParameters::Create(kAv1CodecName, "L3T2_KEY"),
// SvcTestParameters::Create(kAv1CodecName, "L3T2_KEY_SHIFT"),
// SvcTestParameters::Create(kAv1CodecName, "L3T3"),
// SvcTestParameters::Create(kAv1CodecName, "L3T3h"),
// SvcTestParameters::Create(kAv1CodecName, "L3T3_KEY"),
// SvcTestParameters::Create(kAv1CodecName, "L3T3_KEY_SHIFT"),
SvcTestParameters::Create(kAv1CodecName, "S2T1"),
SvcTestParameters::Create(kAv1CodecName, "S2T1h"),
SvcTestParameters::Create(kAv1CodecName, "S2T2"),
SvcTestParameters::Create(kAv1CodecName, "S2T2h"),
SvcTestParameters::Create(kAv1CodecName, "S2T3"),
SvcTestParameters::Create(kAv1CodecName, "S2T3h"),
// TODO(bugs.webrtc.org/15666): Investigate and reenable AV1
// S3 tests.
// SvcTestParameters::Create(kAv1CodecName, "S3T1"),
// SvcTestParameters::Create(kAv1CodecName, "S3T1h"),
// SvcTestParameters::Create(kAv1CodecName, "S3T2"),
// SvcTestParameters::Create(kAv1CodecName, "S3T2h"),
// SvcTestParameters::Create(kAv1CodecName, "S3T3"),
// SvcTestParameters::Create(kAv1CodecName, "S3T3h"),
}),
Values(UseDependencyDescriptor::Enabled)),
SvcTestNameGenerator);
} // namespace webrtc